 OUTPUT FILE FOR TRANS.F
 Latitude  45.0, longitude   0.0.

 REED : The energy degradation is computed from the center energies of the grid.
 REED : The energy degradation source term is interpolated linearly with tau.
 REED : The albedo at  80. km is set to 1.00
 REED : The low energy phase function is taken from Porter
 REED : Secondary distribution from Rees et al., PSS 17, 1997, 1969           
 REED : Wiscombe's delta-M method IS applied

 MAIN : The screening parameter for the Rutherford phase function is calculated
        from the Bethe/Moliere formula for E > 500 eV

 MAIN : The energy grid covers the range from : 0.001 [eV] up to :   287.9 [eV].

 MAIN : The total energy input from the precipitation source is : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]
                                  and from photoelectron source : 5.9755E+11 [eV/cm2/s]
                                                             or : 9.5740E-01 [erg/cm2/s]
 That variable "errorgaupin" is:           90

 MAIN : Total energy deposition in [CO2] is 4.896E+11 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 3.710E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 2.198E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 3.829E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 1.030E+02 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 4.523E+00 [eV.cm-2.s-1] ("shsum").
  3.28071987E+09           2          21
  3.59038874E+09           2          23

 Total Heating :  1.040E+06 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  8.2056392E-03
 entot depart   1040488.9       1040488.9    
 shsum :  2.92250132E+10  4.89621815E+11  4.89620767E+11  4.89620767E+11
 shsum :  2.95357624E+10  5.26718403E+11  3.70965791E+10  5.26717354E+11
 shsum :  2.96686346E+10  5.48698358E+11  2.19799532E+10  5.48697309E+11
 shsum :  3.04872653E+10  5.86987340E+11  3.82890066E+10  5.86986291E+11
 shsum :  3.04872653E+10  5.86987340E+11   102.98798      5.86986291E+11
 shsum :  3.04872653E+10  5.86987340E+11   4.5231810      5.86986291E+11
 fin  5.86987340E+11  3.04872653E+10   19.600046    
   19.253525    
 -2.17084823E+13   19.600046    
 ezero   0.0000000    
  5.86987340E+11
  1.10757308E+14

Total energy input of :5.976E+11 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 5.870E+11 is absorbed (entot) 
                         through inelastic collisions (shsum =5.870E+11)
                                           + heating (elhsum =1.040E+06)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  19.60 eV (from qtoteV)
                                  or :  19.25 eV (from (entot))
                                  or :******* eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  50.0, longitude   0.0.

 REED : The energy degradation is computed from the center energies of the grid.
 REED : The energy degradation source term is interpolated linearly with tau.
 REED : The albedo at  80. km is set to 1.00
 REED : The low energy phase function is taken from Porter
 REED : Secondary distribution from Rees et al., PSS 17, 1997, 1969           
 REED : Wiscombe's delta-M method IS applied

 MAIN : The screening parameter for the Rutherford phase function is calculated
        from the Bethe/Moliere formula for E > 500 eV

 MAIN : The energy grid covers the range from : 0.001 [eV] up to :   287.9 [eV].

 MAIN : The total energy input from the precipitation source is : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]
                                  and from photoelectron source : 5.4406E+11 [eV/cm2/s]
                                                             or : 8.7169E-01 [erg/cm2/s]
 That variable "errorgaupin" is:           95

 MAIN : Total energy deposition in [CO2] is 4.419E+11 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 3.425E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 2.050E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 3.656E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 1.001E+02 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 4.447E+00 [eV.cm-2.s-1] ("shsum").
  3.18104627E+09           2          21
  3.47974400E+09           2          23

 Total Heating :  9.951E+05 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  7.6268977E-03
 entot depart   995059.75       995059.75    
 shsum :  2.65270723E+10  4.41879233E+11  4.41878249E+11  4.41878249E+11
 shsum :  2.68159037E+10  4.76133884E+11  3.42546452E+10  4.76132901E+11
 shsum :  2.69409894E+10  4.96629449E+11  2.04955648E+10  4.96628466E+11
 shsum :  2.77274706E+10  5.33187330E+11  3.65578732E+10  5.33186347E+11
 shsum :  2.77274706E+10  5.33187330E+11   100.10226      5.33186347E+11
 shsum :  2.77274706E+10  5.33187330E+11   4.4465942      5.33186347E+11
 fin  5.33187330E+11  2.77274706E+10   19.621687    
   19.229570    
 -2.38691906E+13   19.621687    
 ezero   0.0000000    
  5.33187330E+11
  1.21646979E+14

Total energy input of :5.441E+11 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 5.332E+11 is absorbed (entot) 
                         through inelastic collisions (shsum =5.332E+11)
                                           + heating (elhsum =9.951E+05)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  19.62 eV (from qtoteV)
                                  or :  19.23 eV (from (entot))
                                  or :******* eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  55.0, longitude   0.0.

 REED : The energy degradation is computed from the center energies of the grid.
 REED : The energy degradation source term is interpolated linearly with tau.
 REED : The albedo at  80. km is set to 1.00
 REED : The low energy phase function is taken from Porter
 REED : Secondary distribution from Rees et al., PSS 17, 1997, 1969           
 REED : Wiscombe's delta-M method IS applied

 MAIN : The screening parameter for the Rutherford phase function is calculated
        from the Bethe/Moliere formula for E > 500 eV

 MAIN : The energy grid covers the range from : 0.001 [eV] up to :   287.9 [eV].

 MAIN : The total energy input from the precipitation source is : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]
                                  and from photoelectron source : 4.8664E+11 [eV/cm2/s]
                                                             or : 7.7970E-01 [erg/cm2/s]
 That variable "errorgaupin" is:           80

 MAIN : Total energy deposition in [CO2] is 3.909E+11 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 3.116E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 1.886E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 3.457E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 9.668E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 4.354E+00 [eV.cm-2.s-1] ("shsum").
  3.06352000E+09           2          21
  3.34950016E+09           2          23

 Total Heating :  9.415E+05 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  6.9976440E-03
 entot depart   941497.44       941497.44    
 shsum :  2.36398182E+10  3.90864339E+11  3.90863389E+11  3.90863389E+11
 shsum :  2.39048212E+10  4.22024118E+11  3.11597916E+10  4.22023168E+11
 shsum :  2.40213197E+10  4.40881349E+11  1.88572344E+10  4.40880398E+11
 shsum :  2.47708406E+10  4.75455291E+11  3.45739592E+10  4.75454374E+11
 shsum :  2.47708406E+10  4.75455291E+11   96.683167      4.75454374E+11
 shsum :  2.47708406E+10  4.75455291E+11   4.3541427      4.75454374E+11
 fin  4.75455291E+11  2.47708406E+10   19.645823    
   19.194153    
 -2.67182009E+13   19.645823    
 ezero   0.0000000    
  4.75455291E+11
  1.35999401E+14

Total energy input of :4.866E+11 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 4.755E+11 is absorbed (entot) 
                         through inelastic collisions (shsum =4.755E+11)
                                           + heating (elhsum =9.415E+05)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  19.65 eV (from qtoteV)
                                  or :  19.19 eV (from (entot))
                                  or :******* eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  60.0, longitude   0.0.

 REED : The energy degradation is computed from the center energies of the grid.
 REED : The energy degradation source term is interpolated linearly with tau.
 REED : The albedo at  80. km is set to 1.00
 REED : The low energy phase function is taken from Porter
 REED : Secondary distribution from Rees et al., PSS 17, 1997, 1969           
 REED : Wiscombe's delta-M method IS applied

 MAIN : The screening parameter for the Rutherford phase function is calculated
        from the Bethe/Moliere formula for E > 500 eV

 MAIN : The energy grid covers the range from : 0.001 [eV] up to :   287.9 [eV].

 MAIN : The total energy input from the precipitation source is : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]
                                  and from photoelectron source : 4.2594E+11 [eV/cm2/s]
                                                             or : 6.8244E-01 [erg/cm2/s]
 That variable "errorgaupin" is:           84

 MAIN : Total energy deposition in [CO2] is 3.372E+11 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 2.783E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 1.706E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 3.230E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 9.262E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 4.242E+00 [eV.cm-2.s-1] ("shsum").
  2.92387456E+09           2          21
  3.19501414E+09           2          23

 Total Heating :  8.783E+05 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  6.3206246E-03
 entot depart   878320.25       878320.25    
 shsum :  2.05971927E+10  3.37250255E+11  3.37249370E+11  3.37249370E+11
 shsum :  2.08365568E+10  3.65075825E+11  2.78255534E+10  3.65074907E+11
 shsum :  2.09436570E+10  3.82138647E+11  1.70628342E+10  3.82137729E+11
 shsum :  2.16506880E+10  4.14442193E+11  3.23035341E+10  4.14441275E+11
 shsum :  2.16506880E+10  4.14442193E+11   92.617859      4.14441275E+11
 shsum :  2.16506880E+10  4.14442193E+11   4.2417841      4.14441275E+11
 fin  4.14442193E+11  2.16506880E+10   19.673166    
   19.142218    
 -3.05686496E+13   19.673166    
 ezero   0.0000000    
  4.14442193E+11
  1.55382454E+14

Total energy input of :4.259E+11 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 4.144E+11 is absorbed (entot) 
                         through inelastic collisions (shsum =4.144E+11)
                                           + heating (elhsum =8.783E+05)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  19.67 eV (from qtoteV)
                                  or :  19.14 eV (from (entot))
                                  or :******* eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  45.0, longitude   5.0.

 REED : The energy degradation is computed from the center energies of the grid.
 REED : The energy degradation source term is interpolated linearly with tau.
 REED : The albedo at  80. km is set to 1.00
 REED : The low energy phase function is taken from Porter
 REED : Secondary distribution from Rees et al., PSS 17, 1997, 1969           
 REED : Wiscombe's delta-M method IS applied

 MAIN : The screening parameter for the Rutherford phase function is calculated
        from the Bethe/Moliere formula for E > 500 eV

 MAIN : The energy grid covers the range from : 0.001 [eV] up to :   287.9 [eV].

 MAIN : The total energy input from the precipitation source is : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]
                                  and from photoelectron source : 5.9522E+11 [eV/cm2/s]
                                                             or : 9.5366E-01 [erg/cm2/s]
 That variable "errorgaupin" is:           87

 MAIN : Total energy deposition in [CO2] is 4.876E+11 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 3.697E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 2.191E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 3.820E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 1.030E+02 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 4.522E+00 [eV.cm-2.s-1] ("shsum").
  3.29157453E+09           2          21
  3.60246605E+09           2          23

 Total Heating :  1.039E+06 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  8.1798788E-03
 entot depart   1039475.1       1039475.1    
 shsum :  2.91069133E+10  4.87552778E+11  4.87551730E+11  4.87551730E+11
 shsum :  2.94166876E+10  5.24522979E+11  3.69702093E+10  5.24521931E+11
 shsum :  2.95491994E+10  5.46434646E+11  2.19116708E+10  5.46433597E+11
 shsum :  3.03659971E+10  5.84629944E+11  3.81953065E+10  5.84628896E+11
 shsum :  3.03659971E+10  5.84629944E+11   102.97133      5.84628896E+11
 shsum :  3.03659971E+10  5.84629944E+11   4.5223937      5.84628896E+11
 fin  5.84629944E+11  3.03659971E+10   19.601460    
   19.252783    
 -2.17951764E+13   19.601460    
 ezero   0.0000000    
  5.84629944E+11
  1.11191603E+14

Total energy input of :5.952E+11 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 5.846E+11 is absorbed (entot) 
                         through inelastic collisions (shsum =5.846E+11)
                                           + heating (elhsum =1.039E+06)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  19.60 eV (from qtoteV)
                                  or :  19.25 eV (from (entot))
                                  or :******* eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  50.0, longitude   5.0.

 REED : The energy degradation is computed from the center energies of the grid.
 REED : The energy degradation source term is interpolated linearly with tau.
 REED : The albedo at  80. km is set to 1.00
 REED : The low energy phase function is taken from Porter
 REED : Secondary distribution from Rees et al., PSS 17, 1997, 1969           
 REED : Wiscombe's delta-M method IS applied

 MAIN : The screening parameter for the Rutherford phase function is calculated
        from the Bethe/Moliere formula for E > 500 eV

 MAIN : The energy grid covers the range from : 0.001 [eV] up to :   287.9 [eV].

 MAIN : The total energy input from the precipitation source is : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]
                                  and from photoelectron source : 5.4194E+11 [eV/cm2/s]
                                                             or : 8.6830E-01 [erg/cm2/s]
 That variable "errorgaupin" is:          100

 MAIN : Total energy deposition in [CO2] is 4.400E+11 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 3.414E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 2.043E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 3.647E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 1.001E+02 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 4.446E+00 [eV.cm-2.s-1] ("shsum").
  3.19171430E+09           2          21
  3.49162394E+09           2          23

 Total Heating :  9.940E+05 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  7.6031992E-03
 entot depart   994002.06       994002.06    
 shsum :  2.64202076E+10  4.40012866E+11  4.40011882E+11  4.40011882E+11
 shsum :  2.67081421E+10  4.74151059E+11  3.41382103E+10  4.74150076E+11
 shsum :  2.68328899E+10  4.94582727E+11  2.04316692E+10  4.94581744E+11
 shsum :  2.76175729E+10  5.31049153E+11  3.64664095E+10  5.31048169E+11
 shsum :  2.76175729E+10  5.31049153E+11   100.08151      5.31048169E+11
 shsum :  2.76175729E+10  5.31049153E+11   4.4456573      5.31048169E+11
 fin  5.31049153E+11  2.76175729E+10   19.623144    
   19.228668    
 -2.39641727E+13   19.623144    
 ezero   0.0000000    
  5.31049153E+11
  1.22121984E+14

Total energy input of :5.419E+11 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 5.310E+11 is absorbed (entot) 
                         through inelastic collisions (shsum =5.310E+11)
                                           + heating (elhsum =9.940E+05)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  19.62 eV (from qtoteV)
                                  or :  19.23 eV (from (entot))
                                  or :******* eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  55.0, longitude   5.0.

 REED : The energy degradation is computed from the center energies of the grid.
 REED : The energy degradation source term is interpolated linearly with tau.
 REED : The albedo at  80. km is set to 1.00
 REED : The low energy phase function is taken from Porter
 REED : Secondary distribution from Rees et al., PSS 17, 1997, 1969           
 REED : Wiscombe's delta-M method IS applied

 MAIN : The screening parameter for the Rutherford phase function is calculated
        from the Bethe/Moliere formula for E > 500 eV

 MAIN : The energy grid covers the range from : 0.001 [eV] up to :   287.9 [eV].

 MAIN : The total energy input from the precipitation source is : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]
                                  and from photoelectron source : 4.8476E+11 [eV/cm2/s]
                                                             or : 7.7669E-01 [erg/cm2/s]
 That variable "errorgaupin" is:           75

 MAIN : Total energy deposition in [CO2] is 3.892E+11 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 3.105E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 1.880E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 3.449E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 9.665E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 4.353E+00 [eV.cm-2.s-1] ("shsum").
  3.07342490E+09           2          21
  3.36054093E+09           2          23

 Total Heating :  9.404E+05 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  6.9762645E-03
 entot depart   940379.75       940379.75    
 shsum :  2.35452047E+10  3.89217550E+11  3.89216600E+11  3.89216600E+11
 shsum :  2.38093967E+10  4.20272144E+11  3.10545981E+10  4.20271194E+11
 shsum :  2.39255859E+10  4.39070654E+11  1.87985101E+10  4.39069704E+11
 shsum :  2.46733783E+10  4.73557107E+11  3.44864358E+10  4.73556124E+11
 shsum :  2.46733783E+10  4.73557107E+11   96.654678      4.73556124E+11
 shsum :  2.46733783E+10  4.73557107E+11   4.3529634      4.73556124E+11
 fin  4.73557107E+11  2.46733783E+10   19.647280    
   19.193039    
 -2.68237401E+13   19.647280    
 ezero   0.0000000    
  4.73557107E+11
  1.36526483E+14

Total energy input of :4.848E+11 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 4.736E+11 is absorbed (entot) 
                         through inelastic collisions (shsum =4.736E+11)
                                           + heating (elhsum =9.404E+05)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  19.65 eV (from qtoteV)
                                  or :  19.19 eV (from (entot))
                                  or :******* eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  60.0, longitude   5.0.

 REED : The energy degradation is computed from the center energies of the grid.
 REED : The energy degradation source term is interpolated linearly with tau.
 REED : The albedo at  80. km is set to 1.00
 REED : The low energy phase function is taken from Porter
 REED : Secondary distribution from Rees et al., PSS 17, 1997, 1969           
 REED : Wiscombe's delta-M method IS applied

 MAIN : The screening parameter for the Rutherford phase function is calculated
        from the Bethe/Moliere formula for E > 500 eV

 MAIN : The energy grid covers the range from : 0.001 [eV] up to :   287.9 [eV].

 MAIN : The total energy input from the precipitation source is : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]
                                  and from photoelectron source : 4.2431E+11 [eV/cm2/s]
                                                             or : 6.7984E-01 [erg/cm2/s]
 That variable "errorgaupin" is:           84

 MAIN : Total energy deposition in [CO2] is 3.358E+11 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 2.773E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 1.701E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 3.222E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 9.258E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 4.240E+00 [eV.cm-2.s-1] ("shsum").
  2.93238451E+09           2          21
  3.20451584E+09           2          23

 Total Heating :  8.771E+05 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  6.3017402E-03
 entot depart   877118.38       877118.38    
 shsum :  2.05157581E+10  3.35839363E+11  3.35838478E+11  3.35838478E+11
 shsum :  2.07544054E+10  3.63571937E+11  2.77325865E+10  3.63571053E+11
 shsum :  2.08612229E+10  3.80581806E+11  1.70098821E+10  3.80580921E+11
 shsum :  2.15666135E+10  4.12802810E+11  3.22210140E+10  4.12801925E+11
 shsum :  2.15666135E+10  4.12802810E+11   92.577560      4.12801925E+11
 shsum :  2.15666135E+10  4.12802810E+11   4.2402439      4.12801925E+11
 fin  4.12802810E+11  2.15666135E+10   19.674612    
   19.140827    
 -3.06878161E+13   19.674612    
 ezero   0.0000000    
  4.12802810E+11
  1.55976737E+14

Total energy input of :4.243E+11 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 4.128E+11 is absorbed (entot) 
                         through inelastic collisions (shsum =4.128E+11)
                                           + heating (elhsum =8.771E+05)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  19.67 eV (from qtoteV)
                                  or :  19.14 eV (from (entot))
                                  or :******* eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  45.0, longitude  10.0.

 REED : The energy degradation is computed from the center energies of the grid.
 REED : The energy degradation source term is interpolated linearly with tau.
 REED : The albedo at  80. km is set to 1.00
 REED : The low energy phase function is taken from Porter
 REED : Secondary distribution from Rees et al., PSS 17, 1997, 1969           
 REED : Wiscombe's delta-M method IS applied

 MAIN : The screening parameter for the Rutherford phase function is calculated
        from the Bethe/Moliere formula for E > 500 eV

 MAIN : The energy grid covers the range from : 0.001 [eV] up to :   287.9 [eV].

 MAIN : The total energy input from the precipitation source is : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]
                                  and from photoelectron source : 5.8845E+11 [eV/cm2/s]
                                                             or : 9.4282E-01 [erg/cm2/s]
 That variable "errorgaupin" is:           83

 MAIN : Total energy deposition in [CO2] is 4.815E+11 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 3.661E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 2.172E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 3.796E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 1.027E+02 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 4.515E+00 [eV.cm-2.s-1] ("shsum").
  3.29501798E+09           2          21
  3.60635264E+09           2          23

 Total Heating :  1.035E+06 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  8.1064673E-03
 entot depart   1034621.7       1034621.7    
 shsum :  2.87645450E+10  4.81522549E+11  4.81521500E+11  4.81521500E+11
 shsum :  2.90715382E+10  5.18131909E+11  3.66093476E+10  5.18130860E+11
 shsum :  2.92030525E+10  5.39853652E+11  2.17217270E+10  5.39852603E+11
 shsum :  3.00154368E+10  5.77815773E+11  3.79620966E+10  5.77814725E+11
 shsum :  3.00154368E+10  5.77815773E+11   102.70895      5.77814725E+11
 shsum :  3.00154368E+10  5.77815773E+11   4.5149670      5.77814725E+11
 fin  5.77815773E+11  3.00154368E+10   19.605028    
   19.250620    
 -2.20497309E+13   19.605028    
 ezero   0.0000000    
  5.77815773E+11
  1.12469767E+14

Total energy input of :5.885E+11 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 5.778E+11 is absorbed (entot) 
                         through inelastic collisions (shsum =5.778E+11)
                                           + heating (elhsum =1.035E+06)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  19.61 eV (from qtoteV)
                                  or :  19.25 eV (from (entot))
                                  or :******* eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  50.0, longitude  10.0.

 REED : The energy degradation is computed from the center energies of the grid.
 REED : The energy degradation source term is interpolated linearly with tau.
 REED : The albedo at  80. km is set to 1.00
 REED : The low energy phase function is taken from Porter
 REED : Secondary distribution from Rees et al., PSS 17, 1997, 1969           
 REED : Wiscombe's delta-M method IS applied

 MAIN : The screening parameter for the Rutherford phase function is calculated
        from the Bethe/Moliere formula for E > 500 eV

 MAIN : The energy grid covers the range from : 0.001 [eV] up to :   287.9 [eV].

 MAIN : The total energy input from the precipitation source is : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]
                                  and from photoelectron source : 5.3578E+11 [eV/cm2/s]
                                                             or : 8.5842E-01 [erg/cm2/s]
 That variable "errorgaupin" is:           79

 MAIN : Total energy deposition in [CO2] is 4.345E+11 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 3.381E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 2.025E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 3.624E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 9.982E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 4.438E+00 [eV.cm-2.s-1] ("shsum").
  3.19486157E+09           2          21
  3.49519718E+09           2          23

 Total Heating :  9.892E+05 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  7.5354232E-03
 entot depart   989161.69       989161.69    
 shsum :  2.61094400E+10  4.34535793E+11  4.34534810E+11  4.34534810E+11
 shsum :  2.63948083E+10  4.68340965E+11  3.38051809E+10  4.68339982E+11
 shsum :  2.65186222E+10  4.88595030E+11  2.02540585E+10  4.88594047E+11
 shsum :  2.72990065E+10  5.24835357E+11  3.62403103E+10  5.24834374E+11
 shsum :  2.72990065E+10  5.24835357E+11   99.817329      5.24834374E+11
 shsum :  2.72990065E+10  5.24835357E+11   4.4380455      5.24834374E+11
 fin  5.24835357E+11  2.72990065E+10   19.626177    
   19.225437    
 -2.42438237E+13   19.626177    
 ezero   0.0000000    
  5.24835357E+11
  1.23527991E+14

Total energy input of :5.358E+11 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 5.248E+11 is absorbed (entot) 
                         through inelastic collisions (shsum =5.248E+11)
                                           + heating (elhsum =9.892E+05)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  19.63 eV (from qtoteV)
                                  or :  19.23 eV (from (entot))
                                  or :******* eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  55.0, longitude  10.0.

 REED : The energy degradation is computed from the center energies of the grid.
 REED : The energy degradation source term is interpolated linearly with tau.
 REED : The albedo at  80. km is set to 1.00
 REED : The low energy phase function is taken from Porter
 REED : Secondary distribution from Rees et al., PSS 17, 1997, 1969           
 REED : Wiscombe's delta-M method IS applied

 MAIN : The screening parameter for the Rutherford phase function is calculated
        from the Bethe/Moliere formula for E > 500 eV

 MAIN : The energy grid covers the range from : 0.001 [eV] up to :   287.9 [eV].

 MAIN : The total energy input from the precipitation source is : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]
                                  and from photoelectron source : 4.7929E+11 [eV/cm2/s]
                                                             or : 7.6792E-01 [erg/cm2/s]
 That variable "errorgaupin" is:           82

 MAIN : Total energy deposition in [CO2] is 3.844E+11 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 3.075E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 1.864E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 3.427E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 9.639E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 4.345E+00 [eV.cm-2.s-1] ("shsum").
  3.07573760E+09           2          21
  3.36319949E+09           2          23

 Total Heating :  9.356E+05 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  6.9151828E-03
 entot depart   935556.69       935556.69    
 shsum :  2.32700887E+10  3.84383681E+11  3.84382730E+11  3.84382730E+11
 shsum :  2.35319685E+10  4.15137595E+11  3.07539026E+10  4.15136645E+11
 shsum :  2.36472996E+10  4.33773085E+11  1.86354913E+10  4.33772134E+11
 shsum :  2.43909612E+10  4.68043137E+11  3.42700626E+10  4.68042187E+11
 shsum :  2.43909612E+10  4.68043137E+11   96.386276      4.68042187E+11
 shsum :  2.43909612E+10  4.68043137E+11   4.3451047      4.68042187E+11
 fin  4.68043137E+11  2.43909612E+10   19.650295    
   19.189205    
 -2.71343262E+13   19.650295    
 ezero   0.0000000    
  4.68043137E+11
  1.38086093E+14

Total energy input of :4.793E+11 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 4.680E+11 is absorbed (entot) 
                         through inelastic collisions (shsum =4.680E+11)
                                           + heating (elhsum =9.356E+05)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  19.65 eV (from qtoteV)
                                  or :  19.19 eV (from (entot))
                                  or :******* eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  60.0, longitude  10.0.

 REED : The energy degradation is computed from the center energies of the grid.
 REED : The energy degradation source term is interpolated linearly with tau.
 REED : The albedo at  80. km is set to 1.00
 REED : The low energy phase function is taken from Porter
 REED : Secondary distribution from Rees et al., PSS 17, 1997, 1969           
 REED : Wiscombe's delta-M method IS applied

 MAIN : The screening parameter for the Rutherford phase function is calculated
        from the Bethe/Moliere formula for E > 500 eV

 MAIN : The energy grid covers the range from : 0.001 [eV] up to :   287.9 [eV].

 MAIN : The total energy input from the precipitation source is : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]
                                  and from photoelectron source : 4.1958E+11 [eV/cm2/s]
                                                             or : 6.7226E-01 [erg/cm2/s]
 That variable "errorgaupin" is:           96

 MAIN : Total energy deposition in [CO2] is 3.317E+11 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 2.747E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 1.686E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 3.202E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 9.230E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 4.232E+00 [eV.cm-2.s-1] ("shsum").
  2.93331302E+09           2          21
  3.20564736E+09           2          23

 Total Heating :  8.723E+05 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  6.2478194E-03
 entot depart   872336.88       872336.88    
 shsum :  2.02787820E+10  3.31693392E+11  3.31692507E+11  3.31692507E+11
 shsum :  2.05153874E+10  3.59160218E+11  2.74668175E+10  3.59159333E+11
 shsum :  2.06214328E+10  3.76023286E+11  1.68630579E+10  3.76022401E+11
 shsum :  2.13229015E+10  4.08040112E+11  3.20168141E+10  4.08039227E+11
 shsum :  2.13229015E+10  4.08040112E+11   92.303253      4.08039227E+11
 shsum :  2.13229015E+10  4.08040112E+11   4.2320623      4.08039227E+11
 fin  4.08040112E+11  2.13229015E+10   19.677582    
   19.136238    
 -3.10385668E+13   19.677582    
 ezero   0.0000000    
  4.08040112E+11
  1.57735677E+14

Total energy input of :4.196E+11 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 4.080E+11 is absorbed (entot) 
                         through inelastic collisions (shsum =4.080E+11)
                                           + heating (elhsum =8.723E+05)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  19.68 eV (from qtoteV)
                                  or :  19.14 eV (from (entot))
                                  or :******* eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  45.0, longitude  15.0.

 REED : The energy degradation is computed from the center energies of the grid.
 REED : The energy degradation source term is interpolated linearly with tau.
 REED : The albedo at  80. km is set to 1.00
 REED : The low energy phase function is taken from Porter
 REED : Secondary distribution from Rees et al., PSS 17, 1997, 1969           
 REED : Wiscombe's delta-M method IS applied

 MAIN : The screening parameter for the Rutherford phase function is calculated
        from the Bethe/Moliere formula for E > 500 eV

 MAIN : The energy grid covers the range from : 0.001 [eV] up to :   287.9 [eV].

 MAIN : The total energy input from the precipitation source is : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]
                                  and from photoelectron source : 5.7723E+11 [eV/cm2/s]
                                                             or : 9.2484E-01 [erg/cm2/s]
 That variable "errorgaupin" is:           93

 MAIN : Total energy deposition in [CO2] is 4.715E+11 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 3.601E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 2.141E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 3.759E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 1.022E+02 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 4.501E+00 [eV.cm-2.s-1] ("shsum").
  3.29064730E+09           2          21
  3.60160026E+09           2          23

 Total Heating :  1.026E+06 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  7.9848673E-03
 entot depart   1025833.8       1025833.8    
 shsum :  2.81983263E+10  4.71504880E+11  4.71503864E+11  4.71503864E+11
 shsum :  2.85007155E+10  5.07517862E+11  3.60129700E+10  5.07516846E+11
 shsum :  2.86305874E+10  5.28927064E+11  2.14091960E+10  5.28926048E+11
 shsum :  2.94359306E+10  5.66514418E+11  3.75873864E+10  5.66513435E+11
 shsum :  2.94359306E+10  5.66514418E+11   102.19359      5.66513435E+11
 shsum :  2.94359306E+10  5.66514418E+11   4.5006623      5.66513435E+11
 fin  5.66514418E+11  2.94359306E+10   19.609663    
   19.245678    
 -2.24838245E+13   19.609663    
 ezero   0.0000000    
  5.66514418E+11
  1.14656853E+14

Total energy input of :5.772E+11 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 5.665E+11 is absorbed (entot) 
                         through inelastic collisions (shsum =5.665E+11)
                                           + heating (elhsum =1.026E+06)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  19.61 eV (from qtoteV)
                                  or :  19.25 eV (from (entot))
                                  or :******* eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  50.0, longitude  15.0.

 REED : The energy degradation is computed from the center energies of the grid.
 REED : The energy degradation source term is interpolated linearly with tau.
 REED : The albedo at  80. km is set to 1.00
 REED : The low energy phase function is taken from Porter
 REED : Secondary distribution from Rees et al., PSS 17, 1997, 1969           
 REED : Wiscombe's delta-M method IS applied

 MAIN : The screening parameter for the Rutherford phase function is calculated
        from the Bethe/Moliere formula for E > 500 eV

 MAIN : The energy grid covers the range from : 0.001 [eV] up to :   287.9 [eV].

 MAIN : The total energy input from the precipitation source is : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]
                                  and from photoelectron source : 5.2564E+11 [eV/cm2/s]
                                                             or : 8.4217E-01 [erg/cm2/s]
 That variable "errorgaupin" is:           81

 MAIN : Total energy deposition in [CO2] is 4.255E+11 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 3.326E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 1.996E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 3.588E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 9.930E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 4.424E+00 [eV.cm-2.s-1] ("shsum").
  3.19009715E+09           2          21
  3.49002957E+09           2          23

 Total Heating :  9.804E+05 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  7.4243844E-03
 entot depart   980449.75       980449.75    
 shsum :  2.55983780E+10  4.25528295E+11  4.25527312E+11  4.25527312E+11
 shsum :  2.58795418E+10  4.58786767E+11  3.32584796E+10  4.58785784E+11
 shsum :  2.60018319E+10  4.78750343E+11  1.99635907E+10  4.78749360E+11
 shsum :  2.67753984E+10  5.14628846E+11  3.58785106E+10  5.14627863E+11
 shsum :  2.67753984E+10  5.14628846E+11   99.302864      5.14627863E+11
 shsum :  2.67753984E+10  5.14628846E+11   4.4235568      5.14627863E+11
 fin  5.14628846E+11  2.67753984E+10   19.631277    
   19.220213    
 -2.47179248E+13   19.631277    
 ezero   0.0000000    
  5.14628846E+11
  1.25910934E+14

Total energy input of :5.256E+11 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 5.146E+11 is absorbed (entot) 
                         through inelastic collisions (shsum =5.146E+11)
                                           + heating (elhsum =9.804E+05)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  19.63 eV (from qtoteV)
                                  or :  19.22 eV (from (entot))
                                  or :******* eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  55.0, longitude  15.0.

 REED : The energy degradation is computed from the center energies of the grid.
 REED : The energy degradation source term is interpolated linearly with tau.
 REED : The albedo at  80. km is set to 1.00
 REED : The low energy phase function is taken from Porter
 REED : Secondary distribution from Rees et al., PSS 17, 1997, 1969           
 REED : Wiscombe's delta-M method IS applied

 MAIN : The screening parameter for the Rutherford phase function is calculated
        from the Bethe/Moliere formula for E > 500 eV

 MAIN : The energy grid covers the range from : 0.001 [eV] up to :   287.9 [eV].

 MAIN : The total energy input from the precipitation source is : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]
                                  and from photoelectron source : 4.7027E+11 [eV/cm2/s]
                                                             or : 7.5346E-01 [erg/cm2/s]
 That variable "errorgaupin" is:           80

 MAIN : Total energy deposition in [CO2] is 3.764E+11 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 3.026E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 1.837E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 3.392E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 9.587E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 4.330E+00 [eV.cm-2.s-1] ("shsum").
  3.07005414E+09           2          21
  3.35703142E+09           2          23

 Total Heating :  9.269E+05 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  6.8147355E-03
 entot depart   926949.75       926949.75    
 shsum :  2.28171203E+10  3.76413028E+11  3.76412111E+11  3.76412111E+11
 shsum :  2.30751949E+10  4.06672310E+11  3.02592655E+10  4.06671393E+11
 shsum :  2.31891251E+10  4.25040904E+11  1.83685857E+10  4.25039987E+11
 shsum :  2.39262290E+10  4.58964697E+11  3.39237806E+10  4.58963780E+11
 shsum :  2.39262290E+10  4.58964697E+11   95.871536      4.58963780E+11
 shsum :  2.39262290E+10  4.58964697E+11   4.3303623      4.58963780E+11
 fin  4.58964697E+11  2.39262290E+10   19.654930    
   19.182491    
 -2.76613699E+13   19.654930    
 ezero   0.0000000    
  4.58964697E+11
  1.40735022E+14

Total energy input of :4.703E+11 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 4.590E+11 is absorbed (entot) 
                         through inelastic collisions (shsum =4.590E+11)
                                           + heating (elhsum =9.269E+05)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  19.65 eV (from qtoteV)
                                  or :  19.18 eV (from (entot))
                                  or :******* eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  60.0, longitude  15.0.

 REED : The energy degradation is computed from the center energies of the grid.
 REED : The energy degradation source term is interpolated linearly with tau.
 REED : The albedo at  80. km is set to 1.00
 REED : The low energy phase function is taken from Porter
 REED : Secondary distribution from Rees et al., PSS 17, 1997, 1969           
 REED : Wiscombe's delta-M method IS applied

 MAIN : The screening parameter for the Rutherford phase function is calculated
        from the Bethe/Moliere formula for E > 500 eV

 MAIN : The energy grid covers the range from : 0.001 [eV] up to :   287.9 [eV].

 MAIN : The total energy input from the precipitation source is : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]
                                  and from photoelectron source : 4.1179E+11 [eV/cm2/s]
                                                             or : 6.5976E-01 [erg/cm2/s]
 That variable "errorgaupin" is:           78

 MAIN : Total energy deposition in [CO2] is 3.249E+11 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 2.703E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 1.662E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 3.169E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 9.179E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 4.217E+00 [eV.cm-2.s-1] ("shsum").
  2.92623258E+09           2          21
  3.19794202E+09           2          23

 Total Heating :  8.639E+05 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  6.1591710E-03
 entot depart   863904.38       863904.38    
 shsum :  1.98885908E+10  3.24856414E+11  3.24855562E+11  3.24855562E+11
 shsum :  2.01218396E+10  3.51886180E+11  2.70297580E+10  3.51885328E+11
 shsum :  2.02266235E+10  3.68508862E+11  1.66226975E+10  3.68508010E+11
 shsum :  2.09218662E+10  4.00198795E+11  3.16899348E+10  4.00197943E+11
 shsum :  2.09218662E+10  4.00198795E+11   91.788849      4.00197943E+11
 shsum :  2.09218662E+10  4.00198795E+11   4.2170343      4.00197943E+11
 fin  4.00198795E+11  2.09218662E+10   19.682110    
   19.128256    
 -3.16335205E+13   19.682110    
 ezero   0.0000000    
  4.00198795E+11
  1.60722206E+14

Total energy input of :4.118E+11 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 4.002E+11 is absorbed (entot) 
                         through inelastic collisions (shsum =4.002E+11)
                                           + heating (elhsum =8.639E+05)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  19.68 eV (from qtoteV)
                                  or :  19.13 eV (from (entot))
                                  or :******* eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  45.0, longitude  20.0.

 REED : The energy degradation is computed from the center energies of the grid.
 REED : The energy degradation source term is interpolated linearly with tau.
 REED : The albedo at  80. km is set to 1.00
 REED : The low energy phase function is taken from Porter
 REED : Secondary distribution from Rees et al., PSS 17, 1997, 1969           
 REED : Wiscombe's delta-M method IS applied

 MAIN : The screening parameter for the Rutherford phase function is calculated
        from the Bethe/Moliere formula for E > 500 eV

 MAIN : The energy grid covers the range from : 0.001 [eV] up to :   287.9 [eV].

 MAIN : The total energy input from the precipitation source is : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]
                                  and from photoelectron source : 5.6172E+11 [eV/cm2/s]
                                                             or : 9.0000E-01 [erg/cm2/s]
 That variable "errorgaupin" is:           88

 MAIN : Total energy deposition in [CO2] is 4.577E+11 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 3.519E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 2.098E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 3.707E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 1.014E+02 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 4.479E+00 [eV.cm-2.s-1] ("shsum").
  3.27790592E+09           2          21
  3.58759475E+09           2          23

 Total Heating :  1.013E+06 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  7.8167897E-03
 entot depart   1012971.5       1012971.5    
 shsum :  2.74159165E+10  4.57677472E+11  4.57676456E+11  4.57676456E+11
 shsum :  2.77119406E+10  4.92864668E+11  3.51871795E+10  4.92863619E+11
 shsum :  2.78395392E+10  5.13840710E+11  2.09760502E+10  5.13839661E+11
 shsum :  2.86351852E+10  5.50910099E+11  3.70693898E+10  5.50909051E+11
 shsum :  2.86351852E+10  5.50910099E+11   101.41519      5.50909051E+11
 shsum :  2.86351852E+10  5.50910099E+11   4.4791822      5.50909051E+11
 fin  5.50910099E+11  2.86351852E+10   19.616587    
   19.238922    
 -2.31125549E+13   19.616587    
 ezero   0.0000000    
  5.50910099E+11
  1.17821489E+14

Total energy input of :5.617E+11 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 5.509E+11 is absorbed (entot) 
                         through inelastic collisions (shsum =5.509E+11)
                                           + heating (elhsum =1.013E+06)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  19.62 eV (from qtoteV)
                                  or :  19.24 eV (from (entot))
                                  or :******* eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  50.0, longitude  20.0.

 REED : The energy degradation is computed from the center energies of the grid.
 REED : The energy degradation source term is interpolated linearly with tau.
 REED : The albedo at  80. km is set to 1.00
 REED : The low energy phase function is taken from Porter
 REED : Secondary distribution from Rees et al., PSS 17, 1997, 1969           
 REED : Wiscombe's delta-M method IS applied

 MAIN : The screening parameter for the Rutherford phase function is calculated
        from the Bethe/Moliere formula for E > 500 eV

 MAIN : The energy grid covers the range from : 0.001 [eV] up to :   287.9 [eV].

 MAIN : The total energy input from the precipitation source is : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]
                                  and from photoelectron source : 5.1158E+11 [eV/cm2/s]
                                                             or : 8.1965E-01 [erg/cm2/s]
 That variable "errorgaupin" is:           95

 MAIN : Total energy deposition in [CO2] is 4.130E+11 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 3.250E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 1.956E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 3.538E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 9.853E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 4.402E+00 [eV.cm-2.s-1] ("shsum").
  3.17686272E+09           2          21
  3.47550157E+09           2          23

 Total Heating :  9.677E+05 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  7.2701527E-03
 entot depart   967731.25       967731.25    
 shsum :  2.48907817E+10  4.13044376E+11  4.13043393E+11  4.13043393E+11
 shsum :  2.51661046E+10  4.45543842E+11  3.24994806E+10  4.45542859E+11
 shsum :  2.52862812E+10  4.65104077E+11  1.95602473E+10  4.65103094E+11
 shsum :  2.60504535E+10  5.00482540E+11  3.53784586E+10  5.00481556E+11
 shsum :  2.60504535E+10  5.00482540E+11   98.528130      5.00481556E+11
 shsum :  2.60504535E+10  5.00482540E+11   4.4018612      5.00481556E+11
 fin  5.00482540E+11  2.60504535E+10   19.637945    
   19.212048    
 -2.54057864E+13   19.637945    
 ezero   0.0000000    
  5.00482540E+11
  1.29370908E+14

Total energy input of :5.116E+11 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 5.005E+11 is absorbed (entot) 
                         through inelastic collisions (shsum =5.005E+11)
                                           + heating (elhsum =9.677E+05)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  19.64 eV (from qtoteV)
                                  or :  19.21 eV (from (entot))
                                  or :******* eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  55.0, longitude  20.0.

 REED : The energy degradation is computed from the center energies of the grid.
 REED : The energy degradation source term is interpolated linearly with tau.
 REED : The albedo at  80. km is set to 1.00
 REED : The low energy phase function is taken from Porter
 REED : Secondary distribution from Rees et al., PSS 17, 1997, 1969           
 REED : Wiscombe's delta-M method IS applied

 MAIN : The screening parameter for the Rutherford phase function is calculated
        from the Bethe/Moliere formula for E > 500 eV

 MAIN : The energy grid covers the range from : 0.001 [eV] up to :   287.9 [eV].

 MAIN : The total energy input from the precipitation source is : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]
                                  and from photoelectron source : 4.5778E+11 [eV/cm2/s]
                                                             or : 7.3346E-01 [erg/cm2/s]
 That variable "errorgaupin" is:           94

 MAIN : Total energy deposition in [CO2] is 3.654E+11 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 2.957E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 1.800E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 3.345E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 9.510E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 4.308E+00 [eV.cm-2.s-1] ("shsum").
  3.05585638E+09           2          21
  3.34145894E+09           2          23

 Total Heating :  9.144E+05 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  6.6754837E-03
 entot depart   914442.31       914442.31    
 shsum :  2.21905900E+10  3.65385974E+11  3.65385056E+11  3.65385056E+11
 shsum :  2.24433910E+10  3.94959290E+11  2.95733228E+10  3.94958373E+11
 shsum :  2.25553818E+10  4.12957671E+11  1.79983872E+10  4.12956754E+11
 shsum :  2.32834621E+10  4.46403314E+11  3.34456340E+10  4.46402396E+11
 shsum :  2.32834621E+10  4.46403314E+11   95.101212      4.46402396E+11
 shsum :  2.32834621E+10  4.46403314E+11   4.3084245      4.46402396E+11
 fin  4.46403314E+11  2.32834621E+10   19.661198    
   19.172548    
 -2.84249953E+13   19.661198    
 ezero   0.0000000    
  4.46403314E+11
  1.44574069E+14

Total energy input of :4.578E+11 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 4.464E+11 is absorbed (entot) 
                         through inelastic collisions (shsum =4.464E+11)
                                           + heating (elhsum =9.144E+05)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  19.66 eV (from qtoteV)
                                  or :  19.17 eV (from (entot))
                                  or :******* eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  60.0, longitude  20.0.

 REED : The energy degradation is computed from the center energies of the grid.
 REED : The energy degradation source term is interpolated linearly with tau.
 REED : The albedo at  80. km is set to 1.00
 REED : The low energy phase function is taken from Porter
 REED : Secondary distribution from Rees et al., PSS 17, 1997, 1969           
 REED : Wiscombe's delta-M method IS applied

 MAIN : The screening parameter for the Rutherford phase function is calculated
        from the Bethe/Moliere formula for E > 500 eV

 MAIN : The energy grid covers the range from : 0.001 [eV] up to :   287.9 [eV].

 MAIN : The total energy input from the precipitation source is : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]
                                  and from photoelectron source : 4.0100E+11 [eV/cm2/s]
                                                             or : 6.4248E-01 [erg/cm2/s]
 That variable "errorgaupin" is:           75

 MAIN : Total energy deposition in [CO2] is 3.154E+11 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 2.642E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 1.629E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 3.124E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 9.103E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 4.195E+00 [eV.cm-2.s-1] ("shsum").
  2.91064550E+09           2          21
  3.18085018E+09           2          23

 Total Heating :  8.517E+05 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  6.0362667E-03
 entot depart   851722.44       851722.44    
 shsum :  1.93490432E+10  3.15401011E+11  3.15400159E+11  3.15400159E+11
 shsum :  1.95776369E+10  3.41824766E+11  2.64237466E+10  3.41823914E+11
 shsum :  1.96806697E+10  3.58114132E+11  1.62893732E+10  3.58113280E+11
 shsum :  2.03673436E+10  3.89352817E+11  3.12386867E+10  3.89351965E+11
 shsum :  2.03673436E+10  3.89352817E+11   91.025818      3.89351965E+11
 shsum :  2.03673436E+10  3.89352817E+11   4.1948643      3.89351965E+11
 fin  3.89352817E+11  2.03673436E+10   19.688248    
   19.116524    
 -3.24947767E+13   19.688248    
 ezero   0.0000000    
  3.89352817E+11
  1.65046550E+14

Total energy input of :4.010E+11 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 3.894E+11 is absorbed (entot) 
                         through inelastic collisions (shsum =3.894E+11)
                                           + heating (elhsum =8.517E+05)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  19.69 eV (from qtoteV)
                                  or :  19.12 eV (from (entot))
                                  or :******* eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  45.0, longitude  25.0.

 REED : The energy degradation is computed from the center energies of the grid.
 REED : The energy degradation source term is interpolated linearly with tau.
 REED : The albedo at  80. km is set to 1.00
 REED : The low energy phase function is taken from Porter
 REED : Secondary distribution from Rees et al., PSS 17, 1997, 1969           
 REED : Wiscombe's delta-M method IS applied

 MAIN : The screening parameter for the Rutherford phase function is calculated
        from the Bethe/Moliere formula for E > 500 eV

 MAIN : The energy grid covers the range from : 0.001 [eV] up to :   287.9 [eV].

 MAIN : The total energy input from the precipitation source is : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]
                                  and from photoelectron source : 5.4206E+11 [eV/cm2/s]
                                                             or : 8.6850E-01 [erg/cm2/s]
 That variable "errorgaupin" is:           83

 MAIN : Total energy deposition in [CO2] is 4.402E+11 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 3.414E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 2.042E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 3.640E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 1.004E+02 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 4.450E+00 [eV.cm-2.s-1] ("shsum").
  3.25608550E+09           2          21
  3.56355226E+09           2          23

 Total Heating :  9.958E+05 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  7.6031894E-03
 entot depart   995843.81       995843.81    
 shsum :  2.64240660E+10  4.40164418E+11  4.40163434E+11  4.40163434E+11
 shsum :  2.67120005E+10  4.74300482E+11  3.41360804E+10  4.74299498E+11
 shsum :  2.68367032E+10  4.94723498E+11  2.04230205E+10  4.94722515E+11
 shsum :  2.76199199E+10  5.31128091E+11  3.64045844E+10  5.31127108E+11
 shsum :  2.76199199E+10  5.31128091E+11   100.35960      5.31127108E+11
 shsum :  2.76199199E+10  5.31128091E+11   4.4500604      5.31127108E+11
 fin  5.31128091E+11  2.76199199E+10   19.625858    
   19.229893    
 -2.39621363E+13   19.625858    
 ezero   0.0000000    
  5.31128091E+11
  1.22094721E+14

Total energy input of :5.421E+11 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 5.311E+11 is absorbed (entot) 
                         through inelastic collisions (shsum =5.311E+11)
                                           + heating (elhsum =9.958E+05)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  19.63 eV (from qtoteV)
                                  or :  19.23 eV (from (entot))
                                  or :******* eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  50.0, longitude  25.0.

 REED : The energy degradation is computed from the center energies of the grid.
 REED : The energy degradation source term is interpolated linearly with tau.
 REED : The albedo at  80. km is set to 1.00
 REED : The low energy phase function is taken from Porter
 REED : Secondary distribution from Rees et al., PSS 17, 1997, 1969           
 REED : Wiscombe's delta-M method IS applied

 MAIN : The screening parameter for the Rutherford phase function is calculated
        from the Bethe/Moliere formula for E > 500 eV

 MAIN : The energy grid covers the range from : 0.001 [eV] up to :   287.9 [eV].

 MAIN : The total energy input from the precipitation source is : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]
                                  and from photoelectron source : 4.9373E+11 [eV/cm2/s]
                                                             or : 7.9106E-01 [erg/cm2/s]
 That variable "errorgaupin" is:           91

 MAIN : Total energy deposition in [CO2] is 3.972E+11 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 3.153E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 1.904E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 3.474E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 9.748E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 4.373E+00 [eV.cm-2.s-1] ("shsum").
  3.15445837E+09           2          21
  3.45084339E+09           2          23

 Total Heating :  9.508E+05 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  7.0736883E-03
 entot depart   950830.56       950830.56    
 shsum :  2.39934341E+10  3.97214712E+11  3.97213762E+11  3.97213762E+11
 shsum :  2.42613166E+10  4.28747096E+11  3.15323822E+10  4.28746146E+11
 shsum :  2.43787919E+10  4.47792022E+11  1.90449295E+10  4.47791071E+11
 shsum :  2.51309240E+10  4.82528920E+11  3.47368980E+10  4.82527969E+11
 shsum :  2.51309240E+10  4.82528920E+11   97.479706      4.82527969E+11
 shsum :  2.51309240E+10  4.82528920E+11   4.3725142      4.82527969E+11
 fin  4.82528920E+11  2.51309240E+10   19.646334    
   19.200603    
 -2.63353742E+13   19.646334    
 ezero   0.0000000    
  4.82528920E+11
  1.34047280E+14

Total energy input of :4.937E+11 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 4.825E+11 is absorbed (entot) 
                         through inelastic collisions (shsum =4.825E+11)
                                           + heating (elhsum =9.508E+05)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  19.65 eV (from qtoteV)
                                  or :  19.20 eV (from (entot))
                                  or :******* eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  55.0, longitude  25.0.

 REED : The energy degradation is computed from the center energies of the grid.
 REED : The energy degradation source term is interpolated linearly with tau.
 REED : The albedo at  80. km is set to 1.00
 REED : The low energy phase function is taken from Porter
 REED : Secondary distribution from Rees et al., PSS 17, 1997, 1969           
 REED : Wiscombe's delta-M method IS applied

 MAIN : The screening parameter for the Rutherford phase function is calculated
        from the Bethe/Moliere formula for E > 500 eV

 MAIN : The energy grid covers the range from : 0.001 [eV] up to :   287.9 [eV].

 MAIN : The total energy input from the precipitation source is : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]
                                  and from photoelectron source : 4.4194E+11 [eV/cm2/s]
                                                             or : 7.0808E-01 [erg/cm2/s]
 That variable "errorgaupin" is:           79

 MAIN : Total energy deposition in [CO2] is 3.514E+11 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 2.870E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 1.753E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 3.283E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 9.406E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 4.279E+00 [eV.cm-2.s-1] ("shsum").
  3.03245747E+09           2          21
  3.31572685E+09           2          23

 Total Heating :  8.979E+05 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  6.4981971E-03
 entot depart   897873.44       897873.44    
 shsum :  2.13965435E+10  3.51416779E+11  3.51415894E+11  3.51415894E+11
 shsum :  2.16426312E+10  3.80116500E+11  2.86997074E+10  3.80115616E+11
 shsum :  2.17521439E+10  3.97642105E+11  1.75255900E+10  3.97641220E+11
 shsum :  2.24686674E+10  4.30474723E+11  3.28326144E+10  4.30473839E+11
 shsum :  2.24686674E+10  4.30474723E+11   94.062592      4.30473839E+11
 shsum :  2.24686674E+10  4.30474723E+11   4.2788563      4.30473839E+11
 fin  4.30474723E+11  2.24686674E+10   19.669195    
   19.158890    
 -2.94557875E+13   19.669195    
 ezero   0.0000000    
  4.30474723E+11
  1.49755930E+14

Total energy input of :4.419E+11 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 4.305E+11 is absorbed (entot) 
                         through inelastic collisions (shsum =4.305E+11)
                                           + heating (elhsum =8.979E+05)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  19.67 eV (from qtoteV)
                                  or :  19.16 eV (from (entot))
                                  or :******* eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  60.0, longitude  25.0.

 REED : The energy degradation is computed from the center energies of the grid.
 REED : The energy degradation source term is interpolated linearly with tau.
 REED : The albedo at  80. km is set to 1.00
 REED : The low energy phase function is taken from Porter
 REED : Secondary distribution from Rees et al., PSS 17, 1997, 1969           
 REED : Wiscombe's delta-M method IS applied

 MAIN : The screening parameter for the Rutherford phase function is calculated
        from the Bethe/Moliere formula for E > 500 eV

 MAIN : The energy grid covers the range from : 0.001 [eV] up to :   287.9 [eV].

 MAIN : The total energy input from the precipitation source is : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]
                                  and from photoelectron source : 3.8732E+11 [eV/cm2/s]
                                                             or : 6.2056E-01 [erg/cm2/s]
 That variable "errorgaupin" is:           83

 MAIN : Total energy deposition in [CO2] is 3.034E+11 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 2.565E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 1.586E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 3.066E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 9.000E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 4.165E+00 [eV.cm-2.s-1] ("shsum").
  2.88591181E+09           2          21
  3.15366579E+09           2          23

 Total Heating :  8.357E+05 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  5.8797779E-03
 entot depart   835657.31       835657.31    
 shsum :  1.86655293E+10  3.03429452E+11  3.03428600E+11  3.03428600E+11
 shsum :  1.88881981E+10  3.29081520E+11  2.56520786E+10  3.29080668E+11
 shsum :  1.89889987E+10  3.44945328E+11  1.58637998E+10  3.44944476E+11
 shsum :  1.96647055E+10  3.75605953E+11  3.06606367E+10  3.75605101E+11
 shsum :  1.96647055E+10  3.75605953E+11   90.002861      3.75605101E+11
 shsum :  1.96647055E+10  3.75605953E+11   4.1651449      3.75605101E+11
 fin  3.75605953E+11  1.96647055E+10   19.696058    
   19.100512    
 -3.36558461E+13   19.696058    
 ezero   0.0000000    
  3.75605953E+11
  1.70876046E+14

Total energy input of :3.873E+11 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 3.756E+11 is absorbed (entot) 
                         through inelastic collisions (shsum =3.756E+11)
                                           + heating (elhsum =8.357E+05)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  19.70 eV (from qtoteV)
                                  or :  19.10 eV (from (entot))
                                  or :******* eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  45.0, longitude  30.0.

 REED : The energy degradation is computed from the center energies of the grid.
 REED : The energy degradation source term is interpolated linearly with tau.
 REED : The albedo at  80. km is set to 1.00
 REED : The low energy phase function is taken from Porter
 REED : Secondary distribution from Rees et al., PSS 17, 1997, 1969           
 REED : Wiscombe's delta-M method IS applied

 MAIN : The screening parameter for the Rutherford phase function is calculated
        from the Bethe/Moliere formula for E > 500 eV

 MAIN : The energy grid covers the range from : 0.001 [eV] up to :   287.9 [eV].

 MAIN : The total energy input from the precipitation source is : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]
                                  and from photoelectron source : 5.1836E+11 [eV/cm2/s]
                                                             or : 8.3052E-01 [erg/cm2/s]
 That variable "errorgaupin" is:           77

 MAIN : Total energy deposition in [CO2] is 4.191E+11 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 3.286E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 1.975E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 3.559E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 9.901E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 4.413E+00 [eV.cm-2.s-1] ("shsum").
  3.22423629E+09           2          21
  3.52842496E+09           2          23

 Total Heating :  9.742E+05 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  7.3444517E-03
 entot depart   974197.06       974197.06    
 shsum :  2.52303933E+10  4.19083026E+11  4.19082043E+11  4.19082043E+11
 shsum :  2.55085281E+10  4.51945890E+11  3.28628797E+10  4.51944907E+11
 shsum :  2.56297042E+10  4.71695983E+11  1.97500908E+10  4.71695000E+11
 shsum :  2.63976428E+10  5.07283374E+11  3.55874079E+10  5.07282391E+11
 shsum :  2.63976428E+10  5.07283374E+11   99.008347      5.07282391E+11
 shsum :  2.63976428E+10  5.07283374E+11   4.4126711      5.07282391E+11
 fin  5.07283374E+11  2.63976428E+10   19.636688    
   19.216995    
 -2.50716430E+13   19.636688    
 ezero   0.0000000    
  5.07283374E+11
  1.27677550E+14

Total energy input of :5.184E+11 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 5.073E+11 is absorbed (entot) 
                         through inelastic collisions (shsum =5.073E+11)
                                           + heating (elhsum =9.742E+05)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  19.64 eV (from qtoteV)
                                  or :  19.22 eV (from (entot))
                                  or :******* eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  50.0, longitude  30.0.

 REED : The energy degradation is computed from the center energies of the grid.
 REED : The energy degradation source term is interpolated linearly with tau.
 REED : The albedo at  80. km is set to 1.00
 REED : The low energy phase function is taken from Porter
 REED : Secondary distribution from Rees et al., PSS 17, 1997, 1969           
 REED : Wiscombe's delta-M method IS applied

 MAIN : The screening parameter for the Rutherford phase function is calculated
        from the Bethe/Moliere formula for E > 500 eV

 MAIN : The energy grid covers the range from : 0.001 [eV] up to :   287.9 [eV].

 MAIN : The total energy input from the precipitation source is : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]
                                  and from photoelectron source : 4.7224E+11 [eV/cm2/s]
                                                             or : 7.5663E-01 [erg/cm2/s]
 That variable "errorgaupin" is:          102

 MAIN : Total energy deposition in [CO2] is 3.782E+11 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 3.036E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 1.842E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 3.395E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 9.614E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 4.335E+00 [eV.cm-2.s-1] ("shsum").
  3.12197581E+09           2          21
  3.41505075E+09           2          23

 Total Heating :  9.295E+05 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  6.8359068E-03
 entot depart   929517.81       929517.81    
 shsum :  2.29145559E+10  3.78189185E+11  3.78188268E+11  3.78188268E+11
 shsum :  2.31734333E+10  4.08550932E+11  3.03617393E+10  4.08550015E+11
 shsum :  2.32876257E+10  4.26969334E+11  1.84183910E+10  4.26968416E+11
 shsum :  2.40249774E+10  4.60918587E+11  3.39492557E+10  4.60917670E+11
 shsum :  2.40249774E+10  4.60918587E+11   96.139954      4.60917670E+11
 shsum :  2.40249774E+10  4.60918587E+11   4.3349133      4.60917670E+11
 fin  4.60918587E+11  2.40249774E+10   19.656364    
   19.184975    
 -2.75476749E+13   19.656364    
 ezero   0.0000000    
  4.60918587E+11
  1.40146352E+14

Total energy input of :4.722E+11 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 4.609E+11 is absorbed (entot) 
                         through inelastic collisions (shsum =4.609E+11)
                                           + heating (elhsum =9.295E+05)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  19.66 eV (from qtoteV)
                                  or :  19.18 eV (from (entot))
                                  or :******* eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  55.0, longitude  30.0.

 REED : The energy degradation is computed from the center energies of the grid.
 REED : The energy degradation source term is interpolated linearly with tau.
 REED : The albedo at  80. km is set to 1.00
 REED : The low energy phase function is taken from Porter
 REED : Secondary distribution from Rees et al., PSS 17, 1997, 1969           
 REED : Wiscombe's delta-M method IS applied

 MAIN : The screening parameter for the Rutherford phase function is calculated
        from the Bethe/Moliere formula for E > 500 eV

 MAIN : The energy grid covers the range from : 0.001 [eV] up to :   287.9 [eV].

 MAIN : The total energy input from the precipitation source is : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]
                                  and from photoelectron source : 4.2289E+11 [eV/cm2/s]
                                                             or : 6.7756E-01 [erg/cm2/s]
 That variable "errorgaupin" is:           88

 MAIN : Total energy deposition in [CO2] is 3.347E+11 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 2.764E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 1.695E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 3.208E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 9.274E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 4.241E+00 [eV.cm-2.s-1] ("shsum").
  2.99898726E+09           2          21
  3.27887565E+09           2          23

 Total Heating :  8.770E+05 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  6.2838504E-03
 entot depart   877042.06       877042.06    
 shsum :  2.04427858E+10  3.34653751E+11  3.34652867E+11  3.34652867E+11
 shsum :  2.06807572E+10  3.62296803E+11  2.76430643E+10  3.62295919E+11
 shsum :  2.07872594E+10  3.79247919E+11  1.69511055E+10  3.79247034E+11
 shsum :  2.14896046E+10  4.11328676E+11  3.20807465E+10  4.11327791E+11
 shsum :  2.14896046E+10  4.11328676E+11   92.739372      4.11327791E+11
 shsum :  2.14896046E+10  4.11328676E+11   4.2410831      4.11327791E+11
 fin  4.11328676E+11  2.14896046E+10   19.679045    
   19.140821    
 -3.07977886E+13   19.679045    
 ezero   0.0000000    
  4.11328676E+11
  1.56500421E+14

Total energy input of :4.229E+11 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 4.113E+11 is absorbed (entot) 
                         through inelastic collisions (shsum =4.113E+11)
                                           + heating (elhsum =8.770E+05)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  19.68 eV (from qtoteV)
                                  or :  19.14 eV (from (entot))
                                  or :******* eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  60.0, longitude  30.0.

 REED : The energy degradation is computed from the center energies of the grid.
 REED : The energy degradation source term is interpolated linearly with tau.
 REED : The albedo at  80. km is set to 1.00
 REED : The low energy phase function is taken from Porter
 REED : Secondary distribution from Rees et al., PSS 17, 1997, 1969           
 REED : Wiscombe's delta-M method IS applied

 MAIN : The screening parameter for the Rutherford phase function is calculated
        from the Bethe/Moliere formula for E > 500 eV

 MAIN : The energy grid covers the range from : 0.001 [eV] up to :   287.9 [eV].

 MAIN : The total energy input from the precipitation source is : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]
                                  and from photoelectron source : 3.7088E+11 [eV/cm2/s]
                                                             or : 5.9422E-01 [erg/cm2/s]
 That variable "errorgaupin" is:           86

 MAIN : Total energy deposition in [CO2] is 2.891E+11 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 2.472E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 1.535E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 2.995E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 8.871E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 4.127E+00 [eV.cm-2.s-1] ("shsum").
  2.85122202E+09           2          21
  3.11549619E+09           2          23

 Total Heating :  8.155E+05 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  5.6905281E-03
 entot depart   815540.25       815540.25    
 shsum :  1.78449961E+10  2.89073431E+11  2.89072611E+11  2.89072611E+11
 shsum :  1.80604969E+10  3.13792365E+11  2.47189443E+10  3.13791545E+11
 shsum :  1.81585818E+10  3.29139290E+11  1.53469215E+10  3.29138471E+11
 shsum :  1.88208456E+10  3.59091667E+11  2.99523645E+10  3.59090848E+11
 shsum :  1.88208456E+10  3.59091667E+11   88.705177      3.59090848E+11
 shsum :  1.88208456E+10  3.59091667E+11   4.1273289      3.59090848E+11
 fin  3.59091667E+11  1.88208456E+10   19.705626    
   19.079466    
 -3.51648539E+13   19.705626    
 ezero   0.0000000    
  3.59091667E+11
  1.78450824E+14

Total energy input of :3.709E+11 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 3.591E+11 is absorbed (entot) 
                         through inelastic collisions (shsum =3.591E+11)
                                           + heating (elhsum =8.155E+05)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  19.71 eV (from qtoteV)
                                  or :  19.08 eV (from (entot))
                                  or :******* eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  45.0, longitude  35.0.

 REED : The energy degradation is computed from the center energies of the grid.
 REED : The energy degradation source term is interpolated linearly with tau.
 REED : The albedo at  80. km is set to 1.00
 REED : The low energy phase function is taken from Porter
 REED : Secondary distribution from Rees et al., PSS 17, 1997, 1969           
 REED : Wiscombe's delta-M method IS applied

 MAIN : The screening parameter for the Rutherford phase function is calculated
        from the Bethe/Moliere formula for E > 500 eV

 MAIN : The energy grid covers the range from : 0.001 [eV] up to :   287.9 [eV].

 MAIN : The total energy input from the precipitation source is : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]
                                  and from photoelectron source : 4.9083E+11 [eV/cm2/s]
                                                             or : 7.8640E-01 [erg/cm2/s]
 That variable "errorgaupin" is:           94

 MAIN : Total energy deposition in [CO2] is 3.946E+11 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 3.137E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 1.896E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 3.461E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 9.734E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 4.366E+00 [eV.cm-2.s-1] ("shsum").
  3.18118272E+09           2          21
  3.48091622E+09           2          23

 Total Heating :  9.477E+05 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  7.0418036E-03
 entot depart   947716.56       947716.56    
 shsum :  2.38461788E+10  3.94644718E+11  3.94643767E+11  3.94643767E+11
 shsum :  2.41128530E+10  4.26018308E+11  3.13735905E+10  4.26017358E+11
 shsum :  2.42298798E+10  4.44976497E+11  1.89581783E+10  4.44975546E+11
 shsum :  2.49795523E+10  4.79587762E+11  3.46112778E+10  4.79586812E+11
 shsum :  2.49795523E+10  4.79587762E+11   97.337692      4.79586812E+11
 shsum :  2.49795523E+10  4.79587762E+11   4.3662028      4.79586812E+11
 fin  4.79587762E+11  2.49795523E+10   19.649111    
   19.199213    
 -2.64949612E+13   19.649111    
 ezero   0.0000000    
  4.79587762E+11
  1.34840507E+14

Total energy input of :4.908E+11 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 4.796E+11 is absorbed (entot) 
                         through inelastic collisions (shsum =4.796E+11)
                                           + heating (elhsum =9.477E+05)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  19.65 eV (from qtoteV)
                                  or :  19.20 eV (from (entot))
                                  or :******* eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  50.0, longitude  35.0.

 REED : The energy degradation is computed from the center energies of the grid.
 REED : The energy degradation source term is interpolated linearly with tau.
 REED : The albedo at  80. km is set to 1.00
 REED : The low energy phase function is taken from Porter
 REED : Secondary distribution from Rees et al., PSS 17, 1997, 1969           
 REED : Wiscombe's delta-M method IS applied

 MAIN : The screening parameter for the Rutherford phase function is calculated
        from the Bethe/Moliere formula for E > 500 eV

 MAIN : The energy grid covers the range from : 0.001 [eV] up to :   287.9 [eV].

 MAIN : The total energy input from the precipitation source is : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]
                                  and from photoelectron source : 4.4733E+11 [eV/cm2/s]
                                                             or : 7.1671E-01 [erg/cm2/s]
 That variable "errorgaupin" is:           88

 MAIN : Total energy deposition in [CO2] is 3.562E+11 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 2.899E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 1.768E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 3.301E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 9.449E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 4.288E+00 [eV.cm-2.s-1] ("shsum").
  3.07827200E+09           2          21
  3.36686413E+09           2          23

 Total Heating :  9.035E+05 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  6.5582967E-03
 entot depart   903505.63       903505.63    
 shsum :  2.16650199E+10  3.56180296E+11  3.56179378E+11  3.56179378E+11
 shsum :  2.19133829E+10  3.85174405E+11  2.89941258E+10  3.85173488E+11
 shsum :  2.20237169E+10  4.02856247E+11  1.76818319E+10  4.02855330E+11
 shsum :  2.27434189E+10  4.35865911E+11  3.30096558E+10  4.35864994E+11
 shsum :  2.27434189E+10  4.35865911E+11   94.486351      4.35864994E+11
 shsum :  2.27434189E+10  4.35865911E+11   4.2882643      4.35864994E+11
 fin  4.35865911E+11  2.27434189E+10   19.668396    
   19.164486    
 -2.90999469E+13   19.668396    
 ezero   0.0000000    
  4.35865911E+11
  1.47952832E+14

Total energy input of :4.473E+11 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 4.359E+11 is absorbed (entot) 
                         through inelastic collisions (shsum =4.359E+11)
                                           + heating (elhsum =9.035E+05)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  19.67 eV (from qtoteV)
                                  or :  19.16 eV (from (entot))
                                  or :******* eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  55.0, longitude  35.0.

 REED : The energy degradation is computed from the center energies of the grid.
 REED : The energy degradation source term is interpolated linearly with tau.
 REED : The albedo at  80. km is set to 1.00
 REED : The low energy phase function is taken from Porter
 REED : Secondary distribution from Rees et al., PSS 17, 1997, 1969           
 REED : Wiscombe's delta-M method IS applied

 MAIN : The screening parameter for the Rutherford phase function is calculated
        from the Bethe/Moliere formula for E > 500 eV

 MAIN : The energy grid covers the range from : 0.001 [eV] up to :   287.9 [eV].

 MAIN : The total energy input from the precipitation source is : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]
                                  and from photoelectron source : 4.0082E+11 [eV/cm2/s]
                                                             or : 6.4220E-01 [erg/cm2/s]
 That variable "errorgaupin" is:           82

 MAIN : Total energy deposition in [CO2] is 3.153E+11 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 2.641E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 1.628E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 3.118E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 9.111E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 4.194E+00 [eV.cm-2.s-1] ("shsum").
  2.95435366E+09           2          21
  3.22970240E+09           2          23

 Total Heating :  8.517E+05 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  6.0335780E-03
 entot depart   851698.63       851698.63    
 shsum :  1.93389015E+10  3.15279147E+11  3.15278295E+11  3.15278295E+11
 shsum :  1.95673948E+10  3.41688123E+11  2.64089743E+10  3.41687271E+11
 shsum :  1.96703580E+10  3.57964120E+11  1.62760120E+10  3.57963268E+11
 shsum :  2.03557888E+10  3.89148967E+11  3.11848387E+10  3.89148115E+11
 shsum :  2.03557888E+10  3.89148967E+11   91.110794      3.89148115E+11
 shsum :  2.03557888E+10  3.89148967E+11   4.1943445      3.89148115E+11
 fin  3.89148967E+11  2.03557888E+10   19.690872    
   19.117361    
 -3.25132212E+13   19.690872    
 ezero   0.0000000    
  3.89148967E+11
  1.65118256E+14

Total energy input of :4.008E+11 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 3.891E+11 is absorbed (entot) 
                         through inelastic collisions (shsum =3.891E+11)
                                           + heating (elhsum =8.517E+05)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  19.69 eV (from qtoteV)
                                  or :  19.12 eV (from (entot))
                                  or :******* eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  60.0, longitude  35.0.

 REED : The energy degradation is computed from the center energies of the grid.
 REED : The energy degradation source term is interpolated linearly with tau.
 REED : The albedo at  80. km is set to 1.00
 REED : The low energy phase function is taken from Porter
 REED : Secondary distribution from Rees et al., PSS 17, 1997, 1969           
 REED : Wiscombe's delta-M method IS applied

 MAIN : The screening parameter for the Rutherford phase function is calculated
        from the Bethe/Moliere formula for E > 500 eV

 MAIN : The energy grid covers the range from : 0.001 [eV] up to :   287.9 [eV].

 MAIN : The total energy input from the precipitation source is : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]
                                  and from photoelectron source : 3.5184E+11 [eV/cm2/s]
                                                             or : 5.6371E-01 [erg/cm2/s]
 That variable "errorgaupin" is:           81

 MAIN : Total energy deposition in [CO2] is 2.725E+11 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 2.363E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 1.474E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 2.911E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 8.711E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 4.081E+00 [eV.cm-2.s-1] ("shsum").
  2.80557107E+09           2          21
  3.06523622E+09           2          23

 Total Heating :  7.912E+05 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  5.4694833E-03
 entot depart   791168.00       791168.00    
 shsum :  1.68959980E+10  2.72495641E+11  2.72494854E+11  2.72494854E+11
 shsum :  1.71031286E+10  2.96125039E+11  2.36294001E+10  2.96124252E+11
 shsum :  1.71980227E+10  3.10864871E+11  1.47398318E+10  3.10864085E+11
 shsum :  1.78442609E+10  3.39974423E+11  2.91095572E+10  3.39973636E+11
 shsum :  1.78442609E+10  3.39974423E+11   87.114281      3.39973636E+11
 shsum :  1.78442609E+10  3.39974423E+11   4.0807071      3.39973636E+11
 fin  3.39974423E+11  1.78442609E+10   19.717062    
   19.052311    
 -3.70893621E+13   19.717062    
 ezero   0.0000000    
  3.39974423E+11
  1.88107958E+14

Total energy input of :3.518E+11 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 3.400E+11 is absorbed (entot) 
                         through inelastic collisions (shsum =3.400E+11)
                                           + heating (elhsum =7.912E+05)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  19.72 eV (from qtoteV)
                                  or :  19.05 eV (from (entot))
                                  or :******* eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  45.0, longitude  40.0.

 REED : The energy degradation is computed from the center energies of the grid.
 REED : The energy degradation source term is interpolated linearly with tau.
 REED : The albedo at  80. km is set to 1.00
 REED : The low energy phase function is taken from Porter
 REED : Secondary distribution from Rees et al., PSS 17, 1997, 1969           
 REED : Wiscombe's delta-M method IS applied

 MAIN : The screening parameter for the Rutherford phase function is calculated
        from the Bethe/Moliere formula for E > 500 eV

 MAIN : The energy grid covers the range from : 0.001 [eV] up to :   287.9 [eV].

 MAIN : The total energy input from the precipitation source is : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]
                                  and from photoelectron source : 4.5973E+11 [eV/cm2/s]
                                                             or : 7.3658E-01 [erg/cm2/s]
 That variable "errorgaupin" is:           98

 MAIN : Total energy deposition in [CO2] is 3.671E+11 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 2.968E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 1.805E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 3.347E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 9.532E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 4.310E+00 [eV.cm-2.s-1] ("shsum").
  3.12545280E+09           2          21
  3.41940480E+09           2          23

 Total Heating :  9.160E+05 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  6.6971518E-03
 entot depart   916007.44       916007.44    
 shsum :  2.22855127E+10  3.67125791E+11  3.67124873E+11  3.67124873E+11
 shsum :  2.25391350E+10  3.96802195E+11  2.96764191E+10  3.96801278E+11
 shsum :  2.26513981E+10  4.14850908E+11  1.80487148E+10  4.14849991E+11
 shsum :  2.33796424E+10  4.48318898E+11  3.34679941E+10  4.48317981E+11
 shsum :  2.33796424E+10  4.48318898E+11   95.316849      4.48317981E+11
 shsum :  2.33796424E+10  4.48318898E+11   4.3095851      4.48317981E+11
 fin  4.48318898E+11  2.33796424E+10   19.663605    
   19.175610    
 -2.83080581E+13   19.663605    
 ezero   0.0000000    
  4.48318898E+11
  1.43961683E+14

Total energy input of :4.597E+11 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 4.483E+11 is absorbed (entot) 
                         through inelastic collisions (shsum =4.483E+11)
                                           + heating (elhsum =9.160E+05)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  19.66 eV (from qtoteV)
                                  or :  19.18 eV (from (entot))
                                  or :******* eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  50.0, longitude  40.0.

 REED : The energy degradation is computed from the center energies of the grid.
 REED : The energy degradation source term is interpolated linearly with tau.
 REED : The albedo at  80. km is set to 1.00
 REED : The low energy phase function is taken from Porter
 REED : Secondary distribution from Rees et al., PSS 17, 1997, 1969           
 REED : Wiscombe's delta-M method IS applied

 MAIN : The screening parameter for the Rutherford phase function is calculated
        from the Bethe/Moliere formula for E > 500 eV

 MAIN : The energy grid covers the range from : 0.001 [eV] up to :   287.9 [eV].

 MAIN : The total energy input from the precipitation source is : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]
                                  and from photoelectron source : 4.1922E+11 [eV/cm2/s]
                                                             or : 6.7167E-01 [erg/cm2/s]
 That variable "errorgaupin" is:           90

 MAIN : Total energy deposition in [CO2] is 3.314E+11 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 2.744E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 1.684E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 3.191E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 9.249E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 4.232E+00 [eV.cm-2.s-1] ("shsum").
  3.02189082E+09           2          21
  3.30468301E+09           2          23

 Total Heating :  8.724E+05 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  6.2423307E-03
 entot depart   872440.88       872440.88    
 shsum :  2.02574848E+10  3.31430691E+11  3.31429806E+11  3.31429806E+11
 shsum :  2.04938834E+10  3.58867272E+11  2.74365686E+10  3.58866387E+11
 shsum :  2.05997875E+10  3.75703568E+11  1.68362916E+10  3.75702684E+11
 shsum :  2.12988027E+10  4.07613932E+11  3.19103590E+10  4.07613047E+11
 shsum :  2.12988027E+10  4.07613932E+11   92.490334      4.07613047E+11
 shsum :  2.12988027E+10  4.07613932E+11   4.2315354      4.07613047E+11
 fin  4.07613932E+11  2.12988027E+10   19.682667    
   19.137880    
 -3.10736857E+13   19.682667    
 ezero   0.0000000    
  4.07613932E+11
  1.57873334E+14

Total energy input of :4.192E+11 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 4.076E+11 is absorbed (entot) 
                         through inelastic collisions (shsum =4.076E+11)
                                           + heating (elhsum =8.724E+05)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  19.68 eV (from qtoteV)
                                  or :  19.14 eV (from (entot))
                                  or :******* eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  55.0, longitude  40.0.

 REED : The energy degradation is computed from the center energies of the grid.
 REED : The energy degradation source term is interpolated linearly with tau.
 REED : The albedo at  80. km is set to 1.00
 REED : The low energy phase function is taken from Porter
 REED : Secondary distribution from Rees et al., PSS 17, 1997, 1969           
 REED : Wiscombe's delta-M method IS applied

 MAIN : The screening parameter for the Rutherford phase function is calculated
        from the Bethe/Moliere formula for E > 500 eV

 MAIN : The energy grid covers the range from : 0.001 [eV] up to :   287.9 [eV].

 MAIN : The total energy input from the precipitation source is : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]
                                  and from photoelectron source : 3.7594E+11 [eV/cm2/s]
                                                             or : 6.0233E-01 [erg/cm2/s]
 That variable "errorgaupin" is:           84

 MAIN : Total energy deposition in [CO2] is 2.935E+11 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 2.500E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 1.550E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 3.014E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 8.915E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 4.138E+00 [eV.cm-2.s-1] ("shsum").
  2.89718989E+09           2          21
  3.16670310E+09           2          23

 Total Heating :  8.215E+05 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  5.7486212E-03
 entot depart   821539.56       821539.56    
 shsum :  1.80963492E+10  2.93512053E+11  2.93511234E+11  2.93511234E+11
 shsum :  1.83140495E+10  3.18515872E+11  2.50038252E+10  3.18515053E+11
 shsum :  1.84129475E+10  3.34017233E+11  1.55013540E+10  3.34016414E+11
 shsum :  1.90785720E+10  3.64155339E+11  3.01380936E+10  3.64154520E+11
 shsum :  1.90785720E+10  3.64155339E+11   89.150612      3.64154520E+11
 shsum :  1.90785720E+10  3.64155339E+11   4.1376576      3.64154520E+11
 fin  3.64155339E+11  1.90785720E+10   19.704842    
   19.087137    
 -3.46898238E+13   19.704842    
 ezero   0.0000000    
  3.64155339E+11
  1.76047186E+14

Total energy input of :3.759E+11 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 3.642E+11 is absorbed (entot) 
                         through inelastic collisions (shsum =3.642E+11)
                                           + heating (elhsum =8.215E+05)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  19.70 eV (from qtoteV)
                                  or :  19.09 eV (from (entot))
                                  or :******* eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  60.0, longitude  40.0.

 REED : The energy degradation is computed from the center energies of the grid.
 REED : The energy degradation source term is interpolated linearly with tau.
 REED : The albedo at  80. km is set to 1.00
 REED : The low energy phase function is taken from Porter
 REED : Secondary distribution from Rees et al., PSS 17, 1997, 1969           
 REED : Wiscombe's delta-M method IS applied

 MAIN : The screening parameter for the Rutherford phase function is calculated
        from the Bethe/Moliere formula for E > 500 eV

 MAIN : The energy grid covers the range from : 0.001 [eV] up to :   287.9 [eV].

 MAIN : The total energy input from the precipitation source is : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]
                                  and from photoelectron source : 3.3039E+11 [eV/cm2/s]
                                                             or : 5.2935E-01 [erg/cm2/s]
 That variable "errorgaupin" is:           71

 MAIN : Total energy deposition in [CO2] is 2.539E+11 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 2.239E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 1.404E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 2.813E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 8.521E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 4.024E+00 [eV.cm-2.s-1] ("shsum").
  2.74771814E+09           2          21
  3.00152243E+09           2          23

 Total Heating :  7.623E+05 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  5.2177026E-03
 entot depart   762296.19       762296.19    
 shsum :  1.58287370E+10  2.53891166E+11  2.53890396E+11  2.53890396E+11
 shsum :  1.60263322E+10  2.76280508E+11  2.23893443E+10  2.76279755E+11
 shsum :  1.61175603E+10  2.90324283E+11  1.40437801E+10  2.90323530E+11
 shsum :  1.67450604E+10  3.18450893E+11  2.81266094E+10  3.18450139E+11
 shsum :  1.67450604E+10  3.18450893E+11   85.206985      3.18450139E+11
 shsum :  1.67450604E+10  3.18450893E+11   4.0243645      3.18450139E+11
 fin  3.18450893E+11  1.67450604E+10   19.730461    
   19.017603    
 -3.95240297E+13   19.730461    
 ezero   0.0000000    
  3.18450893E+11
  2.00319875E+14

Total energy input of :3.304E+11 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 3.185E+11 is absorbed (entot) 
                         through inelastic collisions (shsum =3.185E+11)
                                           + heating (elhsum =7.623E+05)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  19.73 eV (from qtoteV)
                                  or :  19.02 eV (from (entot))
                                  or :******* eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  45.0, longitude  45.0.

 REED : The energy degradation is computed from the center energies of the grid.
 REED : The energy degradation source term is interpolated linearly with tau.
 REED : The albedo at  80. km is set to 1.00
 REED : The low energy phase function is taken from Porter
 REED : Secondary distribution from Rees et al., PSS 17, 1997, 1969           
 REED : Wiscombe's delta-M method IS applied

 MAIN : The screening parameter for the Rutherford phase function is calculated
        from the Bethe/Moliere formula for E > 500 eV

 MAIN : The energy grid covers the range from : 0.001 [eV] up to :   287.9 [eV].

 MAIN : The total energy input from the precipitation source is : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]
                                  and from photoelectron source : 4.2538E+11 [eV/cm2/s]
                                                             or : 6.8154E-01 [erg/cm2/s]
 That variable "errorgaupin" is:           90

 MAIN : Total energy deposition in [CO2] is 3.368E+11 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 2.778E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 1.702E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 3.215E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 9.291E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 4.241E+00 [eV.cm-2.s-1] ("shsum").
  3.05510605E+09           2          21
  3.34175539E+09           2          23

 Total Heating :  8.786E+05 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  6.3124113E-03
 entot depart   878585.75       878585.75    
 shsum :  2.05646684E+10  3.36843801E+11  3.36842916E+11  3.36842916E+11
 shsum :  2.08037212E+10  3.64624019E+11  2.77802291E+10  3.64623135E+11
 shsum :  2.09106084E+10  3.81646733E+11  1.70227046E+10  3.81645849E+11
 shsum :  2.16140247E+10  4.13793386E+11  3.21466593E+10  4.13792502E+11
 shsum :  2.16140247E+10  4.13793386E+11   92.906876      4.13792502E+11
 shsum :  2.16140247E+10  4.13793386E+11   4.2414150      4.13792502E+11
 fin  4.13793386E+11  2.16140247E+10   19.680639    
   19.144670    
 -3.06205017E+13   19.680639    
 ezero   0.0000000    
  4.13793386E+11
  1.55586918E+14

Total energy input of :4.254E+11 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 4.138E+11 is absorbed (entot) 
                         through inelastic collisions (shsum =4.138E+11)
                                           + heating (elhsum =8.786E+05)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  19.68 eV (from qtoteV)
                                  or :  19.14 eV (from (entot))
                                  or :******* eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  50.0, longitude  45.0.

 REED : The energy degradation is computed from the center energies of the grid.
 REED : The energy degradation source term is interpolated linearly with tau.
 REED : The albedo at  80. km is set to 1.00
 REED : The low energy phase function is taken from Porter
 REED : Secondary distribution from Rees et al., PSS 17, 1997, 1969           
 REED : Wiscombe's delta-M method IS applied

 MAIN : The screening parameter for the Rutherford phase function is calculated
        from the Bethe/Moliere formula for E > 500 eV

 MAIN : The energy grid covers the range from : 0.001 [eV] up to :   287.9 [eV].

 MAIN : The total energy input from the precipitation source is : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]
                                  and from photoelectron source : 3.8819E+11 [eV/cm2/s]
                                                             or : 6.2196E-01 [erg/cm2/s]
 That variable "errorgaupin" is:           94

 MAIN : Total energy deposition in [CO2] is 3.042E+11 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 2.570E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 1.588E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 3.064E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 9.012E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 4.163E+00 [eV.cm-2.s-1] ("shsum").
  2.95098112E+09           2          21
  3.22646810E+09           2          23

 Total Heating :  8.359E+05 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  5.8895284E-03
 entot depart   835894.25       835894.25    
 shsum :  1.87067167E+10  3.04224403E+11  3.04223551E+11  3.04223551E+11
 shsum :  1.89297541E+10  3.29921266E+11  2.56968561E+10  3.29920414E+11
 shsum :  1.90306591E+10  3.45803981E+11  1.58827141E+10  3.45803129E+11
 shsum :  1.97057290E+10  3.76445501E+11  3.06415165E+10  3.76444649E+11
 shsum :  1.97057290E+10  3.76445501E+11   90.115509      3.76444649E+11
 shsum :  1.97057290E+10  3.76445501E+11   4.1633735      3.76444649E+11
 fin  3.76445501E+11  1.97057290E+10   19.699432    
   19.103354    
 -3.35857802E+13   19.699432    
 ezero   0.0000000    
  3.76445501E+11
  1.70491109E+14

Total energy input of :3.882E+11 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 3.764E+11 is absorbed (entot) 
                         through inelastic collisions (shsum =3.764E+11)
                                           + heating (elhsum =8.359E+05)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  19.70 eV (from qtoteV)
                                  or :  19.10 eV (from (entot))
                                  or :******* eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  55.0, longitude  45.0.

 REED : The energy degradation is computed from the center energies of the grid.
 REED : The energy degradation source term is interpolated linearly with tau.
 REED : The albedo at  80. km is set to 1.00
 REED : The low energy phase function is taken from Porter
 REED : Secondary distribution from Rees et al., PSS 17, 1997, 1969           
 REED : Wiscombe's delta-M method IS applied

 MAIN : The screening parameter for the Rutherford phase function is calculated
        from the Bethe/Moliere formula for E > 500 eV

 MAIN : The energy grid covers the range from : 0.001 [eV] up to :   287.9 [eV].

 MAIN : The total energy input from the precipitation source is : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]
                                  and from photoelectron source : 3.4850E+11 [eV/cm2/s]
                                                             or : 5.5836E-01 [erg/cm2/s]
 That variable "errorgaupin" is:           94

 MAIN : Total energy deposition in [CO2] is 2.696E+11 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 2.343E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 1.463E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 2.893E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 8.683E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 4.070E+00 [eV.cm-2.s-1] ("shsum").
  2.82578125E+09           2          21
  3.08799334E+09           2          23

 Total Heating :  7.862E+05 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  5.4303361E-03
 entot depart   786203.94       786203.94    
 shsum :  1.67285740E+10  2.69610254E+11  2.69609468E+11  2.69609468E+11
 shsum :  1.69342218E+10  2.93045240E+11  2.34349875E+10  2.93044453E+11
 shsum :  1.70285312E+10  3.07673563E+11  1.46283192E+10  3.07672777E+11
 shsum :  1.76712581E+10  3.36605643E+11  2.89320858E+10  3.36604856E+11
 shsum :  1.76712581E+10  3.36605643E+11   86.825943      3.36604856E+11
 shsum :  1.76712581E+10  3.36605643E+11   4.0697479      3.36604856E+11
 fin  3.36605643E+11  1.76712581E+10   19.721123    
   19.048199    
 -3.74524713E+13   19.721123    
 ezero   0.0000000    
  3.36605643E+11
  1.89910451E+14

Total energy input of :3.485E+11 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 3.366E+11 is absorbed (entot) 
                         through inelastic collisions (shsum =3.366E+11)
                                           + heating (elhsum =7.862E+05)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  19.72 eV (from qtoteV)
                                  or :  19.05 eV (from (entot))
                                  or :******* eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  60.0, longitude  45.0.

 REED : The energy degradation is computed from the center energies of the grid.
 REED : The energy degradation source term is interpolated linearly with tau.
 REED : The albedo at  80. km is set to 1.00
 REED : The low energy phase function is taken from Porter
 REED : Secondary distribution from Rees et al., PSS 17, 1997, 1969           
 REED : Wiscombe's delta-M method IS applied

 MAIN : The screening parameter for the Rutherford phase function is calculated
        from the Bethe/Moliere formula for E > 500 eV

 MAIN : The energy grid covers the range from : 0.001 [eV] up to :   287.9 [eV].

 MAIN : The total energy input from the precipitation source is : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]
                                  and from photoelectron source : 3.0676E+11 [eV/cm2/s]
                                                             or : 4.9148E-01 [erg/cm2/s]
 That variable "errorgaupin" is:           87

 MAIN : Total energy deposition in [CO2] is 2.335E+11 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 2.101E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 1.326E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 2.700E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 8.295E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 3.957E+00 [eV.cm-2.s-1] ("shsum").
  2.67614208E+09           2          21
  2.92268288E+09           2          23

 Total Heating :  7.286E+05 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  4.9363505E-03
 entot depart   728645.81       728645.81    
 shsum :  1.46551951E+10  2.33489662E+11  2.33488941E+11  2.33488941E+11
 shsum :  1.48421356E+10  2.54495326E+11  2.10056724E+10  2.54494605E+11
 shsum :  1.49292237E+10  2.67755536E+11  1.32602143E+10  2.67754815E+11
 shsum :  1.55351040E+10  2.94752322E+11  2.69967770E+10  2.94751601E+11
 shsum :  1.55351040E+10  2.94752322E+11   82.954727      2.94751601E+11
 shsum :  1.55351040E+10  2.94752322E+11   3.9571366      2.94751601E+11
 fin  2.94752322E+11  1.55351040E+10   19.745962    
   18.973309    
 -4.26023720E+13   19.745962    
 ezero   0.0000000    
  2.94752322E+11
  2.15752330E+14

Total energy input of :3.068E+11 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 2.948E+11 is absorbed (entot) 
                         through inelastic collisions (shsum =2.948E+11)
                                           + heating (elhsum =7.286E+05)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  19.75 eV (from qtoteV)
                                  or :  18.97 eV (from (entot))
                                  or :******* eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  45.0, longitude  50.0.

 REED : The energy degradation is computed from the center energies of the grid.
 REED : The energy degradation source term is interpolated linearly with tau.
 REED : The albedo at  80. km is set to 1.00
 REED : The low energy phase function is taken from Porter
 REED : Secondary distribution from Rees et al., PSS 17, 1997, 1969           
 REED : Wiscombe's delta-M method IS applied

 MAIN : The screening parameter for the Rutherford phase function is calculated
        from the Bethe/Moliere formula for E > 500 eV

 MAIN : The energy grid covers the range from : 0.001 [eV] up to :   287.9 [eV].

 MAIN : The total energy input from the precipitation source is : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]
                                  and from photoelectron source : 3.8812E+11 [eV/cm2/s]
                                                             or : 6.2185E-01 [erg/cm2/s]
 That variable "errorgaupin" is:           68

 MAIN : Total energy deposition in [CO2] is 3.042E+11 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 2.569E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 1.588E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 3.063E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 9.006E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 4.160E+00 [eV.cm-2.s-1] ("shsum").
  2.96760269E+09           2          21
  3.24517888E+09           2          23

 Total Heating :  8.349E+05 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  5.8893869E-03
 entot depart   834862.00       834862.00    
 shsum :  1.87022909E+10  3.04160309E+11  3.04159490E+11  3.04159490E+11
 shsum :  1.89253222E+10  3.29854583E+11  2.56942735E+10  3.29853764E+11
 shsum :  1.90262231E+10  3.45735397E+11  1.58808146E+10  3.45734578E+11
 shsum :  1.97011026E+10  3.76368660E+11  3.06332672E+10  3.76367841E+11
 shsum :  1.97011026E+10  3.76368660E+11   90.057892      3.76367841E+11
 shsum :  1.97011026E+10  3.76368660E+11   4.1598287      3.76367841E+11
 fin  3.76368660E+11  1.97011026E+10   19.700600    
   19.103939    
 -3.35936676E+13   19.700600    
 ezero   0.0000000    
  3.76368660E+11
  1.70521040E+14

Total energy input of :3.881E+11 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 3.764E+11 is absorbed (entot) 
                         through inelastic collisions (shsum =3.764E+11)
                                           + heating (elhsum =8.349E+05)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  19.70 eV (from qtoteV)
                                  or :  19.10 eV (from (entot))
                                  or :******* eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  50.0, longitude  50.0.

 REED : The energy degradation is computed from the center energies of the grid.
 REED : The energy degradation source term is interpolated linearly with tau.
 REED : The albedo at  80. km is set to 1.00
 REED : The low energy phase function is taken from Porter
 REED : Secondary distribution from Rees et al., PSS 17, 1997, 1969           
 REED : Wiscombe's delta-M method IS applied

 MAIN : The screening parameter for the Rutherford phase function is calculated
        from the Bethe/Moliere formula for E > 500 eV

 MAIN : The energy grid covers the range from : 0.001 [eV] up to :   287.9 [eV].

 MAIN : The total energy input from the precipitation source is : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]
                                  and from photoelectron source : 3.5457E+11 [eV/cm2/s]
                                                             or : 5.6809E-01 [erg/cm2/s]
 That variable "errorgaupin" is:           89

 MAIN : Total energy deposition in [CO2] is 2.749E+11 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 2.378E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 1.482E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 2.919E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 8.732E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 4.082E+00 [eV.cm-2.s-1] ("shsum").
  2.86318336E+09           2          21
  3.12962842E+09           2          23

 Total Heating :  7.934E+05 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  5.5014775E-03
 entot depart   793355.56       793355.56    
 shsum :  1.70299064E+10  2.74892718E+11  2.74891932E+11  2.74891932E+11
 shsum :  1.72382474E+10  2.98676486E+11  2.37837804E+10  2.98675700E+11
 shsum :  1.73335818E+10  3.13498534E+11  1.48220611E+10  3.13497747E+11
 shsum :  1.79811615E+10  3.42689317E+11  2.91907707E+10  3.42688530E+11
 shsum :  1.79811615E+10  3.42689317E+11   87.315933      3.42688530E+11
 shsum :  1.79811615E+10  3.42689317E+11   4.0820050      3.42688530E+11
 fin  3.42689317E+11  1.79811615E+10   19.718956    
   19.058241    
 -3.68069805E+13   19.718956    
 ezero   0.0000000    
  3.42689317E+11
  1.86657853E+14

Total energy input of :3.546E+11 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 3.427E+11 is absorbed (entot) 
                         through inelastic collisions (shsum =3.427E+11)
                                           + heating (elhsum =7.934E+05)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  19.72 eV (from qtoteV)
                                  or :  19.06 eV (from (entot))
                                  or :******* eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  55.0, longitude  50.0.

 REED : The energy degradation is computed from the center energies of the grid.
 REED : The energy degradation source term is interpolated linearly with tau.
 REED : The albedo at  80. km is set to 1.00
 REED : The low energy phase function is taken from Porter
 REED : Secondary distribution from Rees et al., PSS 17, 1997, 1969           
 REED : Wiscombe's delta-M method IS applied

 MAIN : The screening parameter for the Rutherford phase function is calculated
        from the Bethe/Moliere formula for E > 500 eV

 MAIN : The energy grid covers the range from : 0.001 [eV] up to :   287.9 [eV].

 MAIN : The total energy input from the precipitation source is : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]
                                  and from photoelectron source : 3.1879E+11 [eV/cm2/s]
                                                             or : 5.1076E-01 [erg/cm2/s]
 That variable "errorgaupin" is:          102

 MAIN : Total energy deposition in [CO2] is 2.439E+11 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 2.171E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 1.366E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 2.756E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 8.410E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 3.989E+00 [eV.cm-2.s-1] ("shsum").
  2.73796915E+09           2          21
  2.99120256E+09           2          23

 Total Heating :  7.453E+05 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  5.0800904E-03
 entot depart   745273.56       745273.56    
 shsum :  1.52512287E+10  2.43875627E+11  2.43874890E+11  2.43874890E+11
 shsum :  1.54436127E+10  2.65586393E+11  2.17107702E+10  2.65585656E+11
 shsum :  1.55328082E+10  2.79244636E+11  1.36582410E+10  2.79243882E+11
 shsum :  1.61493002E+10  3.06801017E+11  2.75563766E+10  3.06800263E+11
 shsum :  1.61493002E+10  3.06801017E+11   84.095612      3.06800263E+11
 shsum :  1.61493002E+10  3.06801017E+11   3.9889565      3.06800263E+11
 fin  3.06801017E+11  1.61493002E+10   19.739927    
   18.997789    
 -4.09821040E+13   19.739927    
 ezero   0.0000000    
  3.06801017E+11
  2.07610196E+14

Total energy input of :3.188E+11 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 3.068E+11 is absorbed (entot) 
                         through inelastic collisions (shsum =3.068E+11)
                                           + heating (elhsum =7.453E+05)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  19.74 eV (from qtoteV)
                                  or :  19.00 eV (from (entot))
                                  or :******* eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  60.0, longitude  50.0.

 REED : The energy degradation is computed from the center energies of the grid.
 REED : The energy degradation source term is interpolated linearly with tau.
 REED : The albedo at  80. km is set to 1.00
 REED : The low energy phase function is taken from Porter
 REED : Secondary distribution from Rees et al., PSS 17, 1997, 1969           
 REED : Wiscombe's delta-M method IS applied

 MAIN : The screening parameter for the Rutherford phase function is calculated
        from the Bethe/Moliere formula for E > 500 eV

 MAIN : The energy grid covers the range from : 0.001 [eV] up to :   287.9 [eV].

 MAIN : The total energy input from the precipitation source is : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]
                                  and from photoelectron source : 2.8120E+11 [eV/cm2/s]
                                                             or : 4.5054E-01 [erg/cm2/s]
 That variable "errorgaupin" is:           94

 MAIN : Total energy deposition in [CO2] is 2.116E+11 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 1.949E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 1.239E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 2.571E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 8.032E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 3.878E+00 [eV.cm-2.s-1] ("shsum").
  2.58895923E+09           2          21
  2.82665165E+09           2          23

 Total Heating :  6.899E+05 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  4.6266317E-03
 entot depart   689901.56       689901.56    
 shsum :  1.33892854E+10  2.11559219E+11  2.11558531E+11  2.11558531E+11
 shsum :  1.35644969E+10  2.31045480E+11  1.94862572E+10  2.31044792E+11
 shsum :  1.36469729E+10  2.43436405E+11  1.23909192E+10  2.43435717E+11
 shsum :  1.42281390E+10  2.69148226E+11  2.57118208E+10  2.69147537E+11
 shsum :  1.42281390E+10  2.69148226E+11   80.322128      2.69147537E+11
 shsum :  1.42281390E+10  2.69148226E+11   3.8775196      2.69147537E+11
 fin  2.69148226E+11  1.42281390E+10   19.763699    
   18.916615    
 -4.65157289E+13   19.763699    
 ezero   0.0000000    
  2.69148226E+11
  2.35359443E+14

Total energy input of :2.812E+11 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 2.691E+11 is absorbed (entot) 
                         through inelastic collisions (shsum =2.691E+11)
                                           + heating (elhsum =6.899E+05)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  19.76 eV (from qtoteV)
                                  or :  18.92 eV (from (entot))
                                  or :******* eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  45.0, longitude  55.0.

 REED : The energy degradation is computed from the center energies of the grid.
 REED : The energy degradation source term is interpolated linearly with tau.
 REED : The albedo at  80. km is set to 1.00
 REED : The low energy phase function is taken from Porter
 REED : Secondary distribution from Rees et al., PSS 17, 1997, 1969           
 REED : Wiscombe's delta-M method IS applied

 MAIN : The screening parameter for the Rutherford phase function is calculated
        from the Bethe/Moliere formula for E > 500 eV

 MAIN : The energy grid covers the range from : 0.001 [eV] up to :   287.9 [eV].

 MAIN : The total energy input from the precipitation source is : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]
                                  and from photoelectron source : 3.4837E+11 [eV/cm2/s]
                                                             or : 5.5815E-01 [erg/cm2/s]
 That variable "errorgaupin" is:           70

 MAIN : Total energy deposition in [CO2] is 2.695E+11 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 2.343E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 1.462E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 2.891E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 8.671E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 4.062E+00 [eV.cm-2.s-1] ("shsum").
  2.85966157E+09           2          21
  3.12606771E+09           2          23

 Total Heating :  7.841E+05 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  5.4297671E-03
 entot depart   784127.44       784127.44    
 shsum :  1.67199601E+10  2.69494813E+11  2.69494026E+11  2.69494026E+11
 shsum :  1.69255864E+10  2.92923408E+11  2.34285834E+10  2.92922622E+11
 shsum :  1.70198825E+10  3.07546817E+11  1.46234173E+10  3.07546030E+11
 shsum :  1.76621036E+10  3.36456876E+11  2.89100554E+10  3.36456090E+11
 shsum :  1.76621036E+10  3.36456876E+11   86.705460      3.36456090E+11
 shsum :  1.76621036E+10  3.36456876E+11   4.0623279      3.36456090E+11
 fin  3.36456876E+11  1.76621036E+10   19.723869    
   19.049648    
 -3.74718826E+13   19.723869    
 ezero   0.0000000    
  3.36456876E+11
  1.89982409E+14

Total energy input of :3.484E+11 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 3.365E+11 is absorbed (entot) 
                         through inelastic collisions (shsum =3.365E+11)
                                           + heating (elhsum =7.841E+05)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  19.72 eV (from qtoteV)
                                  or :  19.05 eV (from (entot))
                                  or :******* eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  50.0, longitude  55.0.

 REED : The energy degradation is computed from the center energies of the grid.
 REED : The energy degradation source term is interpolated linearly with tau.
 REED : The albedo at  80. km is set to 1.00
 REED : The low energy phase function is taken from Porter
 REED : Secondary distribution from Rees et al., PSS 17, 1997, 1969           
 REED : Wiscombe's delta-M method IS applied

 MAIN : The screening parameter for the Rutherford phase function is calculated
        from the Bethe/Moliere formula for E > 500 eV

 MAIN : The energy grid covers the range from : 0.001 [eV] up to :   287.9 [eV].

 MAIN : The total energy input from the precipitation source is : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]
                                  and from photoelectron source : 3.1872E+11 [eV/cm2/s]
                                                             or : 5.1066E-01 [erg/cm2/s]
 That variable "errorgaupin" is:           86

 MAIN : Total energy deposition in [CO2] is 2.438E+11 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 2.171E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 1.366E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 2.754E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 8.403E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 3.985E+00 [eV.cm-2.s-1] ("shsum").
  2.75545395E+09           2          21
  3.01082035E+09           2          23

 Total Heating :  7.442E+05 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  5.0796899E-03
 entot depart   744226.19       744226.19    
 shsum :  1.52470344E+10  2.43823755E+11  2.43823018E+11  2.43823018E+11
 shsum :  1.54394030E+10  2.65530819E+11  2.17070674E+10  2.65530081E+11
 shsum :  1.55285883E+10  2.79186080E+11  1.36552765E+10  2.79185359E+11
 shsum :  1.61447639E+10  3.06728763E+11  2.75426898E+10  3.06728042E+11
 shsum :  1.61447639E+10  3.06728763E+11   84.032951      3.06728042E+11
 shsum :  1.61447639E+10  3.06728763E+11   3.9850736      3.06728042E+11
 fin  3.06728763E+11  1.61447639E+10   19.741510    
   18.998653    
 -4.09936173E+13   19.741510    
 ezero   0.0000000    
  3.06728763E+11
  2.07651888E+14

Total energy input of :3.187E+11 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 3.067E+11 is absorbed (entot) 
                         through inelastic collisions (shsum =3.067E+11)
                                           + heating (elhsum =7.442E+05)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  19.74 eV (from qtoteV)
                                  or :  19.00 eV (from (entot))
                                  or :******* eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  55.0, longitude  55.0.

 REED : The energy degradation is computed from the center energies of the grid.
 REED : The energy degradation source term is interpolated linearly with tau.
 REED : The albedo at  80. km is set to 1.00
 REED : The low energy phase function is taken from Porter
 REED : Secondary distribution from Rees et al., PSS 17, 1997, 1969           
 REED : Wiscombe's delta-M method IS applied

 MAIN : The screening parameter for the Rutherford phase function is calculated
        from the Bethe/Moliere formula for E > 500 eV

 MAIN : The energy grid covers the range from : 0.001 [eV] up to :   287.9 [eV].

 MAIN : The total energy input from the precipitation source is : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]
                                  and from photoelectron source : 2.8715E+11 [eV/cm2/s]
                                                             or : 4.6006E-01 [erg/cm2/s]
 That variable "errorgaupin" is:           91

 MAIN : Total energy deposition in [CO2] is 2.167E+11 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 1.984E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 1.259E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 2.600E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 8.091E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 3.893E+00 [eV.cm-2.s-1] ("shsum").
  2.63104896E+09           2          21
  2.87336141E+09           2          23

 Total Heating :  6.983E+05 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  4.6992600E-03
 entot depart   698275.81       698275.81    
 shsum :  1.36824668E+10  2.16660328E+11  2.16659624E+11  2.16659624E+11
 shsum :  1.38604288E+10  2.36501025E+11  1.98406922E+10  2.36500320E+11
 shsum :  1.39439811E+10  2.49093751E+11  1.25927281E+10  2.49093046E+11
 shsum :  1.45305774E+10  2.75092013E+11  2.59982787E+10  2.75091325E+11
 shsum :  1.45305774E+10  2.75092013E+11   80.907944      2.75091325E+11
 shsum :  1.45305774E+10  2.75092013E+11   3.8931155      2.75091325E+11
 fin  2.75092013E+11  1.45305774E+10   19.761463    
   18.931940    
 -4.55475577E+13   19.761463    
 ezero   0.0000000    
  2.75092013E+11
  2.30486752E+14

Total energy input of :2.871E+11 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 2.751E+11 is absorbed (entot) 
                         through inelastic collisions (shsum =2.751E+11)
                                           + heating (elhsum =6.983E+05)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  19.76 eV (from qtoteV)
                                  or :  18.93 eV (from (entot))
                                  or :******* eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  60.0, longitude  55.0.

 REED : The energy degradation is computed from the center energies of the grid.
 REED : The energy degradation source term is interpolated linearly with tau.
 REED : The albedo at  80. km is set to 1.00
 REED : The low energy phase function is taken from Porter
 REED : Secondary distribution from Rees et al., PSS 17, 1997, 1969           
 REED : Wiscombe's delta-M method IS applied

 MAIN : The screening parameter for the Rutherford phase function is calculated
        from the Bethe/Moliere formula for E > 500 eV

 MAIN : The energy grid covers the range from : 0.001 [eV] up to :   287.9 [eV].

 MAIN : The total energy input from the precipitation source is : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]
                                  and from photoelectron source : 2.5403E+11 [eV/cm2/s]
                                                             or : 4.0700E-01 [erg/cm2/s]
 That variable "errorgaupin" is:           72

 MAIN : Total energy deposition in [CO2] is 1.884E+11 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 1.784E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 1.144E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 2.426E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 7.727E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 3.784E+00 [eV.cm-2.s-1] ("shsum").
  2.48389018E+09           2          21
  2.71092838E+09           2          23

 Total Heating :  6.457E+05 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  4.2898022E-03
 entot depart   645732.94       645732.94    
 shsum :  1.20471153E+10  1.88411068E+11  1.88410429E+11  1.88410429E+11
 shsum :  1.22095708E+10  2.06251508E+11  1.78404393E+10  2.06250869E+11
 shsum :  1.22869586E+10  2.17689702E+11  1.14381916E+10  2.17689063E+11
 shsum :  1.28400609E+10  2.41952014E+11  2.42623078E+10  2.41951375E+11
 shsum :  1.28400609E+10  2.41952014E+11   77.266006      2.41951375E+11
 shsum :  1.28400609E+10  2.41952014E+11   3.7835846      2.41951375E+11
 fin  2.41952014E+11  1.28400609E+10   19.783808    
   18.843525    
 -5.15443261E+13   19.783808    
 ezero   0.0000000    
  2.41952014E+11
  2.60537951E+14

Total energy input of :2.540E+11 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 2.420E+11 is absorbed (entot) 
                         through inelastic collisions (shsum =2.420E+11)
                                           + heating (elhsum =6.457E+05)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  19.78 eV (from qtoteV)
                                  or :  18.84 eV (from (entot))
                                  or :******* eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  45.0, longitude  60.0.

 REED : The energy degradation is computed from the center energies of the grid.
 REED : The energy degradation source term is interpolated linearly with tau.
 REED : The albedo at  80. km is set to 1.00
 REED : The low energy phase function is taken from Porter
 REED : Secondary distribution from Rees et al., PSS 17, 1997, 1969           
 REED : Wiscombe's delta-M method IS applied

 MAIN : The screening parameter for the Rutherford phase function is calculated
        from the Bethe/Moliere formula for E > 500 eV

 MAIN : The energy grid covers the range from : 0.001 [eV] up to :   287.9 [eV].

 MAIN : The total energy input from the precipitation source is : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]
                                  and from photoelectron source : 3.0657E+11 [eV/cm2/s]
                                                             or : 4.9118E-01 [erg/cm2/s]
 That variable "errorgaupin" is:           97

 MAIN : Total energy deposition in [CO2] is 2.333E+11 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 2.099E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 1.325E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 2.695E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 8.277E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 3.946E+00 [eV.cm-2.s-1] ("shsum").
  2.72699264E+09           2          21
  2.97970790E+09           2          23

 Total Heating :  7.256E+05 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  4.9350830E-03
 entot depart   725555.00       725555.00    
 shsum :  1.46429399E+10  2.33341960E+11  2.33341239E+11  2.33341239E+11
 shsum :  1.48298322E+10  2.54336401E+11  2.09944453E+10  2.54335681E+11
 shsum :  1.49168865E+10  2.67587322E+11  1.32509184E+10  2.67586601E+11
 shsum :  1.55217910E+10  2.94541984E+11  2.69546660E+10  2.94541263E+11
 shsum :  1.55217910E+10  2.94541984E+11   82.765984      2.94541263E+11
 shsum :  1.55217910E+10  2.94541984E+11   3.9455194      2.94541263E+11
 fin  2.94541984E+11  1.55217910E+10   19.750854    
   18.976030    
 -4.26389128E+13   19.750854    
 ezero   0.0000000    
  2.94541984E+11
  2.15883897E+14

Total energy input of :3.066E+11 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 2.945E+11 is absorbed (entot) 
                         through inelastic collisions (shsum =2.945E+11)
                                           + heating (elhsum =7.256E+05)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  19.75 eV (from qtoteV)
                                  or :  18.98 eV (from (entot))
                                  or :******* eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  50.0, longitude  60.0.

 REED : The energy degradation is computed from the center energies of the grid.
 REED : The energy degradation source term is interpolated linearly with tau.
 REED : The albedo at  80. km is set to 1.00
 REED : The low energy phase function is taken from Porter
 REED : Secondary distribution from Rees et al., PSS 17, 1997, 1969           
 REED : Wiscombe's delta-M method IS applied

 MAIN : The screening parameter for the Rutherford phase function is calculated
        from the Bethe/Moliere formula for E > 500 eV

 MAIN : The energy grid covers the range from : 0.001 [eV] up to :   287.9 [eV].

 MAIN : The total energy input from the precipitation source is : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]
                                  and from photoelectron source : 2.8108E+11 [eV/cm2/s]
                                                             or : 4.5035E-01 [erg/cm2/s]
 That variable "errorgaupin" is:           86

 MAIN : Total energy deposition in [CO2] is 2.115E+11 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 1.948E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 1.238E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 2.568E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 8.019E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 3.869E+00 [eV.cm-2.s-1] ("shsum").
  2.62389530E+09           2          21
  2.86576614E+09           2          23

 Total Heating :  6.878E+05 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  4.6255700E-03
 entot depart   687828.69       687828.69    
 shsum :  1.33814456E+10  2.11474186E+11  2.11473498E+11  2.11473498E+11
 shsum :  1.35566172E+10  2.30952157E+11  1.94779771E+10  2.30951469E+11
 shsum :  1.36390625E+10  2.43335791E+11  1.23836334E+10  2.43335102E+11
 shsum :  1.42194473E+10  2.69014106E+11  2.56783073E+10  2.69013418E+11
 shsum :  1.42194473E+10  2.69014106E+11   80.191383      2.69013418E+11
 shsum :  1.42194473E+10  2.69014106E+11   3.8694088      2.69013418E+11
 fin  2.69014106E+11  1.42194473E+10   19.767439    
   18.918745    
 -4.65441621E+13   19.767439    
 ezero   0.0000000    
  2.69014106E+11
  2.35458731E+14

Total energy input of :2.811E+11 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 2.690E+11 is absorbed (entot) 
                         through inelastic collisions (shsum =2.690E+11)
                                           + heating (elhsum =6.878E+05)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  19.77 eV (from qtoteV)
                                  or :  18.92 eV (from (entot))
                                  or :******* eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  55.0, longitude  60.0.

 REED : The energy degradation is computed from the center energies of the grid.
 REED : The energy degradation source term is interpolated linearly with tau.
 REED : The albedo at  80. km is set to 1.00
 REED : The low energy phase function is taken from Porter
 REED : Secondary distribution from Rees et al., PSS 17, 1997, 1969           
 REED : Wiscombe's delta-M method IS applied

 MAIN : The screening parameter for the Rutherford phase function is calculated
        from the Bethe/Moliere formula for E > 500 eV

 MAIN : The energy grid covers the range from : 0.001 [eV] up to :   287.9 [eV].

 MAIN : The total energy input from the precipitation source is : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]
                                  and from photoelectron source : 2.5397E+11 [eV/cm2/s]
                                                             or : 4.0691E-01 [erg/cm2/s]
 That variable "errorgaupin" is:           75

 MAIN : Total energy deposition in [CO2] is 1.884E+11 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 1.784E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 1.143E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 2.424E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 7.720E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 3.779E+00 [eV.cm-2.s-1] ("shsum").
  2.50162432E+09           2          21
  2.73074790E+09           2          23

 Total Heating :  6.447E+05 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  4.2891698E-03
 entot depart   644703.38       644703.38    
 shsum :  1.20434637E+10  1.88377383E+11  1.88376744E+11  1.88376744E+11
 shsum :  1.22058957E+10  2.06213366E+11  1.78359869E+10  2.06212727E+11
 shsum :  1.22832640E+10  2.17647383E+11  1.14340127E+10  2.17646744E+11
 shsum :  1.28359055E+10  2.41890132E+11  2.42427494E+10  2.41889493E+11
 shsum :  1.28359055E+10  2.41890132E+11   77.198013      2.41889493E+11
 shsum :  1.28359055E+10  2.41890132E+11   3.7793460      2.41889493E+11
 fin  2.41890132E+11  1.28359055E+10   19.785965    
   18.844805    
 -5.15610111E+13   19.785965    
 ezero   0.0000000    
  2.41890132E+11
  2.60593869E+14

Total energy input of :2.540E+11 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 2.419E+11 is absorbed (entot) 
                         through inelastic collisions (shsum =2.419E+11)
                                           + heating (elhsum =6.447E+05)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  19.79 eV (from qtoteV)
                                  or :  18.84 eV (from (entot))
                                  or :******* eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  60.0, longitude  60.0.

 REED : The energy degradation is computed from the center energies of the grid.
 REED : The energy degradation source term is interpolated linearly with tau.
 REED : The albedo at  80. km is set to 1.00
 REED : The low energy phase function is taken from Porter
 REED : Secondary distribution from Rees et al., PSS 17, 1997, 1969           
 REED : Wiscombe's delta-M method IS applied

 MAIN : The screening parameter for the Rutherford phase function is calculated
        from the Bethe/Moliere formula for E > 500 eV

 MAIN : The energy grid covers the range from : 0.001 [eV] up to :   287.9 [eV].

 MAIN : The total energy input from the precipitation source is : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]
                                  and from photoelectron source : 2.2558E+11 [eV/cm2/s]
                                                             or : 3.6142E-01 [erg/cm2/s]
 That variable "errorgaupin" is:           75

 MAIN : Total energy deposition in [CO2] is 1.644E+11 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 1.608E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 1.041E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 2.264E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 7.373E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 3.673E+00 [eV.cm-2.s-1] ("shsum").
  2.35816166E+09           2          21
  2.57247846E+09           2          23

 Total Heating :  5.958E+05 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  3.9271628E-03
 entot depart   595812.81       595812.81    
 shsum :  1.06473185E+10  1.64407476E+11  1.64406886E+11  1.64406886E+11
 shsum :  1.07960412E+10  1.80486914E+11  1.60794348E+10  1.80486324E+11
 shsum :  1.08678615E+10  1.90892130E+11  1.04052122E+10  1.90891540E+11
 shsum :  1.13892372E+10  2.13529608E+11  2.26374840E+10  2.13529018E+11
 shsum :  1.13892372E+10  2.13529608E+11   73.733368      2.13529018E+11
 shsum :  1.13892372E+10  2.13529608E+11   3.6728275      2.13529018E+11
 fin  2.13529608E+11  1.13892372E+10   19.806438    
   18.748367    
 -5.81103245E+13   19.806438    
 ezero   0.0000000    
  2.13529608E+11
  2.93391095E+14

Total energy input of :2.256E+11 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 2.135E+11 is absorbed (entot) 
                         through inelastic collisions (shsum =2.135E+11)
                                           + heating (elhsum =5.958E+05)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  19.81 eV (from qtoteV)
                                  or :  18.75 eV (from (entot))
                                  or :******* eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  45.0, longitude  65.0.

 REED : The energy degradation is computed from the center energies of the grid.
 REED : The energy degradation source term is interpolated linearly with tau.
 REED : The albedo at  80. km is set to 1.00
 REED : The low energy phase function is taken from Porter
 REED : Secondary distribution from Rees et al., PSS 17, 1997, 1969           
 REED : Wiscombe's delta-M method IS applied

 MAIN : The screening parameter for the Rutherford phase function is calculated
        from the Bethe/Moliere formula for E > 500 eV

 MAIN : The energy grid covers the range from : 0.001 [eV] up to :   287.9 [eV].

 MAIN : The total energy input from the precipitation source is : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]
                                  and from photoelectron source : 2.6329E+11 [eV/cm2/s]
                                                             or : 4.2184E-01 [erg/cm2/s]
 That variable "errorgaupin" is:           91

 MAIN : Total energy deposition in [CO2] is 1.963E+11 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 1.841E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 1.176E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 2.474E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 7.813E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 3.805E+00 [eV.cm-2.s-1] ("shsum").
  2.56388096E+09           2          21
  2.79983181E+09           2          23

 Total Heating :  6.582E+05 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  4.4065677E-03
 entot depart   658211.31       658211.31    
 shsum :  1.25013791E+10  1.96297327E+11  1.96296671E+11  1.96296671E+11
 shsum :  1.26682563E+10  2.14702588E+11  1.84052695E+10  2.14701933E+11
 shsum :  1.27474043E+10  2.26466775E+11  1.17641851E+10  2.26466120E+11
 shsum :  1.33096315E+10  2.51206205E+11  2.47394263E+10  2.51205550E+11
 shsum :  1.33096315E+10  2.51206205E+11   78.129730      2.51205550E+11
 shsum :  1.33096315E+10  2.51206205E+11   3.8046741      2.51205550E+11
 fin  2.51206205E+11  1.33096315E+10   19.781996    
   18.874016    
 -4.97258143E+13   19.781996    
 ezero   0.0000000    
  2.51206205E+11
  2.51369034E+14

Total energy input of :2.633E+11 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 2.512E+11 is absorbed (entot) 
                         through inelastic collisions (shsum =2.512E+11)
                                           + heating (elhsum =6.582E+05)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  19.78 eV (from qtoteV)
                                  or :  18.87 eV (from (entot))
                                  or :******* eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  50.0, longitude  65.0.

 REED : The energy degradation is computed from the center energies of the grid.
 REED : The energy degradation source term is interpolated linearly with tau.
 REED : The albedo at  80. km is set to 1.00
 REED : The low energy phase function is taken from Porter
 REED : Secondary distribution from Rees et al., PSS 17, 1997, 1969           
 REED : Wiscombe's delta-M method IS applied

 MAIN : The screening parameter for the Rutherford phase function is calculated
        from the Bethe/Moliere formula for E > 500 eV

 MAIN : The energy grid covers the range from : 0.001 [eV] up to :   287.9 [eV].

 MAIN : The total energy input from the precipitation source is : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]
                                  and from photoelectron source : 2.4217E+11 [eV/cm2/s]
                                                             or : 3.8800E-01 [erg/cm2/s]
 That variable "errorgaupin" is:           90

 MAIN : Total energy deposition in [CO2] is 1.784E+11 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 1.711E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 1.101E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 2.358E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 7.569E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 3.731E+00 [eV.cm-2.s-1] ("shsum").
  2.46349798E+09           2          21
  2.68897613E+09           2          23

 Total Heating :  6.234E+05 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  4.1403603E-03
 entot depart   623444.75       623444.75    
 shsum :  1.14608855E+10  1.78390467E+11  1.78389844E+11  1.78389844E+11
 shsum :  1.16176814E+10  1.95500704E+11  1.71102331E+10  1.95500081E+11
 shsum :  1.16927734E+10  2.06510096E+11  1.10093998E+10  2.06509474E+11
 shsum :  1.22323763E+10  2.30085149E+11  2.35750564E+10  2.30084526E+11
 shsum :  1.22323763E+10  2.30085149E+11   75.694626      2.30084526E+11
 shsum :  1.22323763E+10  2.30085149E+11   3.7306747      2.30084526E+11
 fin  2.30085149E+11  1.22323763E+10   19.797073    
   18.809523    
 -5.41049655E+13   19.797073    
 ezero   0.0000000    
  2.30085149E+11
  2.73297778E+14

Total energy input of :2.422E+11 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 2.301E+11 is absorbed (entot) 
                         through inelastic collisions (shsum =2.301E+11)
                                           + heating (elhsum =6.234E+05)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  19.80 eV (from qtoteV)
                                  or :  18.81 eV (from (entot))
                                  or :******* eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  55.0, longitude  65.0.

 REED : The energy degradation is computed from the center energies of the grid.
 REED : The energy degradation source term is interpolated linearly with tau.
 REED : The albedo at  80. km is set to 1.00
 REED : The low energy phase function is taken from Porter
 REED : Secondary distribution from Rees et al., PSS 17, 1997, 1969           
 REED : Wiscombe's delta-M method IS applied

 MAIN : The screening parameter for the Rutherford phase function is calculated
        from the Bethe/Moliere formula for E > 500 eV

 MAIN : The energy grid covers the range from : 0.001 [eV] up to :   287.9 [eV].

 MAIN : The total energy input from the precipitation source is : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]
                                  and from photoelectron source : 2.1973E+11 [eV/cm2/s]
                                                             or : 3.5205E-01 [erg/cm2/s]
 That variable "errorgaupin" is:           99

 MAIN : Total energy deposition in [CO2] is 1.595E+11 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 1.571E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 1.019E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 2.227E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 7.288E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 3.644E+00 [eV.cm-2.s-1] ("shsum").
  2.34549862E+09           2          21
  2.55876403E+09           2          23

 Total Heating :  5.841E+05 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  3.8511171E-03
 entot depart   584061.06       584061.06    
 shsum :  1.03591526E+10  1.59516049E+11  1.59515460E+11  1.59515460E+11
 shsum :  1.05049948E+10  1.75226749E+11  1.57107036E+10  1.75226159E+11
 shsum :  1.05756252E+10  1.85412370E+11  1.01856246E+10  1.85411781E+11
 shsum :  1.10897603E+10  2.07685009E+11  2.22726349E+10  2.07684420E+11
 shsum :  1.10897603E+10  2.07685009E+11   72.884399      2.07684420E+11
 shsum :  1.10897603E+10  2.07685009E+11   3.6437907      2.07684420E+11
 fin  2.07685009E+11  1.10897603E+10   19.813690    
   18.727638    
 -5.96795856E+13   19.813690    
 ezero   0.0000000    
  2.07685009E+11
  3.01203775E+14

Total energy input of :2.197E+11 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 2.077E+11 is absorbed (entot) 
                         through inelastic collisions (shsum =2.077E+11)
                                           + heating (elhsum =5.841E+05)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  19.81 eV (from qtoteV)
                                  or :  18.73 eV (from (entot))
                                  or :******* eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  60.0, longitude  65.0.

 REED : The energy degradation is computed from the center energies of the grid.
 REED : The energy degradation source term is interpolated linearly with tau.
 REED : The albedo at  80. km is set to 1.00
 REED : The low energy phase function is taken from Porter
 REED : Secondary distribution from Rees et al., PSS 17, 1997, 1969           
 REED : Wiscombe's delta-M method IS applied

 MAIN : The screening parameter for the Rutherford phase function is calculated
        from the Bethe/Moliere formula for E > 500 eV

 MAIN : The energy grid covers the range from : 0.001 [eV] up to :   287.9 [eV].

 MAIN : The total energy input from the precipitation source is : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]
                                  and from photoelectron source : 1.9628E+11 [eV/cm2/s]
                                                             or : 3.1448E-01 [erg/cm2/s]
 That variable "errorgaupin" is:           93

 MAIN : Total energy deposition in [CO2] is 1.400E+11 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 1.422E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 9.297E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 2.083E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 6.966E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 3.542E+00 [eV.cm-2.s-1] ("shsum").
  2.20851507E+09           2          21
  2.40773632E+09           2          23

 Total Heating :  5.399E+05 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  3.5401233E-03
 entot depart   539874.69       539874.69    
 shsum :  9.21165210E+09  1.39972821E+11  1.39972280E+11  1.39972280E+11
 shsum :  9.34571725E+09  1.54190217E+11  1.42174003E+10  1.54189677E+11
 shsum :  9.41148160E+09  1.63486925E+11  9.29670861E+09  1.63486384E+11
 shsum :  9.89709619E+09  1.84312971E+11  2.08260465E+10  1.84312431E+11
 shsum :  9.89709619E+09  1.84312971E+11   69.659943      1.84312431E+11
 shsum :  9.89709619E+09  1.84312971E+11   3.5419712      1.84312431E+11
 fin  1.84312971E+11  9.89709619E+09   19.831823    
   18.622934    
 -6.68713615E+13   19.831823    
 ezero   0.0000000    
  1.84312971E+11
  3.37192178E+14

Total energy input of :1.963E+11 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 1.843E+11 is absorbed (entot) 
                         through inelastic collisions (shsum =1.843E+11)
                                           + heating (elhsum =5.399E+05)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  19.83 eV (from qtoteV)
                                  or :  18.62 eV (from (entot))
                                  or :******* eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  45.0, longitude  70.0.

 REED : The energy degradation is computed from the center energies of the grid.
 REED : The energy degradation source term is interpolated linearly with tau.
 REED : The albedo at  80. km is set to 1.00
 REED : The low energy phase function is taken from Porter
 REED : Secondary distribution from Rees et al., PSS 17, 1997, 1969           
 REED : Wiscombe's delta-M method IS applied

 MAIN : The screening parameter for the Rutherford phase function is calculated
        from the Bethe/Moliere formula for E > 500 eV

 MAIN : The energy grid covers the range from : 0.001 [eV] up to :   287.9 [eV].

 MAIN : The total energy input from the precipitation source is : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]
                                  and from photoelectron source : 2.1922E+11 [eV/cm2/s]
                                                             or : 3.5123E-01 [erg/cm2/s]
 That variable "errorgaupin" is:           82

 MAIN : Total energy deposition in [CO2] is 1.591E+11 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 1.568E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 1.017E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 2.223E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 7.265E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 3.633E+00 [eV.cm-2.s-1] ("shsum").
  2.36290611E+09           2          21
  2.57830861E+09           2          23

 Total Heating :  5.812E+05 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  3.8452074E-03
 entot depart   581154.56       581154.56    
 shsum :  1.03321938E+10  1.59095259E+11  1.59094686E+11  1.59094686E+11
 shsum :  1.04778127E+10  1.74774288E+11  1.56790354E+10  1.74773715E+11
 shsum :  1.05483479E+10  1.84940429E+11  1.01661450E+10  1.84939856E+11
 shsum :  1.10616259E+10  2.07171961E+11  2.22315295E+10  2.07171387E+11
 shsum :  1.10616259E+10  2.07171961E+11   72.652275      2.07171387E+11
 shsum :  1.10616259E+10  2.07171961E+11   3.6330824      2.07171387E+11
 fin  2.07171961E+11  1.10616259E+10   19.817820    
   18.728889    
 -5.98313733E+13   19.817820    
 ezero   0.0000000    
  2.07171961E+11
  3.01906941E+14

Total energy input of :2.192E+11 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 2.072E+11 is absorbed (entot) 
                         through inelastic collisions (shsum =2.072E+11)
                                           + heating (elhsum =5.812E+05)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  19.82 eV (from qtoteV)
                                  or :  18.73 eV (from (entot))
                                  or :******* eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  50.0, longitude  70.0.

 REED : The energy degradation is computed from the center energies of the grid.
 REED : The energy degradation source term is interpolated linearly with tau.
 REED : The albedo at  80. km is set to 1.00
 REED : The low energy phase function is taken from Porter
 REED : Secondary distribution from Rees et al., PSS 17, 1997, 1969           
 REED : Wiscombe's delta-M method IS applied

 MAIN : The screening parameter for the Rutherford phase function is calculated
        from the Bethe/Moliere formula for E > 500 eV

 MAIN : The energy grid covers the range from : 0.001 [eV] up to :   287.9 [eV].

 MAIN : The total energy input from the precipitation source is : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]
                                  and from photoelectron source : 2.0260E+11 [eV/cm2/s]
                                                             or : 3.2461E-01 [erg/cm2/s]
 That variable "errorgaupin" is:           94

 MAIN : Total energy deposition in [CO2] is 1.452E+11 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 1.462E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 9.537E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 2.121E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 7.042E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 3.563E+00 [eV.cm-2.s-1] ("shsum").
  2.26797210E+09           2          21
  2.47356237E+09           2          23

 Total Heating :  5.504E+05 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  3.6252707E-03
 entot depart   550417.38       550417.38    
 shsum :  9.51901491E+09  1.45239441E+11  1.45238884E+11  1.45238884E+11
 shsum :  9.65630464E+09  1.59861965E+11  1.46225244E+10  1.59861408E+11
 shsum :  9.72339814E+09  1.69399271E+11  9.53731072E+09  1.69398714E+11
 shsum :  1.02164726E+10  1.90606737E+11  2.12074619E+10  1.90606180E+11
 shsum :  1.02164726E+10  1.90606737E+11   70.418739      1.90606180E+11
 shsum :  1.02164726E+10  1.90606737E+11   3.5628376      1.90606180E+11
 fin  1.90606737E+11  1.02164726E+10   19.830868    
   18.656805    
 -6.47808995E+13   19.830868    
 ezero   0.0000000    
  1.90606737E+11
  3.26666992E+14

Total energy input of :2.026E+11 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 1.906E+11 is absorbed (entot) 
                         through inelastic collisions (shsum =1.906E+11)
                                           + heating (elhsum =5.504E+05)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  19.83 eV (from qtoteV)
                                  or :  18.66 eV (from (entot))
                                  or :******* eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  55.0, longitude  70.0.

 REED : The energy degradation is computed from the center energies of the grid.
 REED : The energy degradation source term is interpolated linearly with tau.
 REED : The albedo at  80. km is set to 1.00
 REED : The low energy phase function is taken from Porter
 REED : Secondary distribution from Rees et al., PSS 17, 1997, 1969           
 REED : Wiscombe's delta-M method IS applied

 MAIN : The screening parameter for the Rutherford phase function is calculated
        from the Bethe/Moliere formula for E > 500 eV

 MAIN : The energy grid covers the range from : 0.001 [eV] up to :   287.9 [eV].

 MAIN : The total energy input from the precipitation source is : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]
                                  and from photoelectron source : 1.8499E+11 [eV/cm2/s]
                                                             or : 2.9639E-01 [erg/cm2/s]
 That variable "errorgaupin" is:           89

 MAIN : Total energy deposition in [CO2] is 1.307E+11 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 1.348E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 8.854E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 2.007E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 6.787E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 3.481E+00 [eV.cm-2.s-1] ("shsum").
  2.15764992E+09           2          21
  2.35192218E+09           2          23

 Total Heating :  5.160E+05 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  3.3865948E-03
 entot depart   515980.97       515980.97    
 shsum :  8.65947136E+09  1.30666054E+11  1.30665538E+11  1.30665538E+11
 shsum :  8.78772224E+09  1.44150069E+11  1.34840207E+10  1.44149561E+11
 shsum :  8.85104026E+09  1.53003966E+11  8.85389926E+09  1.53003459E+11
 shsum :  9.32152934E+09  1.73074137E+11  2.00701645E+10  1.73073629E+11
 shsum :  9.32152934E+09  1.73074137E+11   67.866158      1.73073629E+11
 shsum :  9.32152934E+09  1.73074137E+11   3.4812219      1.73073629E+11
 fin  1.73074137E+11  9.32152934E+09   19.845076    
   18.567141    
 -7.10003980E+13   19.845076    
 ezero   0.0000000    
  1.73074137E+11
  3.57773359E+14

Total energy input of :1.850E+11 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 1.731E+11 is absorbed (entot) 
                         through inelastic collisions (shsum =1.731E+11)
                                           + heating (elhsum =5.160E+05)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  19.85 eV (from qtoteV)
                                  or :  18.57 eV (from (entot))
                                  or :******* eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  60.0, longitude  70.0.

 REED : The energy degradation is computed from the center energies of the grid.
 REED : The energy degradation source term is interpolated linearly with tau.
 REED : The albedo at  80. km is set to 1.00
 REED : The low energy phase function is taken from Porter
 REED : Secondary distribution from Rees et al., PSS 17, 1997, 1969           
 REED : Wiscombe's delta-M method IS applied

 MAIN : The screening parameter for the Rutherford phase function is calculated
        from the Bethe/Moliere formula for E > 500 eV

 MAIN : The energy grid covers the range from : 0.001 [eV] up to :   287.9 [eV].

 MAIN : The total energy input from the precipitation source is : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]
                                  and from photoelectron source : 1.6661E+11 [eV/cm2/s]
                                                             or : 2.6694E-01 [erg/cm2/s]
 That variable "errorgaupin" is:           89

 MAIN : Total energy deposition in [CO2] is 1.156E+11 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 1.227E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 8.120E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 1.882E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 6.497E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 3.387E+00 [eV.cm-2.s-1] ("shsum").
  2.03128998E+09           2          21
  2.21271142E+09           2          23

 Total Heating :  4.778E+05 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  3.1304802E-03
 entot depart   477819.97       477819.97    
 shsum :  7.76581120E+09  1.15609084E+11  1.15608609E+11  1.15608609E+11
 shsum :  7.88436326E+09  1.27882625E+11  1.22735401E+10  1.27882150E+11
 shsum :  7.94357760E+09  1.36002806E+11  8.12018125E+09  1.36002331E+11
 shsum :  8.38898637E+09  1.54820624E+11  1.88178145E+10  1.54820149E+11
 shsum :  8.38898637E+09  1.54820624E+11   64.969421      1.54820149E+11
 shsum :  8.38898637E+09  1.54820624E+11   3.3867149      1.54820149E+11
 fin  1.54820624E+11  8.38898637E+09   19.860399    
   18.455225    
 -7.88929960E+13   19.860399    
 ezero   0.0000000    
  1.54820624E+11
  3.97237734E+14

Total energy input of :1.666E+11 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 1.548E+11 is absorbed (entot) 
                         through inelastic collisions (shsum =1.548E+11)
                                           + heating (elhsum =4.778E+05)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  19.86 eV (from qtoteV)
                                  or :  18.46 eV (from (entot))
                                  or :******* eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  45.0, longitude  75.0.

 REED : The energy degradation is computed from the center energies of the grid.
 REED : The energy degradation source term is interpolated linearly with tau.
 REED : The albedo at  80. km is set to 1.00
 REED : The low energy phase function is taken from Porter
 REED : Secondary distribution from Rees et al., PSS 17, 1997, 1969           
 REED : Wiscombe's delta-M method IS applied

 MAIN : The screening parameter for the Rutherford phase function is calculated
        from the Bethe/Moliere formula for E > 500 eV

 MAIN : The energy grid covers the range from : 0.001 [eV] up to :   287.9 [eV].

 MAIN : The total energy input from the precipitation source is : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]
                                  and from photoelectron source : 1.7523E+11 [eV/cm2/s]
                                                             or : 2.8075E-01 [erg/cm2/s]
 That variable "errorgaupin" is:           82

 MAIN : Total energy deposition in [CO2] is 1.227E+11 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 1.284E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 8.465E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 1.940E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 6.614E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 3.421E+00 [eV.cm-2.s-1] ("shsum").
  2.11479757E+09           2          21
  2.30500454E+09           2          23

 Total Heating :  4.937E+05 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  3.2522031E-03
 entot depart   493692.25       493692.25    
 shsum :  8.18230682E+09  1.22672792E+11  1.22672300E+11  1.22672300E+11
 shsum :  8.30546842E+09  1.35516635E+11  1.28438395E+10  1.35516144E+11
 shsum :  8.36663040E+09  1.43981986E+11  8.46535322E+09  1.43981494E+11
 shsum :  8.82357453E+09  1.63378397E+11  1.93964155E+10  1.63377906E+11
 shsum :  8.82357453E+09  1.63378397E+11   66.144974      1.63377906E+11
 shsum :  8.82357453E+09  1.63378397E+11   3.4210229      1.63377906E+11
 fin  1.63378397E+11  8.82357453E+09   19.859262    
   18.516123    
 -7.50072753E+13   19.859262    
 ezero   0.0000000    
  1.63378397E+11
  3.77694156E+14

Total energy input of :1.752E+11 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 1.634E+11 is absorbed (entot) 
                         through inelastic collisions (shsum =1.634E+11)
                                           + heating (elhsum =4.937E+05)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  19.86 eV (from qtoteV)
                                  or :  18.52 eV (from (entot))
                                  or :******* eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  50.0, longitude  75.0.

 REED : The energy degradation is computed from the center energies of the grid.
 REED : The energy degradation source term is interpolated linearly with tau.
 REED : The albedo at  80. km is set to 1.00
 REED : The low energy phase function is taken from Porter
 REED : Secondary distribution from Rees et al., PSS 17, 1997, 1969           
 REED : Wiscombe's delta-M method IS applied

 MAIN : The screening parameter for the Rutherford phase function is calculated
        from the Bethe/Moliere formula for E > 500 eV

 MAIN : The energy grid covers the range from : 0.001 [eV] up to :   287.9 [eV].

 MAIN : The total energy input from the precipitation source is : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]
                                  and from photoelectron source : 1.6319E+11 [eV/cm2/s]
                                                             or : 2.6147E-01 [erg/cm2/s]
 That variable "errorgaupin" is:           87

 MAIN : Total energy deposition in [CO2] is 1.129E+11 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 1.204E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 7.978E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 1.855E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 6.421E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 3.357E+00 [eV.cm-2.s-1] ("shsum").
  2.02983398E+09           2          21
  2.21135872E+09           2          23

 Total Heating :  4.684E+05 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  3.0820780E-03
 entot depart   468412.25       468412.25    
 shsum :  7.59797402E+09  1.12857793E+11  1.12857326E+11  1.12857326E+11
 shsum :  7.71469312E+09  1.24901564E+11  1.20437699E+10  1.24901097E+11
 shsum :  7.77310874E+09  1.32879286E+11  7.97772134E+09  1.32878819E+11
 shsum :  8.21302579E+09  1.51430300E+11  1.85510175E+10  1.51429841E+11
 shsum :  8.21302579E+09  1.51430300E+11   64.207909      1.51429841E+11
 shsum :  8.21302579E+09  1.51430300E+11   3.3573971      1.51429841E+11
 fin  1.51430300E+11  8.21302579E+09   19.869814    
   18.437820    
 -8.05832501E+13   19.869814    
 ezero   0.0000000    
  1.51430300E+11
  4.05556146E+14

Total energy input of :1.632E+11 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 1.514E+11 is absorbed (entot) 
                         through inelastic collisions (shsum =1.514E+11)
                                           + heating (elhsum =4.684E+05)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  19.87 eV (from qtoteV)
                                  or :  18.44 eV (from (entot))
                                  or :******* eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  55.0, longitude  75.0.

 REED : The energy degradation is computed from the center energies of the grid.
 REED : The energy degradation source term is interpolated linearly with tau.
 REED : The albedo at  80. km is set to 1.00
 REED : The low energy phase function is taken from Porter
 REED : Secondary distribution from Rees et al., PSS 17, 1997, 1969           
 REED : Wiscombe's delta-M method IS applied

 MAIN : The screening parameter for the Rutherford phase function is calculated
        from the Bethe/Moliere formula for E > 500 eV

 MAIN : The energy grid covers the range from : 0.001 [eV] up to :   287.9 [eV].

 MAIN : The total energy input from the precipitation source is : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]
                                  and from photoelectron source : 1.5045E+11 [eV/cm2/s]
                                                             or : 2.4105E-01 [erg/cm2/s]
 That variable "errorgaupin" is:           75

 MAIN : Total energy deposition in [CO2] is 1.026E+11 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 1.118E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 7.451E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 1.762E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 6.202E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 3.285E+00 [eV.cm-2.s-1] ("shsum").
  1.93251123E+09           2          21
  2.10415898E+09           2          23

 Total Heating :  4.405E+05 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  2.8979364E-03
 entot depart   440459.59       440459.59    
 shsum :  6.98116557E+09  1.02551175E+11  1.02550733E+11  1.02550733E+11
 shsum :  7.09091072E+09  1.13736057E+11  1.11848776E+10  1.13735614E+11
 shsum :  7.14632550E+09  1.21186664E+11  7.45060864E+09  1.21186222E+11
 shsum :  7.56738662E+09  1.38807558E+11  1.76208978E+10  1.38807116E+11
 shsum :  7.56738662E+09  1.38807558E+11   62.022087      1.38807116E+11
 shsum :  7.56738662E+09  1.38807558E+11   3.2845168      1.38807116E+11
 fin  1.38807558E+11  7.56738662E+09   19.881180    
   18.342865    
 -8.74585029E+13   19.881180    
 ezero   0.0000000    
  1.38807558E+11
  4.39905985E+14

Total energy input of :1.504E+11 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 1.388E+11 is absorbed (entot) 
                         through inelastic collisions (shsum =1.388E+11)
                                           + heating (elhsum =4.405E+05)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  19.88 eV (from qtoteV)
                                  or :  18.34 eV (from (entot))
                                  or :******* eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  60.0, longitude  75.0.

 REED : The energy degradation is computed from the center energies of the grid.
 REED : The energy degradation source term is interpolated linearly with tau.
 REED : The albedo at  80. km is set to 1.00
 REED : The low energy phase function is taken from Porter
 REED : Secondary distribution from Rees et al., PSS 17, 1997, 1969           
 REED : Wiscombe's delta-M method IS applied

 MAIN : The screening parameter for the Rutherford phase function is calculated
        from the Bethe/Moliere formula for E > 500 eV

 MAIN : The energy grid covers the range from : 0.001 [eV] up to :   287.9 [eV].

 MAIN : The total energy input from the precipitation source is : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]
                                  and from photoelectron source : 1.3717E+11 [eV/cm2/s]
                                                             or : 2.1978E-01 [erg/cm2/s]
 That variable "errorgaupin" is:           96

 MAIN : Total energy deposition in [CO2] is 9.192E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 1.028E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 6.888E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 1.661E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 5.958E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 3.201E+00 [eV.cm-2.s-1] ("shsum").
  1.82283981E+09           2          21
  1.98344845E+09           2          23

 Total Heating :  4.099E+05 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  2.7010264E-03
 entot depart   409919.69       409919.69    
 shsum :  6.34062285E+09  9.19171236E+10  9.19167140E+10  9.19167140E+10
 shsum :  6.44291123E+09  1.02192873E+11  1.02757530E+10  1.02192464E+11
 shsum :  6.49508147E+09  1.09081076E+11  6.88820019E+09  1.09080666E+11
 shsum :  6.89543782E+09  1.25688775E+11  1.66077020E+10  1.25688365E+11
 shsum :  6.89543782E+09  1.25688775E+11   59.575947      1.25688365E+11
 shsum :  6.89543782E+09  1.25688775E+11   3.2014508      1.25688365E+11
 fin  1.25688775E+11  6.89543782E+09   19.893394    
   18.227816    
 -9.59811861E+13   19.893394    
 ezero   0.0000000    
  1.25688775E+11
  4.82477668E+14

Total energy input of :1.372E+11 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 1.257E+11 is absorbed (entot) 
                         through inelastic collisions (shsum =1.257E+11)
                                           + heating (elhsum =4.099E+05)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  19.89 eV (from qtoteV)
                                  or :  18.23 eV (from (entot))
                                  or :******* eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  45.0, longitude  80.0.

 REED : The energy degradation is computed from the center energies of the grid.
 REED : The energy degradation source term is interpolated linearly with tau.
 REED : The albedo at  80. km is set to 1.00
 REED : The low energy phase function is taken from Porter
 REED : Secondary distribution from Rees et al., PSS 17, 1997, 1969           
 REED : Wiscombe's delta-M method IS applied

 MAIN : The screening parameter for the Rutherford phase function is calculated
        from the Bethe/Moliere formula for E > 500 eV

 MAIN : The energy grid covers the range from : 0.001 [eV] up to :   287.9 [eV].

 MAIN : The total energy input from the precipitation source is : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]
                                  and from photoelectron source : 1.3253E+11 [eV/cm2/s]
                                                             or : 2.1234E-01 [erg/cm2/s]
 That variable "errorgaupin" is:           96

 MAIN : Total energy deposition in [CO2] is 8.827E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 9.951E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 6.684E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 1.621E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 5.837E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 3.154E+00 [eV.cm-2.s-1] ("shsum").
  1.80931187E+09           2          21
  1.96878234E+09           2          23

 Total Heating :  3.961E+05 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  2.6309751E-03
 entot depart   396052.53       396052.53    
 shsum :  6.11405056E+09  8.82697339E+10  8.82693407E+10  8.82693407E+10
 shsum :  6.21368627E+09  9.82211215E+10  9.95138765E+09  9.82207283E+10
 shsum :  6.26467123E+09  1.04904679E+11  6.68355789E+09  1.04904286E+11
 shsum :  6.65668250E+09  1.21113526E+11  1.62088509E+10  1.21113133E+11
 shsum :  6.65668250E+09  1.21113526E+11   58.374313      1.21113133E+11
 shsum :  6.65668250E+09  1.21113526E+11   3.1543121      1.21113133E+11
 fin  1.21113526E+11  6.65668250E+09   19.909254    
   18.194277    
 -9.94237450E+13   19.909254    
 ezero   0.0000000    
  1.21113526E+11
  4.99384538E+14

Total energy input of :1.325E+11 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 1.211E+11 is absorbed (entot) 
                         through inelastic collisions (shsum =1.211E+11)
                                           + heating (elhsum =3.961E+05)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  19.91 eV (from qtoteV)
                                  or :  18.19 eV (from (entot))
                                  or :******* eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  50.0, longitude  80.0.

 REED : The energy degradation is computed from the center energies of the grid.
 REED : The energy degradation source term is interpolated linearly with tau.
 REED : The albedo at  80. km is set to 1.00
 REED : The low energy phase function is taken from Porter
 REED : Secondary distribution from Rees et al., PSS 17, 1997, 1969           
 REED : Wiscombe's delta-M method IS applied

 MAIN : The screening parameter for the Rutherford phase function is calculated
        from the Bethe/Moliere formula for E > 500 eV

 MAIN : The energy grid covers the range from : 0.001 [eV] up to :   287.9 [eV].

 MAIN : The total energy input from the precipitation source is : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]
                                  and from photoelectron source : 1.2500E+11 [eV/cm2/s]
                                                             or : 2.0027E-01 [erg/cm2/s]
 That variable "errorgaupin" is:           74

 MAIN : Total energy deposition in [CO2] is 8.232E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 9.424E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 6.353E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 1.559E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 5.688E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 3.102E+00 [eV.cm-2.s-1] ("shsum").
  1.74155712E+09           2          21
  1.89420672E+09           2          23

 Total Heating :  3.780E+05 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  2.5149877E-03
 entot depart   378008.69       378008.69    
 shsum :  5.75244698E+09  8.23243735E+10  8.23239967E+10  8.23239967E+10
 shsum :  5.84769024E+09  9.17486879E+10  9.42431437E+09  9.17483110E+10
 shsum :  5.89672909E+09  9.81020099E+10  6.35332198E+09  9.81016330E+10
 shsum :  6.27598387E+09  1.13695310E+11  1.55932989E+10  1.13694933E+11
 shsum :  6.27598387E+09  1.13695310E+11   56.879383      1.13694933E+11
 shsum :  6.27598387E+09  1.13695310E+11   3.1024132      1.13694933E+11
 fin  1.13695310E+11  6.27598387E+09   19.917101    
   18.115934    
 -1.05454743E+14   19.917101    
 ezero   0.0000000    
  1.13695310E+11
  5.29468402E+14

Total energy input of :1.250E+11 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 1.137E+11 is absorbed (entot) 
                         through inelastic collisions (shsum =1.137E+11)
                                           + heating (elhsum =3.780E+05)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  19.92 eV (from qtoteV)
                                  or :  18.12 eV (from (entot))
                                  or :******* eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  55.0, longitude  80.0.

 REED : The energy degradation is computed from the center energies of the grid.
 REED : The energy degradation source term is interpolated linearly with tau.
 REED : The albedo at  80. km is set to 1.00
 REED : The low energy phase function is taken from Porter
 REED : Secondary distribution from Rees et al., PSS 17, 1997, 1969           
 REED : Wiscombe's delta-M method IS applied

 MAIN : The screening parameter for the Rutherford phase function is calculated
        from the Bethe/Moliere formula for E > 500 eV

 MAIN : The energy grid covers the range from : 0.001 [eV] up to :   287.9 [eV].

 MAIN : The total energy input from the precipitation source is : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]
                                  and from photoelectron source : 1.1703E+11 [eV/cm2/s]
                                                             or : 1.8751E-01 [erg/cm2/s]
 That variable "errorgaupin" is:          100

 MAIN : Total energy deposition in [CO2] is 7.608E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 8.861E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 5.998E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 1.492E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 5.522E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 3.044E+00 [eV.cm-2.s-1] ("shsum").
  1.66520179E+09           2          21
  1.81021555E+09           2          23

 Total Heating :  3.583E+05 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  2.3899497E-03
 entot depart   358347.66       358347.66    
 shsum :  5.37064960E+09  7.60776131E+10  7.60772526E+10  7.60772526E+10
 shsum :  5.46115738E+09  8.49384325E+10  8.86081843E+09  8.49380721E+10
 shsum :  5.50808320E+09  9.09369262E+10  5.99849677E+09  9.09365658E+10
 shsum :  5.87339059E+09  1.05860858E+11  1.49239357E+10  1.05860497E+11
 shsum :  5.87339059E+09  1.05860858E+11   55.220257      1.05860497E+11
 shsum :  5.87339059E+09  1.05860858E+11   3.0441303      1.05860497E+11
 fin  1.05860858E+11  5.87339059E+09   19.925438    
   18.023808    
 -1.12683173E+14   19.925438    
 ezero   0.0000000    
  1.05860858E+11
  5.65524182E+14

Total energy input of :1.170E+11 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 1.059E+11 is absorbed (entot) 
                         through inelastic collisions (shsum =1.059E+11)
                                           + heating (elhsum =3.583E+05)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  19.93 eV (from qtoteV)
                                  or :  18.02 eV (from (entot))
                                  or :******* eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  60.0, longitude  80.0.

 REED : The energy degradation is computed from the center energies of the grid.
 REED : The energy degradation source term is interpolated linearly with tau.
 REED : The albedo at  80. km is set to 1.00
 REED : The low energy phase function is taken from Porter
 REED : Secondary distribution from Rees et al., PSS 17, 1997, 1969           
 REED : Wiscombe's delta-M method IS applied

 MAIN : The screening parameter for the Rutherford phase function is calculated
        from the Bethe/Moliere formula for E > 500 eV

 MAIN : The energy grid covers the range from : 0.001 [eV] up to :   287.9 [eV].

 MAIN : The total energy input from the precipitation source is : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]
                                  and from photoelectron source : 1.0872E+11 [eV/cm2/s]
                                                             or : 1.7420E-01 [erg/cm2/s]
 That variable "errorgaupin" is:           78

 MAIN : Total energy deposition in [CO2] is 6.962E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 8.267E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 5.622E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 1.420E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 5.340E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 2.979E+00 [eV.cm-2.s-1] ("shsum").
  1.58067840E+09           2          21
  1.71730624E+09           2          23

 Total Heating :  3.372E+05 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  2.2568826E-03
 entot depart   337185.25       337185.25    
 shsum :  4.97381018E+09  6.96232919E+10  6.96229560E+10  6.96229560E+10
 shsum :  5.05927885E+09  7.78902569E+10  8.26696192E+09  7.78899210E+10
 shsum :  5.10393651E+09  8.35126313E+10  5.62237082E+09  8.35122954E+10
 shsum :  5.45414758E+09  9.77168384E+10  1.42042051E+10  9.77165025E+10
 shsum :  5.45414758E+09  9.77168384E+10   53.395767      9.77165025E+10
 shsum :  5.45414758E+09  9.77168384E+10   2.9790928      9.77165025E+10
 fin  9.77168384E+10  5.45414758E+09   19.934343    
   17.916061    
 -1.21344771E+14   19.934343    
 ezero   0.0000000    
  9.77168384E+10
  6.08722158E+14

Total energy input of :1.087E+11 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 9.772E+10 is absorbed (entot) 
                         through inelastic collisions (shsum =9.772E+10)
                                           + heating (elhsum =3.372E+05)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  19.93 eV (from qtoteV)
                                  or :  17.92 eV (from (entot))
                                  or :******* eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  45.0, longitude  85.0.

 REED : The energy degradation is computed from the center energies of the grid.
 REED : The energy degradation source term is interpolated linearly with tau.
 REED : The albedo at  80. km is set to 1.00
 REED : The low energy phase function is taken from Porter
 REED : Secondary distribution from Rees et al., PSS 17, 1997, 1969           
 REED : Wiscombe's delta-M method IS applied

 MAIN : The screening parameter for the Rutherford phase function is calculated
        from the Bethe/Moliere formula for E > 500 eV

 MAIN : The energy grid covers the range from : 0.001 [eV] up to :   287.9 [eV].

 MAIN : The total energy input from the precipitation source is : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]
                                  and from photoelectron source : 9.2860E+10 [eV/cm2/s]
                                                             or : 1.4878E-01 [erg/cm2/s]
 That variable "errorgaupin" is:           80

 MAIN : Total energy deposition in [CO2] is 5.758E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 7.106E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 4.874E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 1.269E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 4.911E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 2.813E+00 [eV.cm-2.s-1] ("shsum").
  1.43998362E+09           2          21
  1.56280205E+09           2          23

 Total Heating :  2.910E+05 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  1.9930152E-03
 entot depart   290999.75       290999.75    
 shsum :  4.21440230E+09  5.75780413E+10  5.75777505E+10  5.75777505E+10
 shsum :  4.28987827E+09  6.46839542E+10  7.10591437E+09  6.46836634E+10
 shsum :  4.32991949E+09  6.95577969E+10  4.87384013E+09  6.95575020E+10
 shsum :  4.64768154E+09  8.22472212E+10  1.26894254E+10  8.22469263E+10
 shsum :  4.64768154E+09  8.22472212E+10   49.106911      8.22469263E+10
 shsum :  4.64768154E+09  8.22472212E+10   2.8131967      8.22469263E+10
 fin  8.22472212E+10  4.64768154E+09   19.979767    
   17.696398    
 -1.42400530E+14   19.979767    
 ezero   0.0000000    
  8.22472212E+10
  7.12723583E+14

Total energy input of :9.286E+10 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 8.225E+10 is absorbed (entot) 
                         through inelastic collisions (shsum =8.225E+10)
                                           + heating (elhsum =2.910E+05)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  19.98 eV (from qtoteV)
                                  or :  17.70 eV (from (entot))
                                  or :******* eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  50.0, longitude  85.0.

 REED : The energy degradation is computed from the center energies of the grid.
 REED : The energy degradation source term is interpolated linearly with tau.
 REED : The albedo at  80. km is set to 1.00
 REED : The low energy phase function is taken from Porter
 REED : Secondary distribution from Rees et al., PSS 17, 1997, 1969           
 REED : Wiscombe's delta-M method IS applied

 MAIN : The screening parameter for the Rutherford phase function is calculated
        from the Bethe/Moliere formula for E > 500 eV

 MAIN : The energy grid covers the range from : 0.001 [eV] up to :   287.9 [eV].

 MAIN : The total energy input from the precipitation source is : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]
                                  and from photoelectron source : 8.9518E+10 [eV/cm2/s]
                                                             or : 1.4343E-01 [erg/cm2/s]
 That variable "errorgaupin" is:           78

 MAIN : Total energy deposition in [CO2] is 5.506E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 6.858E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 4.714E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 1.236E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 4.827E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 2.782E+00 [eV.cm-2.s-1] ("shsum").
  1.39988979E+09           2          21
  1.51876800E+09           2          23

 Total Heating :  2.820E+05 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  1.9355299E-03
 entot depart   281996.94       281996.94    
 shsum :  4.05627520E+09  5.50607913E+10  5.50605087E+10  5.50605087E+10
 shsum :  4.12957414E+09  6.19192566E+10  6.85846528E+09  6.19189740E+10
 shsum :  4.16860160E+09  6.66327777E+10  4.71352013E+09  6.66324951E+10
 shsum :  4.47937178E+09  7.89977334E+10  1.23649577E+10  7.89974548E+10
 shsum :  4.47937178E+09  7.89977334E+10   48.270931      7.89974548E+10
 shsum :  4.47937178E+09  7.89977334E+10   2.7821877      7.89974548E+10
 fin  7.89977334E+10  4.47937178E+09   19.984539    
   17.635895    
 -1.47751136E+14   19.984539    
 ezero   0.0000000    
  7.89977334E+10
  7.39327215E+14

Total energy input of :8.952E+10 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 7.900E+10 is absorbed (entot) 
                         through inelastic collisions (shsum =7.900E+10)
                                           + heating (elhsum =2.820E+05)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  19.98 eV (from qtoteV)
                                  or :  17.64 eV (from (entot))
                                  or :******* eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  55.0, longitude  85.0.

 REED : The energy degradation is computed from the center energies of the grid.
 REED : The energy degradation source term is interpolated linearly with tau.
 REED : The albedo at  80. km is set to 1.00
 REED : The low energy phase function is taken from Porter
 REED : Secondary distribution from Rees et al., PSS 17, 1997, 1969           
 REED : Wiscombe's delta-M method IS applied

 MAIN : The screening parameter for the Rutherford phase function is calculated
        from the Bethe/Moliere formula for E > 500 eV

 MAIN : The energy grid covers the range from : 0.001 [eV] up to :   287.9 [eV].

 MAIN : The total energy input from the precipitation source is : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]
                                  and from photoelectron source : 8.5963E+10 [eV/cm2/s]
                                                             or : 1.3773E-01 [erg/cm2/s]
 That variable "errorgaupin" is:           76

 MAIN : Total energy deposition in [CO2] is 5.239E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 6.594E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 4.542E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 1.202E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 4.736E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 2.748E+00 [eV.cm-2.s-1] ("shsum").
  1.35519693E+09           2          21
  1.46971405E+09           2          23

 Total Heating :  2.723E+05 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  1.8737392E-03
 entot depart   272316.78       272316.78    
 shsum :  3.88833587E+09  5.23931812E+10  5.23929108E+10  5.23929108E+10
 shsum :  3.95929472E+09  5.89872579E+10  6.59407872E+09  5.89869875E+10
 shsum :  3.99722931E+09  6.35291853E+10  4.54192589E+09  6.35289149E+10
 shsum :  4.30047898E+09  7.55460014E+10  1.20168202E+10  7.55457393E+10
 shsum :  4.30047898E+09  7.55460014E+10   47.363724      7.55457393E+10
 shsum :  4.30047898E+09  7.55460014E+10   2.7483888      7.55457393E+10
 fin  7.55460014E+10  4.30047898E+09   19.989111    
   17.566881    
 -1.53897335E+14   19.989111    
 ezero   0.0000000    
  7.55460014E+10
  7.69905838E+14

Total energy input of :8.596E+10 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 7.555E+10 is absorbed (entot) 
                         through inelastic collisions (shsum =7.555E+10)
                                           + heating (elhsum =2.723E+05)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  19.99 eV (from qtoteV)
                                  or :  17.57 eV (from (entot))
                                  or :******* eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  60.0, longitude  85.0.

 REED : The energy degradation is computed from the center energies of the grid.
 REED : The energy degradation source term is interpolated linearly with tau.
 REED : The albedo at  80. km is set to 1.00
 REED : The low energy phase function is taken from Porter
 REED : Secondary distribution from Rees et al., PSS 17, 1997, 1969           
 REED : Wiscombe's delta-M method IS applied

 MAIN : The screening parameter for the Rutherford phase function is calculated
        from the Bethe/Moliere formula for E > 500 eV

 MAIN : The energy grid covers the range from : 0.001 [eV] up to :   287.9 [eV].

 MAIN : The total energy input from the precipitation source is : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]
                                  and from photoelectron source : 8.2233E+10 [eV/cm2/s]
                                                             or : 1.3175E-01 [erg/cm2/s]
 That variable "errorgaupin" is:           72

 MAIN : Total energy deposition in [CO2] is 4.961E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 6.315E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 4.361E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 1.165E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 4.639E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 2.712E+00 [eV.cm-2.s-1] ("shsum").
  1.30629875E+09           2          21
  1.41608205E+09           2          23

 Total Heating :  2.620E+05 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  1.8081783E-03
 entot depart   262018.73       262018.73    
 shsum :  3.71249357E+09  4.96084214E+10  4.96081592E+10  4.96081592E+10
 shsum :  3.78096973E+09  5.59238390E+10  6.31541760E+09  5.59235768E+10
 shsum :  3.81774080E+09  6.02845307E+10  4.36069120E+09  6.02842685E+10
 shsum :  4.11299277E+09  7.19322153E+10  1.16476826E+10  7.19319532E+10
 shsum :  4.11299277E+09  7.19322153E+10   46.387325      7.19319532E+10
 shsum :  4.11299277E+09  7.19322153E+10   2.7117591      7.19319532E+10
 fin  7.19322153E+10  4.11299277E+09   19.993504    
   17.489021    
 -1.60912577E+14   19.993504    
 ezero   0.0000000    
  7.19322153E+10
  8.04824258E+14

Total energy input of :8.223E+10 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 7.193E+10 is absorbed (entot) 
                         through inelastic collisions (shsum =7.193E+10)
                                           + heating (elhsum =2.620E+05)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  19.99 eV (from qtoteV)
                                  or :  17.49 eV (from (entot))
                                  or :******* eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  45.0, longitude  90.0.

 REED : The energy degradation is computed from the center energies of the grid.
 REED : The energy degradation source term is interpolated linearly with tau.
 REED : The albedo at  80. km is set to 1.00
 REED : The low energy phase function is taken from Porter
 REED : Secondary distribution from Rees et al., PSS 17, 1997, 1969           
 REED : Wiscombe's delta-M method IS applied

 MAIN : The screening parameter for the Rutherford phase function is calculated
        from the Bethe/Moliere formula for E > 500 eV

 MAIN : The energy grid covers the range from : 0.001 [eV] up to :   287.9 [eV].

 MAIN : The total energy input from the precipitation source is : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]
                                  and from photoelectron source : 5.8789E+10 [eV/cm2/s]
                                                             or : 9.4191E-02 [erg/cm2/s]
 That variable "errorgaupin" is:           89

 MAIN : Total energy deposition in [CO2] is 3.284E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 4.512E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 3.157E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 8.998E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 3.832E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 2.376E+00 [eV.cm-2.s-1] ("shsum").
  1.01926880E+09           2          21
  1.10133811E+09           2          23

 Total Heating :  1.870E+05 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  1.3712870E-03
 entot depart   186992.02       186992.02    
 shsum :  2.60490957E+09  3.28380846E+10  3.28378982E+10  3.28378982E+10
 shsum :  2.65684045E+09  3.73498020E+10  4.51171840E+09  3.73496177E+10
 shsum :  2.68553242E+09  4.05063598E+10  3.15655987E+09  4.05061796E+10
 shsum :  2.92146714E+09  4.95040758E+10  8.99771597E+09  4.95038956E+10
 shsum :  2.92146714E+09  4.95040758E+10   38.323830      4.95038956E+10
 shsum :  2.92146714E+09  4.95040758E+10   2.3763881      4.95038956E+10
 fin  4.95040758E+10  2.92146714E+09   20.123005    
   16.944937    
 -2.26541070E+14   20.123005    
 ezero   0.0000000    
  4.95040758E+10
  1.12578153E+15

Total energy input of :5.879E+10 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 4.950E+10 is absorbed (entot) 
                         through inelastic collisions (shsum =4.950E+10)
                                           + heating (elhsum =1.870E+05)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  20.12 eV (from qtoteV)
                                  or :  16.94 eV (from (entot))
                                  or :******* eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  50.0, longitude  90.0.

 REED : The energy degradation is computed from the center energies of the grid.
 REED : The energy degradation source term is interpolated linearly with tau.
 REED : The albedo at  80. km is set to 1.00
 REED : The low energy phase function is taken from Porter
 REED : Secondary distribution from Rees et al., PSS 17, 1997, 1969           
 REED : Wiscombe's delta-M method IS applied

 MAIN : The screening parameter for the Rutherford phase function is calculated
        from the Bethe/Moliere formula for E > 500 eV

 MAIN : The energy grid covers the range from : 0.001 [eV] up to :   287.9 [eV].

 MAIN : The total energy input from the precipitation source is : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]
                                  and from photoelectron source : 5.8827E+10 [eV/cm2/s]
                                                             or : 9.4253E-02 [erg/cm2/s]
 That variable "errorgaupin" is:           86

 MAIN : Total energy deposition in [CO2] is 3.285E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 4.515E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 3.159E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 9.007E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 3.841E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 2.381E+00 [eV.cm-2.s-1] ("shsum").
  1.01719443E+09           2          21
  1.09910272E+09           2          23

 Total Heating :  1.875E+05 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  1.3719851E-03
 entot depart   187547.70       187547.70    
 shsum :  2.60729600E+09  3.28542740E+10  3.28540856E+10  3.28540856E+10
 shsum :  2.65925325E+09  3.73693481E+10  4.51507251E+09  3.73691597E+10
 shsum :  2.68796237E+09  4.05284987E+10  3.15915162E+09  4.05283103E+10
 shsum :  2.92413850E+09  4.95359304E+10  9.00743270E+09  4.95357420E+10
 shsum :  2.92413850E+09  4.95359304E+10   38.408733      4.95357420E+10
 shsum :  2.92413850E+09  4.95359304E+10   2.3810472      4.95357420E+10
 fin  4.95359304E+10  2.92413850E+09   20.117859    
   16.940350    
 -2.26334106E+14   20.117859    
 ezero   0.0000000    
  4.95359304E+10
  1.12504078E+15

Total energy input of :5.883E+10 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 4.954E+10 is absorbed (entot) 
                         through inelastic collisions (shsum =4.954E+10)
                                           + heating (elhsum =1.875E+05)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  20.12 eV (from qtoteV)
                                  or :  16.94 eV (from (entot))
                                  or :******* eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  55.0, longitude  90.0.

 REED : The energy degradation is computed from the center energies of the grid.
 REED : The energy degradation source term is interpolated linearly with tau.
 REED : The albedo at  80. km is set to 1.00
 REED : The low energy phase function is taken from Porter
 REED : Secondary distribution from Rees et al., PSS 17, 1997, 1969           
 REED : Wiscombe's delta-M method IS applied

 MAIN : The screening parameter for the Rutherford phase function is calculated
        from the Bethe/Moliere formula for E > 500 eV

 MAIN : The energy grid covers the range from : 0.001 [eV] up to :   287.9 [eV].

 MAIN : The total energy input from the precipitation source is : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]
                                  and from photoelectron source : 5.8853E+10 [eV/cm2/s]
                                                             or : 9.4294E-02 [erg/cm2/s]
 That variable "errorgaupin" is:           72

 MAIN : Total energy deposition in [CO2] is 3.285E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 4.518E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 3.162E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 9.019E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 3.851E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 2.387E+00 [eV.cm-2.s-1] ("shsum").
  1.01394989E+09           2          21
  1.09560294E+09           2          23

 Total Heating :  1.882E+05 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  1.3724959E-03
 entot depart   188162.00       188162.00    
 shsum :  2.60926464E+09  3.28551752E+10  3.28549868E+10  3.28549868E+10
 shsum :  2.66124134E+09  3.73729075E+10  4.51773235E+09  3.73727191E+10
 shsum :  2.68996685E+09  4.05345116E+10  3.16160307E+09  4.05343232E+10
 shsum :  2.92644454E+09  4.95536783E+10  9.01916774E+09  4.95534899E+10
 shsum :  2.92644454E+09  4.95536783E+10   38.508518      4.95534899E+10
 shsum :  2.92644454E+09  4.95536783E+10   2.3865888      4.95534899E+10
 fin  4.95536783E+10  2.92644454E+09   20.110683    
   16.933065    
 -2.26155764E+14   20.110683    
 ezero   0.0000000    
  4.95536783E+10
  1.12455531E+15

Total energy input of :5.885E+10 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 4.955E+10 is absorbed (entot) 
                         through inelastic collisions (shsum =4.955E+10)
                                           + heating (elhsum =1.882E+05)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  20.11 eV (from qtoteV)
                                  or :  16.93 eV (from (entot))
                                  or :******* eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  60.0, longitude  90.0.

 REED : The energy degradation is computed from the center energies of the grid.
 REED : The energy degradation source term is interpolated linearly with tau.
 REED : The albedo at  80. km is set to 1.00
 REED : The low energy phase function is taken from Porter
 REED : Secondary distribution from Rees et al., PSS 17, 1997, 1969           
 REED : Wiscombe's delta-M method IS applied

 MAIN : The screening parameter for the Rutherford phase function is calculated
        from the Bethe/Moliere formula for E > 500 eV

 MAIN : The energy grid covers the range from : 0.001 [eV] up to :   287.9 [eV].

 MAIN : The total energy input from the precipitation source is : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]
                                  and from photoelectron source : 5.8861E+10 [eV/cm2/s]
                                                             or : 9.4306E-02 [erg/cm2/s]
 That variable "errorgaupin" is:           80

 MAIN : Total energy deposition in [CO2] is 3.284E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 4.519E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 3.164E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 9.033E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 3.862E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 2.393E+00 [eV.cm-2.s-1] ("shsum").
  1.00944410E+09           2          21
  1.09074125E+09           2          23

 Total Heating :  1.888E+05 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  1.3727442E-03
 entot depart   188801.36       188801.36    
 shsum :  2.61058611E+09  3.28376607E+10  3.28374723E+10  3.28374723E+10
 shsum :  2.66257229E+09  3.73570150E+10  4.51935539E+09  3.73568266E+10
 shsum :  2.69131315E+09  4.05207286E+10  3.16371149E+09  4.05205402E+10
 shsum :  2.92814874E+09  4.95533916E+10  9.03266304E+09  4.95532032E+10
 shsum :  2.92814874E+09  4.95533916E+10   38.618988      4.95532032E+10
 shsum :  2.92814874E+09  4.95533916E+10   2.3928089      4.95532032E+10
 fin  4.95533916E+10  2.92814874E+09   20.101631    
   16.923113    
 -2.26024130E+14   20.101631    
 ezero   0.0000000    
  4.95533916E+10
  1.12440694E+15

Total energy input of :5.886E+10 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 4.955E+10 is absorbed (entot) 
                         through inelastic collisions (shsum =4.955E+10)
                                           + heating (elhsum =1.888E+05)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  20.10 eV (from qtoteV)
                                  or :  16.92 eV (from (entot))
                                  or :******* eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  45.0, longitude  95.0.

 REED : The energy degradation is computed from the center energies of the grid.
 REED : The energy degradation source term is interpolated linearly with tau.
 REED : The albedo at  80. km is set to 1.00
 REED : The low energy phase function is taken from Porter
 REED : Secondary distribution from Rees et al., PSS 17, 1997, 1969           
 REED : Wiscombe's delta-M method IS applied

 MAIN : The screening parameter for the Rutherford phase function is calculated
        from the Bethe/Moliere formula for E > 500 eV

 MAIN : The energy grid covers the range from : 0.001 [eV] up to :   287.9 [eV].

 MAIN : The total energy input from the precipitation source is : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]
                                  and from photoelectron source : 3.2482E+10 [eV/cm2/s]
                                                             or : 5.2043E-02 [erg/cm2/s]
 That variable "errorgaupin" is:           82

 MAIN : Total energy deposition in [CO2] is 1.560E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 2.411E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 1.704E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 5.459E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 2.642E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 1.826E+00 [eV.cm-2.s-1] ("shsum").
  5.93566080E+08           2          21
  6.36460800E+08           2          23

 Total Heating :  9.777E+04 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  8.1476010E-04
 entot depart   97766.883       97766.883    
 shsum :  1.38369357E+09  1.56013476E+10  1.56012503E+10  1.56012503E+10
 shsum :  1.41454874E+09  1.80123484E+10  2.41100006E+09  1.80122501E+10
 shsum :  1.43227917E+09  1.97159076E+10  1.70355968E+09  1.97158093E+10
 shsum :  1.58420800E+09  2.51746161E+10  5.45870797E+09  2.51745178E+10
 shsum :  1.58420800E+09  2.51746161E+10   26.417709      2.51745178E+10
 shsum :  1.58420800E+09  2.51746161E+10   1.8257258      2.51745178E+10
 fin  2.51746161E+10  1.58420800E+09   20.503796    
   15.890979    
 -4.17768550E+14   20.503796    
 ezero   0.0000000    
  2.51746161E+10
  2.03751799E+15

Total energy input of :3.248E+10 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 2.517E+10 is absorbed (entot) 
                         through inelastic collisions (shsum =2.517E+10)
                                           + heating (elhsum =9.777E+04)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  20.50 eV (from qtoteV)
                                  or :  15.89 eV (from (entot))
                                  or :******* eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  50.0, longitude  95.0.

 REED : The energy degradation is computed from the center energies of the grid.
 REED : The energy degradation source term is interpolated linearly with tau.
 REED : The albedo at  80. km is set to 1.00
 REED : The low energy phase function is taken from Porter
 REED : Secondary distribution from Rees et al., PSS 17, 1997, 1969           
 REED : Wiscombe's delta-M method IS applied

 MAIN : The screening parameter for the Rutherford phase function is calculated
        from the Bethe/Moliere formula for E > 500 eV

 MAIN : The energy grid covers the range from : 0.001 [eV] up to :   287.9 [eV].

 MAIN : The total energy input from the precipitation source is : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]
                                  and from photoelectron source : 3.4573E+10 [eV/cm2/s]
                                                             or : 5.5393E-02 [erg/cm2/s]
 That variable "errorgaupin" is:          100

 MAIN : Total energy deposition in [CO2] is 1.687E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 2.580E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 1.823E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 5.774E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 2.761E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 1.886E+00 [eV.cm-2.s-1] ("shsum").
  6.29889216E+08           2          21
  6.76046016E+08           2          23

 Total Heating :  1.053E+05 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  8.6229783E-04
 entot depart   105306.29       105306.29    
 shsum :  1.48010010E+09  1.68700191E+10  1.68699136E+10  1.68699136E+10
 shsum :  1.51275546E+09  1.94502164E+10  2.58019814E+09  1.94501120E+10
 shsum :  1.53146010E+09  2.12732232E+10  1.82300749E+09  2.12731187E+10
 shsum :  1.69118874E+09  2.70474916E+10  5.77426842E+09  2.70473871E+10
 shsum :  1.69118874E+09  2.70474916E+10   27.611269      2.70473871E+10
 shsum :  1.69118874E+09  2.70474916E+10   1.8857853      2.70473871E+10
 fin  2.70474916E+10  1.69118874E+09   20.443113    
   15.993183    
 -3.91341482E+14   20.443113    
 ezero   0.0000000    
  2.70474916E+10
  1.91429484E+15

Total energy input of :3.457E+10 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 2.705E+10 is absorbed (entot) 
                         through inelastic collisions (shsum =2.705E+10)
                                           + heating (elhsum =1.053E+05)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  20.44 eV (from qtoteV)
                                  or :  15.99 eV (from (entot))
                                  or :******* eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  55.0, longitude  95.0.

 REED : The energy degradation is computed from the center energies of the grid.
 REED : The energy degradation source term is interpolated linearly with tau.
 REED : The albedo at  80. km is set to 1.00
 REED : The low energy phase function is taken from Porter
 REED : Secondary distribution from Rees et al., PSS 17, 1997, 1969           
 REED : Wiscombe's delta-M method IS applied

 MAIN : The screening parameter for the Rutherford phase function is calculated
        from the Bethe/Moliere formula for E > 500 eV

 MAIN : The energy grid covers the range from : 0.001 [eV] up to :   287.9 [eV].

 MAIN : The total energy input from the precipitation source is : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]
                                  and from photoelectron source : 3.6890E+10 [eV/cm2/s]
                                                             or : 5.9104E-02 [erg/cm2/s]
 That variable "errorgaupin" is:           74

 MAIN : Total energy deposition in [CO2] is 1.829E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 2.768E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 1.955E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 6.120E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 2.890E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 1.950E+00 [eV.cm-2.s-1] ("shsum").
  6.68709056E+08           2          21
  7.18402880E+08           2          23

 Total Heating :  1.137E+05 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  9.1423234E-04
 entot depart   113728.44       113728.44    
 shsum :  1.58739379E+09  1.82926111E+10  1.82924964E+10  1.82924964E+10
 shsum :  1.62201600E+09  2.10603008E+10  2.76768870E+09  2.10601861E+10
 shsum :  1.64177997E+09  2.30154957E+10  1.95519450E+09  2.30153810E+10
 shsum :  1.80998362E+09  2.91352924E+10  6.11979674E+09  2.91351777E+10
 shsum :  1.80998362E+09  2.91352924E+10   28.903816      2.91351777E+10
 shsum :  1.80998362E+09  2.91352924E+10   1.9498675      2.91351777E+10
 fin  2.91352924E+10  1.80998362E+09   20.381136    
   16.096992    
 -3.65656503E+14   20.381136    
 ezero   0.0000000    
  2.91352924E+10
  1.79409280E+15

Total energy input of :3.689E+10 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 2.914E+10 is absorbed (entot) 
                         through inelastic collisions (shsum =2.914E+10)
                                           + heating (elhsum =1.137E+05)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  20.38 eV (from qtoteV)
                                  or :  16.10 eV (from (entot))
                                  or :******* eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  60.0, longitude  95.0.

 REED : The energy degradation is computed from the center energies of the grid.
 REED : The energy degradation source term is interpolated linearly with tau.
 REED : The albedo at  80. km is set to 1.00
 REED : The low energy phase function is taken from Porter
 REED : Secondary distribution from Rees et al., PSS 17, 1997, 1969           
 REED : Wiscombe's delta-M method IS applied

 MAIN : The screening parameter for the Rutherford phase function is calculated
        from the Bethe/Moliere formula for E > 500 eV

 MAIN : The energy grid covers the range from : 0.001 [eV] up to :   287.9 [eV].

 MAIN : The total energy input from the precipitation source is : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]
                                  and from photoelectron source : 3.9426E+10 [eV/cm2/s]
                                                             or : 6.3168E-02 [erg/cm2/s]
 That variable "errorgaupin" is:           75

 MAIN : Total energy deposition in [CO2] is 1.987E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 2.973E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 2.100E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 6.493E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 3.028E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 2.017E+00 [eV.cm-2.s-1] ("shsum").
  7.09467200E+08           2          21
  7.62925376E+08           2          23

 Total Heating :  1.230E+05 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  9.7026635E-04
 entot depart   123000.73       123000.73    
 shsum :  1.70536499E+09  1.98703718E+10  1.98702490E+10  1.98702490E+10
 shsum :  1.74210918E+09  2.28432691E+10  2.97289779E+09  2.28431462E+10
 shsum :  1.76301005E+09  2.49428992E+10  2.09963008E+09  2.49427763E+10
 shsum :  1.94030221E+09  3.14361569E+10  6.49325722E+09  3.14360340E+10
 shsum :  1.94030221E+09  3.14361569E+10   30.281145      3.14360340E+10
 shsum :  1.94030221E+09  3.14361569E+10   2.0171039      3.14360340E+10
 fin  3.14361569E+10  1.94030221E+09   20.319424    
   16.201681    
 -3.41097511E+14   20.319424    
 ezero   0.0000000    
  3.14361569E+10
  1.67867723E+15

Total energy input of :3.943E+10 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 3.144E+10 is absorbed (entot) 
                         through inelastic collisions (shsum =3.144E+10)
                                           + heating (elhsum =1.230E+05)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  20.32 eV (from qtoteV)
                                  or :  16.20 eV (from (entot))
                                  or :******* eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  45.0, longitude 100.0.

 REED : The energy degradation is computed from the center energies of the grid.
 REED : The energy degradation source term is interpolated linearly with tau.
 REED : The albedo at  80. km is set to 1.00
 REED : The low energy phase function is taken from Porter
 REED : Secondary distribution from Rees et al., PSS 17, 1997, 1969           
 REED : Wiscombe's delta-M method IS applied

 MAIN : The screening parameter for the Rutherford phase function is calculated
        from the Bethe/Moliere formula for E > 500 eV

 MAIN : The energy grid covers the range from : 0.001 [eV] up to :   287.9 [eV].

 MAIN : The total energy input from the precipitation source is : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]
                                  and from photoelectron source : 1.4660E+10 [eV/cm2/s]
                                                             or : 2.3488E-02 [erg/cm2/s]
 That variable "errorgaupin" is:           73

 MAIN : Total energy deposition in [CO2] is 5.717E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 9.833E+08 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 6.876E+08 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 2.546E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 1.457E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 1.169E+00 [eV.cm-2.s-1] ("shsum").
  2.46798656E+08           2          21
  2.61531664E+08           2          23

 Total Heating :  3.702E+04 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  3.7908155E-04
 entot depart   37018.734       37018.734    
 shsum :  5.80718208E+08  5.71677286E+09  5.71673600E+09  5.71673600E+09
 shsum :  5.95074112E+08  6.70010419E+09  9.83331520E+08  6.70006733E+09
 shsum :  6.03583296E+08  7.38774221E+09  6.87637760E+08  7.38770534E+09
 shsum :  6.79863360E+08  9.93418342E+09  2.54644122E+09  9.93414656E+09
 shsum :  6.79863360E+08  9.93418342E+09   14.571435      9.93414656E+09
 shsum :  6.79863360E+08  9.93418342E+09   1.1686068      9.93414656E+09
 fin  9.93418342E+09  6.79863360E+08   21.562572    
   14.612029    
 -9.73478363E+14   21.562572    
 ezero   0.0000000    
  9.93418342E+09
  4.51466722E+15

Total energy input of :1.466E+10 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 9.934E+09 is absorbed (entot) 
                         through inelastic collisions (shsum =9.934E+09)
                                           + heating (elhsum =3.702E+04)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  21.56 eV (from qtoteV)
                                  or :  14.61 eV (from (entot))
                                  or :******* eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  50.0, longitude 100.0.

 REED : The energy degradation is computed from the center energies of the grid.
 REED : The energy degradation source term is interpolated linearly with tau.
 REED : The albedo at  80. km is set to 1.00
 REED : The low energy phase function is taken from Porter
 REED : Secondary distribution from Rees et al., PSS 17, 1997, 1969           
 REED : Wiscombe's delta-M method IS applied

 MAIN : The screening parameter for the Rutherford phase function is calculated
        from the Bethe/Moliere formula for E > 500 eV

 MAIN : The energy grid covers the range from : 0.001 [eV] up to :   287.9 [eV].

 MAIN : The total energy input from the precipitation source is : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]
                                  and from photoelectron source : 1.7330E+10 [eV/cm2/s]
                                                             or : 2.7767E-02 [erg/cm2/s]
 That variable "errorgaupin" is:           94

 MAIN : Total energy deposition in [CO2] is 7.046E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 1.192E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 8.370E+08 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 3.016E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 1.671E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 1.298E+00 [eV.cm-2.s-1] ("shsum").
  2.99958784E+08           2          21
  3.18631360E+08           2          23

 Total Heating :  4.584E+04 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  4.4768455E-04
 entot depart   45838.418       45838.418    
 shsum :  6.98884096E+08  7.04607949E+09  7.04603341E+09  7.04603341E+09
 shsum :  7.15838016E+08  8.23822336E+09  1.19214400E+09  8.23817728E+09
 shsum :  7.25842048E+08  9.07520410E+09  8.36980672E+08  9.07515802E+09
 shsum :  8.14872704E+08  1.20907182E+10  3.01551411E+09  1.20906721E+10
 shsum :  8.14872704E+08  1.20907182E+10   16.706970      1.20906721E+10
 shsum :  8.14872704E+08  1.20907182E+10   1.2983932      1.20906721E+10
 fin  1.20907182E+10  8.14872704E+08   21.267555    
   14.837555    
 -8.12190999E+14   21.267555    
 ezero   0.0000000    
  1.20907182E+10
  3.81892064E+15

Total energy input of :1.733E+10 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 1.209E+10 is absorbed (entot) 
                         through inelastic collisions (shsum =1.209E+10)
                                           + heating (elhsum =4.584E+04)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  21.27 eV (from qtoteV)
                                  or :  14.84 eV (from (entot))
                                  or :******* eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  55.0, longitude 100.0.

 REED : The energy degradation is computed from the center energies of the grid.
 REED : The energy degradation source term is interpolated linearly with tau.
 REED : The albedo at  80. km is set to 1.00
 REED : The low energy phase function is taken from Porter
 REED : Secondary distribution from Rees et al., PSS 17, 1997, 1969           
 REED : Wiscombe's delta-M method IS applied

 MAIN : The screening parameter for the Rutherford phase function is calculated
        from the Bethe/Moliere formula for E > 500 eV

 MAIN : The energy grid covers the range from : 0.001 [eV] up to :   287.9 [eV].

 MAIN : The total energy input from the precipitation source is : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]
                                  and from photoelectron source : 2.0500E+10 [eV/cm2/s]
                                                             or : 3.2844E-02 [erg/cm2/s]
 That variable "errorgaupin" is:           88

 MAIN : Total energy deposition in [CO2] is 8.696E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 1.444E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 1.017E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 3.561E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 1.909E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 1.437E+00 [eV.cm-2.s-1] ("shsum").
  3.62334048E+08           2          21
  3.85888608E+08           2          23

 Total Heating :  5.667E+04 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  5.2759307E-04
 entot depart   56673.227       56673.227    
 shsum :  8.40738432E+08  8.69628621E+09  8.69622989E+09  8.69622989E+09
 shsum :  8.60718464E+08  1.01401088E+10  1.44382310E+09  1.01400535E+10
 shsum :  8.72445888E+08  1.11572050E+10  1.01709651E+09  1.11571497E+10
 shsum :  9.76004544E+08  1.47181445E+10  3.56094003E+09  1.47180892E+10
 shsum :  9.76004544E+08  1.47181445E+10   19.089058      1.47180892E+10
 shsum :  9.76004544E+08  1.47181445E+10   1.4370158      1.47180892E+10
 fin  1.47181445E+10  9.76004544E+08   21.003565    
   15.079996    
 -6.78103664E+14   21.003565    
 ezero   0.0000000    
  1.47181445E+10
  3.22851698E+15

Total energy input of :2.050E+10 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 1.472E+10 is absorbed (entot) 
                         through inelastic collisions (shsum =1.472E+10)
                                           + heating (elhsum =5.667E+04)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  21.00 eV (from qtoteV)
                                  or :  15.08 eV (from (entot))
                                  or :******* eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  60.0, longitude 100.0.

 REED : The energy degradation is computed from the center energies of the grid.
 REED : The energy degradation source term is interpolated linearly with tau.
 REED : The albedo at  80. km is set to 1.00
 REED : The low energy phase function is taken from Porter
 REED : Secondary distribution from Rees et al., PSS 17, 1997, 1969           
 REED : Wiscombe's delta-M method IS applied

 MAIN : The screening parameter for the Rutherford phase function is calculated
        from the Bethe/Moliere formula for E > 500 eV

 MAIN : The energy grid covers the range from : 0.001 [eV] up to :   287.9 [eV].

 MAIN : The total energy input from the precipitation source is : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]
                                  and from photoelectron source : 2.4205E+10 [eV/cm2/s]
                                                             or : 3.8781E-02 [erg/cm2/s]
 That variable "errorgaupin" is:           79

 MAIN : Total energy deposition in [CO2] is 1.071E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 1.742E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 1.230E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 4.182E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 2.169E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 1.582E+00 [eV.cm-2.s-1] ("shsum").
  4.33465952E+08           2          21
  4.62865728E+08           2          23

 Total Heating :  6.970E+04 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  6.1886292E-04
 entot depart   69697.805       69697.805    
 shsum :  1.00834445E+09  1.07129651E+10  1.07128955E+10  1.07128955E+10
 shsum :  1.03178093E+09  1.24544901E+10  1.74152474E+09  1.24544205E+10
 shsum :  1.04545434E+09  1.36844974E+10  1.23000768E+09  1.36844278E+10
 shsum :  1.16521830E+09  1.78666824E+10  4.18218547E+09  1.78666127E+10
 shsum :  1.16521830E+09  1.78666824E+10   21.687979      1.78666127E+10
 shsum :  1.16521830E+09  1.78666824E+10   1.5817766      1.78666127E+10
 fin  1.78666824E+10  1.16521830E+09   20.772890    
   15.333335    
 -5.67989963E+14   20.772890    
 ezero   0.0000000    
  1.78666824E+10
  2.73428463E+15

Total energy input of :2.420E+10 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 1.787E+10 is absorbed (entot) 
                         through inelastic collisions (shsum =1.787E+10)
                                           + heating (elhsum =6.970E+04)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  20.77 eV (from qtoteV)
                                  or :  15.33 eV (from (entot))
                                  or :******* eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  45.0, longitude 105.0.

 REED : The energy degradation is computed from the center energies of the grid.
 REED : The energy degradation source term is interpolated linearly with tau.
 REED : The albedo at  80. km is set to 1.00
 REED : The low energy phase function is taken from Porter
 REED : Secondary distribution from Rees et al., PSS 17, 1997, 1969           
 REED : Wiscombe's delta-M method IS applied

 MAIN : The screening parameter for the Rutherford phase function is calculated
        from the Bethe/Moliere formula for E > 500 eV

 MAIN : The energy grid covers the range from : 0.001 [eV] up to :   287.9 [eV].

 MAIN : The total energy input from the precipitation source is : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]
                                  and from photoelectron source : 4.7080E+09 [eV/cm2/s]
                                                             or : 7.5431E-03 [erg/cm2/s]
 That variable "errorgaupin" is:           77

 MAIN : Total energy deposition in [CO2] is 1.444E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 2.622E+08 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 1.761E+08 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 7.571E+08 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 5.303E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 5.209E-01 [eV.cm-2.s-1] ("shsum").
   58693964.               2          21
   61760972.               2          23

 Total Heating :  8.592E+03 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  1.1784885E-04
 entot depart   8592.0342       8592.0342    
 shsum :  1.59757152E+08  1.44427789E+09  1.44426931E+09  1.44426931E+09
 shsum :  1.64220112E+08  1.70652109E+09  2.62243232E+08  1.70651251E+09
 shsum :  1.66887808E+08  1.88265613E+09  1.76135024E+08  1.88264755E+09
 shsum :  1.91558736E+08  2.63970867E+09  7.57052608E+08  2.63970022E+09
 shsum :  1.91558736E+08  2.63970867E+09   5.3031149      2.63970022E+09
 shsum :  1.91558736E+08  2.63970867E+09  0.52085370      2.63970022E+09
 fin  2.63970867E+09  1.91558736E+08   24.577097    
   13.780153    
 -3.45498363E+15   24.577097    
 ezero   0.0000000    
  2.63970867E+09
  1.40577361E+16

Total energy input of :4.708E+09 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 2.640E+09 is absorbed (entot) 
                         through inelastic collisions (shsum =2.640E+09)
                                           + heating (elhsum =8.592E+03)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  24.58 eV (from qtoteV)
                                  or :  13.78 eV (from (entot))
                                  or :******* eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  50.0, longitude 105.0.

 REED : The energy degradation is computed from the center energies of the grid.
 REED : The energy degradation source term is interpolated linearly with tau.
 REED : The albedo at  80. km is set to 1.00
 REED : The low energy phase function is taken from Porter
 REED : Secondary distribution from Rees et al., PSS 17, 1997, 1969           
 REED : Wiscombe's delta-M method IS applied

 MAIN : The screening parameter for the Rutherford phase function is calculated
        from the Bethe/Moliere formula for E > 500 eV

 MAIN : The energy grid covers the range from : 0.001 [eV] up to :   287.9 [eV].

 MAIN : The total energy input from the precipitation source is : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]
                                  and from photoelectron source : 6.8053E+09 [eV/cm2/s]
                                                             or : 1.0903E-02 [erg/cm2/s]
 That variable "errorgaupin" is:           71

 MAIN : Total energy deposition in [CO2] is 2.224E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 4.019E+08 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 2.742E+08 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 1.134E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 7.505E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 6.910E-01 [eV.cm-2.s-1] ("shsum").
   94401296.               2          21
   99376592.               2          23

 Total Heating :  1.383E+04 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  1.7252460E-04
 entot depart   13834.932       13834.932    
 shsum :  2.44888576E+08  2.22436864E+09  2.22435482E+09  2.22435482E+09
 shsum :  2.51422112E+08  2.62629402E+09  4.01925280E+08  2.62628019E+09
 shsum :  2.55334656E+08  2.90048435E+09  2.74190336E+08  2.90047053E+09
 shsum :  2.91390304E+08  4.03466445E+09  1.13418022E+09  4.03465062E+09
 shsum :  2.91390304E+08  4.03466445E+09   7.5052652      4.03465062E+09
 shsum :  2.91390304E+08  4.03466445E+09  0.69097352      4.03465062E+09
 fin  4.03466445E+09  2.91390304E+08   23.354563    
   13.846255    
 -2.27129145E+15   23.354563    
 ezero   0.0000000    
  4.03466445E+09
  9.72525766E+15

Total energy input of :6.805E+09 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 4.035E+09 is absorbed (entot) 
                         through inelastic collisions (shsum =4.035E+09)
                                           + heating (elhsum =1.383E+04)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  23.35 eV (from qtoteV)
                                  or :  13.85 eV (from (entot))
                                  or :******* eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  55.0, longitude 105.0.

 REED : The energy degradation is computed from the center energies of the grid.
 REED : The energy degradation source term is interpolated linearly with tau.
 REED : The albedo at  80. km is set to 1.00
 REED : The low energy phase function is taken from Porter
 REED : Secondary distribution from Rees et al., PSS 17, 1997, 1969           
 REED : Wiscombe's delta-M method IS applied

 MAIN : The screening parameter for the Rutherford phase function is calculated
        from the Bethe/Moliere formula for E > 500 eV

 MAIN : The energy grid covers the range from : 0.001 [eV] up to :   287.9 [eV].

 MAIN : The total energy input from the precipitation source is : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]
                                  and from photoelectron source : 9.6236E+09 [eV/cm2/s]
                                                             or : 1.5419E-02 [erg/cm2/s]
 That variable "errorgaupin" is:           59

 MAIN : Total energy deposition in [CO2] is 3.378E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 6.021E+08 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 4.161E+08 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 1.648E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 1.028E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 8.893E-01 [eV.cm-2.s-1] ("shsum").
  1.46523504E+08           2          21
  1.54568016E+08           2          23

 Total Heating :  2.172E+04 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  2.4668191E-04
 entot depart   21717.592       21717.592    
 shsum :  3.63444128E+08  3.37773517E+09  3.37771341E+09  3.37771341E+09
 shsum :  3.72786016E+08  3.97980877E+09  6.02073472E+08  3.97978675E+09
 shsum :  3.78370912E+08  4.39590963E+09  4.16100864E+08  4.39588762E+09
 shsum :  4.29443200E+08  6.04377344E+09  1.64786381E+09  6.04375142E+09
 shsum :  4.29443200E+08  6.04377344E+09   10.280970      6.04375142E+09
 shsum :  4.29443200E+08  6.04377344E+09  0.88933879      6.04375142E+09
 fin  6.04377344E+09  4.29443200E+08   22.409393    
   14.073510    
 -1.54114043E+15   22.409393    
 ezero   0.0000000    
  6.04377344E+09
  6.87720793E+15

Total energy input of :9.624E+09 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 6.044E+09 is absorbed (entot) 
                         through inelastic collisions (shsum =6.044E+09)
                                           + heating (elhsum =2.172E+04)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  22.41 eV (from qtoteV)
                                  or :  14.07 eV (from (entot))
                                  or :******* eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  60.0, longitude 105.0.

 REED : The energy degradation is computed from the center energies of the grid.
 REED : The energy degradation source term is interpolated linearly with tau.
 REED : The albedo at  80. km is set to 1.00
 REED : The low energy phase function is taken from Porter
 REED : Secondary distribution from Rees et al., PSS 17, 1997, 1969           
 REED : Wiscombe's delta-M method IS applied

 MAIN : The screening parameter for the Rutherford phase function is calculated
        from the Bethe/Moliere formula for E > 500 eV

 MAIN : The energy grid covers the range from : 0.001 [eV] up to :   287.9 [eV].

 MAIN : The total energy input from the precipitation source is : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]
                                  and from photoelectron source : 1.3295E+10 [eV/cm2/s]
                                                             or : 2.1301E-02 [erg/cm2/s]
 That variable "errorgaupin" is:           70

 MAIN : Total energy deposition in [CO2] is 5.028E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 8.772E+08 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 6.126E+08 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 2.314E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 1.361E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 1.109E+00 [eV.cm-2.s-1] ("shsum").
  2.17894512E+08           2          21
  2.30668528E+08           2          23

 Total Heating :  3.303E+04 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  3.4296382E-04
 entot depart   33025.941       33025.941    
 shsum :  5.22357408E+08  5.02815590E+09  5.02812262E+09  5.02812262E+09
 shsum :  5.35345504E+08  5.90539878E+09  8.77242752E+08  5.90536550E+09
 shsum :  5.43072512E+08  6.51795558E+09  6.12556544E+08  6.51792179E+09
 shsum :  6.12981056E+08  8.83245568E+09  2.31449984E+09  8.83242189E+09
 shsum :  6.12981056E+08  8.83245568E+09   13.606056      8.83242189E+09
 shsum :  6.12981056E+08  8.83245568E+09   1.1089711      8.83242189E+09
 fin  8.83245568E+09  6.12981056E+08   21.689323    
   14.409019    
 -1.07969451E+15   21.689323    
 ezero   0.0000000    
  8.83245568E+09
  4.97800024E+15

Total energy input of :1.330E+10 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 8.832E+09 is absorbed (entot) 
                         through inelastic collisions (shsum =8.832E+09)
                                           + heating (elhsum =3.303E+04)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  21.69 eV (from qtoteV)
                                  or :  14.41 eV (from (entot))
                                  or :******* eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  45.0, longitude 110.0.

 REED : The energy degradation is computed from the center energies of the grid.
 REED : The energy degradation source term is interpolated linearly with tau.
 REED : The albedo at  80. km is set to 1.00
 REED : The low energy phase function is taken from Porter
 REED : Secondary distribution from Rees et al., PSS 17, 1997, 1969           
 REED : Wiscombe's delta-M method IS applied

 MAIN : The screening parameter for the Rutherford phase function is calculated
        from the Bethe/Moliere formula for E > 500 eV

 MAIN : The energy grid covers the range from : 0.001 [eV] up to :   287.9 [eV].

 MAIN : The total energy input from the precipitation source is : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]
                                  and from photoelectron source : 7.6190E+08 [eV/cm2/s]
                                                             or : 1.2207E-03 [erg/cm2/s]
 That variable "errorgaupin" is:           76

 MAIN : Total energy deposition in [CO2] is 2.057E+08 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 3.449E+07 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 2.116E+07 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 9.954E+07 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 8.671E-01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 1.150E-01 [eV.cm-2.s-1] ("shsum").
   5819041.0               2          21
   6181842.5               2          23

 Total Heating :  9.205E+02 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  1.8722154E-05
 entot depart   920.53033       920.53033    
 shsum :   17290644.      2.05680768E+08  2.05679840E+08  2.05679840E+08
 shsum :   17999656.      2.40173984E+08   34493220.      2.40173056E+08
 shsum :   18406128.      2.61330000E+08   21156022.      2.61329072E+08
 shsum :   22000024.      3.60874240E+08   99544240.      3.60873312E+08
 shsum :   22000024.      3.60874240E+08  0.86712247      3.60873312E+08
 shsum :   22000024.      3.60874240E+08  0.11504072      3.60873312E+08
 fin  3.60874240E+08   22000024.       34.631634    
   16.403357    
 -3.00832523E+16   34.631634    
 ezero   0.0000000    
  3.60874240E+08
  8.68664008E+16

Total energy input of :7.619E+08 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 3.609E+08 is absorbed (entot) 
                         through inelastic collisions (shsum =3.609E+08)
                                           + heating (elhsum =9.205E+02)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  34.63 eV (from qtoteV)
                                  or :  16.40 eV (from (entot))
                                  or :******* eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  50.0, longitude 110.0.

 REED : The energy degradation is computed from the center energies of the grid.
 REED : The energy degradation source term is interpolated linearly with tau.
 REED : The albedo at  80. km is set to 1.00
 REED : The low energy phase function is taken from Porter
 REED : Secondary distribution from Rees et al., PSS 17, 1997, 1969           
 REED : Wiscombe's delta-M method IS applied

 MAIN : The screening parameter for the Rutherford phase function is calculated
        from the Bethe/Moliere formula for E > 500 eV

 MAIN : The energy grid covers the range from : 0.001 [eV] up to :   287.9 [eV].

 MAIN : The total energy input from the precipitation source is : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]
                                  and from photoelectron source : 1.7075E+09 [eV/cm2/s]
                                                             or : 2.7358E-03 [erg/cm2/s]
 That variable "errorgaupin" is:           75

 MAIN : Total energy deposition in [CO2] is 4.696E+08 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 8.317E+07 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 5.321E+07 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 2.454E+08 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 1.971E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 2.294E-01 [eV.cm-2.s-1] ("shsum").
   15855479.               2          21
   16752418.               2          23

 Total Heating :  2.421E+03 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  4.1765845E-05
 entot depart   2421.4055       2421.4055    
 shsum :   47437316.      4.69644864E+08  4.69642432E+08  4.69642432E+08
 shsum :   49018996.      5.52812160E+08   83167304.      5.52809728E+08
 shsum :   49947208.      6.06024064E+08   53211916.      6.06021632E+08
 shsum :   58437824.      8.51398272E+08  2.45374176E+08  8.51395840E+08
 shsum :   58437824.      8.51398272E+08   1.9708412      8.51395840E+08
 shsum :   58437824.      8.51398272E+08  0.22943920      8.51395840E+08
 fin  8.51398272E+08   58437824.       29.219572    
   14.569302    
 -1.13254089E+16   29.219572    
 ezero   0.0000000    
  8.51398272E+08
  3.87596704E+16

Total energy input of :1.708E+09 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 8.514E+08 is absorbed (entot) 
                         through inelastic collisions (shsum =8.514E+08)
                                           + heating (elhsum =2.421E+03)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  29.22 eV (from qtoteV)
                                  or :  14.57 eV (from (entot))
                                  or :******* eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  55.0, longitude 110.0.

 REED : The energy degradation is computed from the center energies of the grid.
 REED : The energy degradation source term is interpolated linearly with tau.
 REED : The albedo at  80. km is set to 1.00
 REED : The low energy phase function is taken from Porter
 REED : Secondary distribution from Rees et al., PSS 17, 1997, 1969           
 REED : Wiscombe's delta-M method IS applied

 MAIN : The screening parameter for the Rutherford phase function is calculated
        from the Bethe/Moliere formula for E > 500 eV

 MAIN : The energy grid covers the range from : 0.001 [eV] up to :   287.9 [eV].

 MAIN : The total energy input from the precipitation source is : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]
                                  and from photoelectron source : 3.4334E+09 [eV/cm2/s]
                                                             or : 5.5010E-03 [erg/cm2/s]
 That variable "errorgaupin" is:           69

 MAIN : Total energy deposition in [CO2] is 1.001E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 1.822E+08 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 1.207E+08 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 5.350E+08 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 3.947E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 4.083E-01 [eV.cm-2.s-1] ("shsum").
   38799696.               2          21
   40852016.               2          23

 Total Heating :  5.786E+03 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  8.4843079E-05
 entot depart   5785.9604       5785.9604    
 shsum :  1.10495848E+08  1.00107034E+09  1.00106458E+09  1.00106458E+09
 shsum :  1.13708872E+08  1.18326605E+09  1.82195712E+08  1.18326029E+09
 shsum :  1.15623456E+08  1.30398426E+09  1.20718176E+08  1.30397850E+09
 shsum :  1.33403000E+08  1.83901568E+09  5.35031360E+08  1.83900979E+09
 shsum :  1.33403000E+08  1.83901568E+09   3.9469919      1.83900979E+09
 shsum :  1.33403000E+08  1.83901568E+09  0.40829641      1.83900979E+09
 fin  1.83901568E+09  1.33403000E+08   25.737101    
   13.785415    
 -4.96115001E+15   25.737101    
 ezero   0.0000000    
  1.83901568E+09
  1.92762578E+16

Total energy input of :3.433E+09 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 1.839E+09 is absorbed (entot) 
                         through inelastic collisions (shsum =1.839E+09)
                                           + heating (elhsum =5.786E+03)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  25.74 eV (from qtoteV)
                                  or :  13.79 eV (from (entot))
                                  or :******* eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  60.0, longitude 110.0.

 REED : The energy degradation is computed from the center energies of the grid.
 REED : The energy degradation source term is interpolated linearly with tau.
 REED : The albedo at  80. km is set to 1.00
 REED : The low energy phase function is taken from Porter
 REED : Secondary distribution from Rees et al., PSS 17, 1997, 1969           
 REED : Wiscombe's delta-M method IS applied

 MAIN : The screening parameter for the Rutherford phase function is calculated
        from the Bethe/Moliere formula for E > 500 eV

 MAIN : The energy grid covers the range from : 0.001 [eV] up to :   287.9 [eV].

 MAIN : The total energy input from the precipitation source is : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]
                                  and from photoelectron source : 6.2232E+09 [eV/cm2/s]
                                                             or : 9.9708E-03 [erg/cm2/s]
 That variable "errorgaupin" is:           61

 MAIN : Total energy deposition in [CO2] is 1.985E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 3.615E+08 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 2.460E+08 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 1.033E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 6.982E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 6.515E-01 [eV.cm-2.s-1] ("shsum").
   83721336.               2          21
   88110288.               2          23

 Total Heating :  1.242E+04 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  1.5678821E-04
 entot depart   12420.119       12420.119    
 shsum :  2.21686848E+08  1.98474995E+09  1.98473754E+09  1.98473754E+09
 shsum :  2.27624448E+08  2.34626150E+09  3.61511680E+08  2.34624922E+09
 shsum :  2.31184224E+08  2.59225830E+09  2.45996880E+08  2.59224602E+09
 shsum :  2.64207296E+08  3.62476032E+09  1.03250202E+09  3.62474803E+09
 shsum :  2.64207296E+08  3.62476032E+09   6.9817667      3.62474803E+09
 shsum :  2.64207296E+08  3.62476032E+09  0.65145636      3.62474803E+09
 fin  3.62476032E+09  2.64207296E+08   23.554291    
   13.719380    
 -2.50497364E+15   23.554291    
 ezero   0.0000000    
  3.62476032E+09
  1.06348931E+16

Total energy input of :6.223E+09 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 3.625E+09 is absorbed (entot) 
                         through inelastic collisions (shsum =3.625E+09)
                                           + heating (elhsum =1.242E+04)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  23.55 eV (from qtoteV)
                                  or :  13.72 eV (from (entot))
                                  or :******* eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  45.0, longitude 115.0.

 REED : The energy degradation is computed from the center energies of the grid.
 REED : The energy degradation source term is interpolated linearly with tau.
 REED : The albedo at  80. km is set to 1.00
 REED : The low energy phase function is taken from Porter
 REED : Secondary distribution from Rees et al., PSS 17, 1997, 1969           
 REED : Wiscombe's delta-M method IS applied

 MAIN : The screening parameter for the Rutherford phase function is calculated
        from the Bethe/Moliere formula for E > 500 eV

 MAIN : The energy grid covers the range from : 0.001 [eV] up to :   287.9 [eV].

 MAIN : The total energy input from the precipitation source is : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]
                                  and from photoelectron source : 4.0124E+07 [eV/cm2/s]
                                                             or : 6.4287E-05 [erg/cm2/s]
 That variable "errorgaupin" is:           78

 MAIN : Total energy deposition in [CO2] is 1.085E+07 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 1.542E+06 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 8.636E+05 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 3.949E+06 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 3.975E-02 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 6.916E-03 [eV.cm-2.s-1] ("shsum").
   210213.72               2          21
   226235.34               2          23

 Total Heating :  3.668E+01 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  9.5787311E-07
 entot depart   36.683025       36.683025    
 shsum :   516858.44       10845557.       10845520.       10845520.    
 shsum :   553133.25       12387519.       1541961.8       12387482.    
 shsum :   572638.69       13251109.       863590.19       13251072.    
 shsum :   726598.31       17199800.       3948690.0       17199762.    
 shsum :   726598.31       17199800.      3.97509858E-02   17199762.    
 shsum :   726598.31       17199800.      6.91645732E-03   17199762.    
 fin   17199800.       726598.31       55.222309    
   23.671677    
 -9.10864020E+17   55.222309    
 ezero   0.0000000    
   17199800.    
  1.64944941E+18

Total energy input of :4.012E+07 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 1.720E+07 is absorbed (entot) 
                         through inelastic collisions (shsum =1.720E+07)
                                           + heating (elhsum =3.668E+01)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  55.22 eV (from qtoteV)
                                  or :  23.67 eV (from (entot))
                                  or :******* eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  50.0, longitude 115.0.

 REED : The energy degradation is computed from the center energies of the grid.
 REED : The energy degradation source term is interpolated linearly with tau.
 REED : The albedo at  80. km is set to 1.00
 REED : The low energy phase function is taken from Porter
 REED : Secondary distribution from Rees et al., PSS 17, 1997, 1969           
 REED : Wiscombe's delta-M method IS applied

 MAIN : The screening parameter for the Rutherford phase function is calculated
        from the Bethe/Moliere formula for E > 500 eV

 MAIN : The energy grid covers the range from : 0.001 [eV] up to :   287.9 [eV].

 MAIN : The total energy input from the precipitation source is : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]
                                  and from photoelectron source : 1.9895E+08 [eV/cm2/s]
                                                             or : 3.1876E-04 [erg/cm2/s]
 That variable "errorgaupin" is:           81

 MAIN : Total energy deposition in [CO2] is 5.410E+07 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 8.250E+06 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 4.770E+06 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 2.237E+07 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 2.157E-01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 3.405E-02 [eV.cm-2.s-1] ("shsum").
   1200031.5               2          21
   1284710.3               2          23

 Total Heating :  2.021E+02 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  4.9112118E-06
 entot depart   202.07742       202.07742    
 shsum :   3220848.5       54097500.       54097296.       54097296.    
 shsum :   3406837.0       62347368.       8249866.0       62347160.    
 shsum :   3509498.3       67117688.       4770316.5       67117480.    
 shsum :   4361200.0       89492400.       22374712.       89492192.    
 shsum :   4361200.0       89492400.      0.21573195       89492192.    
 shsum :   4361200.0       89492400.      3.40487435E-02   89492192.    
 fin   89492400.       4361200.0       45.618622    
   20.520132    
 -1.51754629E+17   45.618622    
 ezero   0.0000000    
   89492400.    
  3.32659373E+17

Total energy input of :1.990E+08 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 8.949E+07 is absorbed (entot) 
                         through inelastic collisions (shsum =8.949E+07)
                                           + heating (elhsum =2.021E+02)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  45.62 eV (from qtoteV)
                                  or :  20.52 eV (from (entot))
                                  or :******* eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  55.0, longitude 115.0.

 REED : The energy degradation is computed from the center energies of the grid.
 REED : The energy degradation source term is interpolated linearly with tau.
 REED : The albedo at  80. km is set to 1.00
 REED : The low energy phase function is taken from Porter
 REED : Secondary distribution from Rees et al., PSS 17, 1997, 1969           
 REED : Wiscombe's delta-M method IS applied

 MAIN : The screening parameter for the Rutherford phase function is calculated
        from the Bethe/Moliere formula for E > 500 eV

 MAIN : The energy grid covers the range from : 0.001 [eV] up to :   287.9 [eV].

 MAIN : The total energy input from the precipitation source is : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]
                                  and from photoelectron source : 7.5864E+08 [eV/cm2/s]
                                                             or : 1.2155E-03 [erg/cm2/s]
 That variable "errorgaupin" is:           75

 MAIN : Total energy deposition in [CO2] is 2.033E+08 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 3.426E+07 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 2.103E+07 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 9.934E+07 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 8.710E-01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 1.153E-01 [eV.cm-2.s-1] ("shsum").
   5753994.0               2          21
   6112093.5               2          23

 Total Heating :  9.215E+02 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  1.8576531E-05
 entot depart   921.52692       921.52692    
 shsum :   17281174.      2.03338528E+08  2.03337600E+08  2.03337600E+08
 shsum :   17984670.      2.37601440E+08   34262908.      2.37600512E+08
 shsum :   18388280.      2.58632896E+08   21031456.      2.58631968E+08
 shsum :   21973600.      3.57969312E+08   99336416.      3.57968384E+08
 shsum :   21973600.      3.57969312E+08  0.87096357      3.57968384E+08
 shsum :   21973600.      3.57969312E+08  0.11531911      3.57968384E+08
 fin  3.57969312E+08   21973600.       34.525265    
   16.290882    
 -3.01194288E+16   34.525265    
 ezero   0.0000000    
  3.57969312E+08
  8.72388088E+16

Total energy input of :7.586E+08 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 3.580E+08 is absorbed (entot) 
                         through inelastic collisions (shsum =3.580E+08)
                                           + heating (elhsum =9.215E+02)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  34.53 eV (from qtoteV)
                                  or :  16.29 eV (from (entot))
                                  or :******* eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  60.0, longitude 115.0.

 REED : The energy degradation is computed from the center energies of the grid.
 REED : The energy degradation source term is interpolated linearly with tau.
 REED : The albedo at  80. km is set to 1.00
 REED : The low energy phase function is taken from Porter
 REED : Secondary distribution from Rees et al., PSS 17, 1997, 1969           
 REED : Wiscombe's delta-M method IS applied

 MAIN : The screening parameter for the Rutherford phase function is calculated
        from the Bethe/Moliere formula for E > 500 eV

 MAIN : The energy grid covers the range from : 0.001 [eV] up to :   287.9 [eV].

 MAIN : The total energy input from the precipitation source is : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]
                                  and from photoelectron source : 2.2621E+09 [eV/cm2/s]
                                                             or : 3.6244E-03 [erg/cm2/s]
 That variable "errorgaupin" is:           48

 MAIN : Total energy deposition in [CO2] is 6.281E+08 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 1.134E+08 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 7.373E+07 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 3.370E+08 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 2.637E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 2.919E-01 [eV.cm-2.s-1] ("shsum").
   22572904.               2          21
   23807474.               2          23

 Total Heating :  3.447E+03 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  5.5230899E-05
 entot depart   3446.7659       3446.7659    
 shsum :   67214192.      6.28064384E+08  6.28060928E+08  6.28060928E+08
 shsum :   69305800.      7.41514048E+08  1.13449680E+08  7.41510592E+08
 shsum :   70543160.      8.15239808E+08   73725768.      8.15236352E+08
 shsum :   82014248.      1.15219123E+09  3.36951424E+08  1.15218778E+09
 shsum :   82014248.      1.15219123E+09   2.6365776      1.15218778E+09
 shsum :   82014248.      1.15219123E+09  0.29194656      1.15218778E+09
 fin  1.15219123E+09   82014248.       27.581985    
   14.048672    
 -8.06972332E+15   27.581985    
 ezero   0.0000000    
  1.15219123E+09
  2.92572227E+16

Total energy input of :2.262E+09 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 1.152E+09 is absorbed (entot) 
                         through inelastic collisions (shsum =1.152E+09)
                                           + heating (elhsum =3.447E+03)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  27.58 eV (from qtoteV)
                                  or :  14.05 eV (from (entot))
                                  or :******* eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  45.0, longitude 120.0.

 REED : The energy degradation is computed from the center energies of the grid.
 REED : The energy degradation source term is interpolated linearly with tau.
 REED : The albedo at  80. km is set to 1.00
 REED : The low energy phase function is taken from Porter
 REED : Secondary distribution from Rees et al., PSS 17, 1997, 1969           
 REED : Wiscombe's delta-M method IS applied

 MAIN : The screening parameter for the Rutherford phase function is calculated
        from the Bethe/Moliere formula for E > 500 eV

 MAIN : The energy grid covers the range from : 0.001 [eV] up to :   287.9 [eV].

 MAIN : The total energy input from the precipitation source is : 1.3018E-28 [eV/cm2/s]
                                                             or : 2.0858E-40 [erg/cm2/s]
                                  and from photoelectron source : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]

 MAIN : Total energy deposition in [CO2] is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 Total Heating :  6.692E-37 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  0.0000000E+00
 entot depart  6.69157325E-37  6.69157325E-37
 shsum :   0.0000000      6.69157325E-37   0.0000000       0.0000000    
 shsum :   0.0000000      6.69157325E-37   0.0000000       0.0000000    
 shsum :   0.0000000      6.69157325E-37   0.0000000       0.0000000    
 shsum :   0.0000000      6.69157325E-37   0.0000000       0.0000000    
 shsum :   0.0000000      6.69157325E-37   0.0000000       0.0000000    
 shsum :   0.0000000      6.69157325E-37   0.0000000       0.0000000    
 fin  6.69157325E-37   0.0000000           +Infinity
       +Infinity
       -Infinity       +Infinity
 ezero   0.0000000    
  6.69157325E-37
       +Infinity

Total energy input of :1.302E-28 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 6.692E-37 is absorbed (entot) 
                         through inelastic collisions (shsum =0.000E+00)
                                           + heating (elhsum =6.692E-37)
 This refers to an energy gain of   +Inf %


 The average E. loss per ion pair is :   +Inf eV (from qtoteV)
                                  or :   +Inf eV (from (entot))
                                  or :   -Inf eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  50.0, longitude 120.0.

 REED : The energy degradation is computed from the center energies of the grid.
 REED : The energy degradation source term is interpolated linearly with tau.
 REED : The albedo at  80. km is set to 1.00
 REED : The low energy phase function is taken from Porter
 REED : Secondary distribution from Rees et al., PSS 17, 1997, 1969           
 REED : Wiscombe's delta-M method IS applied

 MAIN : The screening parameter for the Rutherford phase function is calculated
        from the Bethe/Moliere formula for E > 500 eV

 MAIN : The energy grid covers the range from : 0.001 [eV] up to :   287.9 [eV].

 MAIN : The total energy input from the precipitation source is : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]
                                  and from photoelectron source : 5.8470E+06 [eV/cm2/s]
                                                             or : 9.3680E-06 [erg/cm2/s]
 That variable "errorgaupin" is:           85

 MAIN : Total energy deposition in [CO2] is 1.544E+06 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 2.127E+05 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 1.181E+05 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 5.310E+05 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 5.383E-03 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 9.626E-04 [eV.cm-2.s-1] ("shsum").
   28288.199               2          21
   30513.563               2          23

 Total Heating :  5.086E+00 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  1.3315092E-07
 entot depart   5.0863361       5.0863361    
 shsum :   69281.859       1543609.4       1543604.3       1543604.3    
 shsum :   74324.313       1756312.3       212702.86       1756307.1    
 shsum :   77006.016       1874416.5       118104.31       1874411.5    
 shsum :   97790.094       2405433.3       531016.69       2405428.3    
 shsum :   97790.094       2405433.3      5.38282469E-03   2405428.3    
 shsum :   97790.094       2405433.3      9.62636666E-04   2405428.3    
 fin   2405433.3       97790.094       59.790867    
   24.597923    
 -6.76788659E+18   59.790867    
 ezero   0.0000000    
   2405433.3    
  1.13192655E+19

Total energy input of :5.847E+06 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 2.405E+06 is absorbed (entot) 
                         through inelastic collisions (shsum =2.405E+06)
                                           + heating (elhsum =5.086E+00)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  59.79 eV (from qtoteV)
                                  or :  24.60 eV (from (entot))
                                  or :******* eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  55.0, longitude 120.0.

 REED : The energy degradation is computed from the center energies of the grid.
 REED : The energy degradation source term is interpolated linearly with tau.
 REED : The albedo at  80. km is set to 1.00
 REED : The low energy phase function is taken from Porter
 REED : Secondary distribution from Rees et al., PSS 17, 1997, 1969           
 REED : Wiscombe's delta-M method IS applied

 MAIN : The screening parameter for the Rutherford phase function is calculated
        from the Bethe/Moliere formula for E > 500 eV

 MAIN : The energy grid covers the range from : 0.001 [eV] up to :   287.9 [eV].

 MAIN : The total energy input from the precipitation source is : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]
                                  and from photoelectron source : 8.8304E+07 [eV/cm2/s]
                                                             or : 1.4148E-04 [erg/cm2/s]
 That variable "errorgaupin" is:           96

 MAIN : Total energy deposition in [CO2] is 2.395E+07 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 3.508E+06 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 1.987E+06 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 9.218E+06 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 9.208E-02 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 1.548E-02 [eV.cm-2.s-1] ("shsum").
   485315.34               2          21
   521174.72               2          23

 Total Heating :  8.451E+01 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  2.1490714E-06
 entot depart   84.508392       84.508392    
 shsum :   1238966.8       23950564.       23950480.       23950480.    
 shsum :   1320352.5       27458652.       3508088.3       27458568.    
 shsum :   1364564.9       29445406.       1986754.9       29445322.    
 shsum :   1721348.0       38663796.       9218389.0       38663712.    
 shsum :   1721348.0       38663796.      9.20819193E-02   38663712.    
 shsum :   1721348.0       38663796.      1.54810213E-02   38663712.    
 fin   38663796.       1721348.0       51.299210    
   22.461348    
 -3.84484888E+17   51.299210    
 ezero   0.0000000    
   38663796.    
  7.49494745E+17

Total energy input of :8.830E+07 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 3.866E+07 is absorbed (entot) 
                         through inelastic collisions (shsum =3.866E+07)
                                           + heating (elhsum =8.451E+01)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  51.30 eV (from qtoteV)
                                  or :  22.46 eV (from (entot))
                                  or :******* eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  60.0, longitude 120.0.

 REED : The energy degradation is computed from the center energies of the grid.
 REED : The energy degradation source term is interpolated linearly with tau.
 REED : The albedo at  80. km is set to 1.00
 REED : The low energy phase function is taken from Porter
 REED : Secondary distribution from Rees et al., PSS 17, 1997, 1969           
 REED : Wiscombe's delta-M method IS applied

 MAIN : The screening parameter for the Rutherford phase function is calculated
        from the Bethe/Moliere formula for E > 500 eV

 MAIN : The energy grid covers the range from : 0.001 [eV] up to :   287.9 [eV].

 MAIN : The total energy input from the precipitation source is : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]
                                  and from photoelectron source : 5.5867E+08 [eV/cm2/s]
                                                             or : 8.9510E-04 [erg/cm2/s]
 That variable "errorgaupin" is:           75

 MAIN : Total energy deposition in [CO2] is 1.489E+08 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 2.463E+07 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 1.490E+07 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 7.078E+07 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 6.404E-01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 8.858E-02 [eV.cm-2.s-1] ("shsum").
   3955764.8               2          21
   4209974.0               2          23

 Total Heating :  6.485E+02 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  1.3685714E-05
 entot depart   648.54681       648.54681    
 shsum :   11783918.      1.48926224E+08  1.48925568E+08  1.48925568E+08
 shsum :   12302199.      1.73555680E+08   24629456.      1.73555024E+08
 shsum :   12597028.      1.88456784E+08   14901102.      1.88456128E+08
 shsum :   15187682.      2.59233312E+08   70776536.      2.59232672E+08
 shsum :   15187682.      2.59233312E+08  0.64043063      2.59232672E+08
 shsum :   15187682.      2.59233312E+08  8.85803476E-02  2.59232672E+08
 fin  2.59233312E+08   15187682.       36.784451    
   17.068655    
 -4.35769100E+16   36.784451    
 ezero   0.0000000    
  2.59233312E+08
  1.18465583E+17

Total energy input of :5.587E+08 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 2.592E+08 is absorbed (entot) 
                         through inelastic collisions (shsum =2.592E+08)
                                           + heating (elhsum =6.485E+02)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  36.78 eV (from qtoteV)
                                  or :  17.07 eV (from (entot))
                                  or :******* eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  45.0, longitude 125.0.

 REED : The energy degradation is computed from the center energies of the grid.
 REED : The energy degradation source term is interpolated linearly with tau.
 REED : The albedo at  80. km is set to 1.00
 REED : The low energy phase function is taken from Porter
 REED : Secondary distribution from Rees et al., PSS 17, 1997, 1969           
 REED : Wiscombe's delta-M method IS applied

 MAIN : The screening parameter for the Rutherford phase function is calculated
        from the Bethe/Moliere formula for E > 500 eV

 MAIN : The energy grid covers the range from : 0.001 [eV] up to :   287.9 [eV].

 MAIN : The total energy input from the precipitation source is : 1.3018E-28 [eV/cm2/s]
                                                             or : 2.0858E-40 [erg/cm2/s]
                                  and from photoelectron source : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]

 MAIN : Total energy deposition in [CO2] is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 Total Heating :  6.692E-37 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  0.0000000E+00
 entot depart  6.69157325E-37  6.69157325E-37
 shsum :   0.0000000      6.69157325E-37   0.0000000       0.0000000    
 shsum :   0.0000000      6.69157325E-37   0.0000000       0.0000000    
 shsum :   0.0000000      6.69157325E-37   0.0000000       0.0000000    
 shsum :   0.0000000      6.69157325E-37   0.0000000       0.0000000    
 shsum :   0.0000000      6.69157325E-37   0.0000000       0.0000000    
 shsum :   0.0000000      6.69157325E-37   0.0000000       0.0000000    
 fin  6.69157325E-37   0.0000000           +Infinity
       +Infinity
       -Infinity       +Infinity
 ezero   0.0000000    
  6.69157325E-37
       +Infinity

Total energy input of :1.302E-28 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 6.692E-37 is absorbed (entot) 
                         through inelastic collisions (shsum =0.000E+00)
                                           + heating (elhsum =6.692E-37)
 This refers to an energy gain of   +Inf %


 The average E. loss per ion pair is :   +Inf eV (from qtoteV)
                                  or :   +Inf eV (from (entot))
                                  or :   -Inf eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  50.0, longitude 125.0.

 REED : The energy degradation is computed from the center energies of the grid.
 REED : The energy degradation source term is interpolated linearly with tau.
 REED : The albedo at  80. km is set to 1.00
 REED : The low energy phase function is taken from Porter
 REED : Secondary distribution from Rees et al., PSS 17, 1997, 1969           
 REED : Wiscombe's delta-M method IS applied

 MAIN : The screening parameter for the Rutherford phase function is calculated
        from the Bethe/Moliere formula for E > 500 eV

 MAIN : The energy grid covers the range from : 0.001 [eV] up to :   287.9 [eV].

 MAIN : The total energy input from the precipitation source is : 1.3018E-28 [eV/cm2/s]
                                                             or : 2.0858E-40 [erg/cm2/s]
                                  and from photoelectron source : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]

 MAIN : Total energy deposition in [CO2] is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 Total Heating :  6.739E-37 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  0.0000000E+00
 entot depart  6.73874835E-37  6.73874835E-37
 shsum :   0.0000000      6.73874835E-37   0.0000000       0.0000000    
 shsum :   0.0000000      6.73874835E-37   0.0000000       0.0000000    
 shsum :   0.0000000      6.73874835E-37   0.0000000       0.0000000    
 shsum :   0.0000000      6.73874835E-37   0.0000000       0.0000000    
 shsum :   0.0000000      6.73874835E-37   0.0000000       0.0000000    
 shsum :   0.0000000      6.73874835E-37   0.0000000       0.0000000    
 fin  6.73874835E-37   0.0000000           +Infinity
       +Infinity
       -Infinity       +Infinity
 ezero   0.0000000    
  6.73874835E-37
       +Infinity

Total energy input of :1.302E-28 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 6.739E-37 is absorbed (entot) 
                         through inelastic collisions (shsum =0.000E+00)
                                           + heating (elhsum =6.739E-37)
 This refers to an energy gain of   +Inf %


 The average E. loss per ion pair is :   +Inf eV (from qtoteV)
                                  or :   +Inf eV (from (entot))
                                  or :   -Inf eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  55.0, longitude 125.0.

 REED : The energy degradation is computed from the center energies of the grid.
 REED : The energy degradation source term is interpolated linearly with tau.
 REED : The albedo at  80. km is set to 1.00
 REED : The low energy phase function is taken from Porter
 REED : Secondary distribution from Rees et al., PSS 17, 1997, 1969           
 REED : Wiscombe's delta-M method IS applied

 MAIN : The screening parameter for the Rutherford phase function is calculated
        from the Bethe/Moliere formula for E > 500 eV

 MAIN : The energy grid covers the range from : 0.001 [eV] up to :   287.9 [eV].

 MAIN : The total energy input from the precipitation source is : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]
                                  and from photoelectron source : 2.4155E+06 [eV/cm2/s]
                                                             or : 3.8702E-06 [erg/cm2/s]
 That variable "errorgaupin" is:          105

 MAIN : Total energy deposition in [CO2] is 6.340E+05 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 8.644E+04 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 4.791E+04 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 2.142E+05 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 2.168E-03 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 3.898E-04 [eV.cm-2.s-1] ("shsum").
   11362.943               2          21
   12263.425               2          23

 Total Heating :  2.080E+00 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  5.4114281E-08
 entot depart   2.0802937       2.0802937    
 shsum :   28085.350       634001.19       633999.13       633999.13    
 shsum :   30134.668       720436.75       86435.547       720434.69    
 shsum :   31220.506       768343.00       47906.223       768340.94    
 shsum :   39601.297       982500.13       214157.11       982498.06    
 shsum :   39601.297       982500.13      2.16833130E-03   982498.06    
 shsum :   39601.297       982500.13      3.89810040E-04   982498.06    
 fin   982500.13       39601.297       60.996147    
   24.809797    
 -1.67123887E+19   60.996147    
 ezero   0.0000000    
   982500.13    
  2.73990909E+19

Total energy input of :2.416E+06 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 9.825E+05 is absorbed (entot) 
                         through inelastic collisions (shsum =9.825E+05)
                                           + heating (elhsum =2.080E+00)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  61.00 eV (from qtoteV)
                                  or :  24.81 eV (from (entot))
                                  or :******* eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  60.0, longitude 125.0.

 REED : The energy degradation is computed from the center energies of the grid.
 REED : The energy degradation source term is interpolated linearly with tau.
 REED : The albedo at  80. km is set to 1.00
 REED : The low energy phase function is taken from Porter
 REED : Secondary distribution from Rees et al., PSS 17, 1997, 1969           
 REED : Wiscombe's delta-M method IS applied

 MAIN : The screening parameter for the Rutherford phase function is calculated
        from the Bethe/Moliere formula for E > 500 eV

 MAIN : The energy grid covers the range from : 0.001 [eV] up to :   287.9 [eV].

 MAIN : The total energy input from the precipitation source is : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]
                                  and from photoelectron source : 8.9216E+07 [eV/cm2/s]
                                                             or : 1.4294E-04 [erg/cm2/s]
 That variable "errorgaupin" is:           83

 MAIN : Total energy deposition in [CO2] is 2.410E+07 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 3.543E+06 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 2.008E+06 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 9.346E+06 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 9.378E-02 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 1.575E-02 [eV.cm-2.s-1] ("shsum").
   487460.44               2          21
   523420.97               2          23

 Total Heating :  8.574E+01 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  2.1691496E-06
 entot depart   85.739578       85.739578    
 shsum :   1255705.3       24103416.       24103330.       24103330.    
 shsum :   1337851.4       27646770.       3543353.3       27646684.    
 shsum :   1382506.5       29654928.       2008157.3       29654842.    
 shsum :   1744191.6       39001248.       9346318.0       39001160.    
 shsum :   1744191.6       39001248.      9.37819481E-02   39001160.    
 shsum :   1744191.6       39001248.      1.57475024E-02   39001160.    
 fin   39001248.       1744191.6       51.150349    
   22.360643    
 -3.79449297E+17   51.150349    
 ezero   0.0000000    
   39001248.    
  7.41831287E+17

Total energy input of :8.922E+07 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 3.900E+07 is absorbed (entot) 
                         through inelastic collisions (shsum =3.900E+07)
                                           + heating (elhsum =8.574E+01)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  51.15 eV (from qtoteV)
                                  or :  22.36 eV (from (entot))
                                  or :******* eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  45.0, longitude 130.0.

 REED : The energy degradation is computed from the center energies of the grid.
 REED : The energy degradation source term is interpolated linearly with tau.
 REED : The albedo at  80. km is set to 1.00
 REED : The low energy phase function is taken from Porter
 REED : Secondary distribution from Rees et al., PSS 17, 1997, 1969           
 REED : Wiscombe's delta-M method IS applied

 MAIN : The screening parameter for the Rutherford phase function is calculated
        from the Bethe/Moliere formula for E > 500 eV

 MAIN : The energy grid covers the range from : 0.001 [eV] up to :   287.9 [eV].

 MAIN : The total energy input from the precipitation source is : 1.3018E-28 [eV/cm2/s]
                                                             or : 2.0858E-40 [erg/cm2/s]
                                  and from photoelectron source : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]

 MAIN : Total energy deposition in [CO2] is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 Total Heating :  6.699E-37 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  0.0000000E+00
 entot depart  6.69937658E-37  6.69937658E-37
 shsum :   0.0000000      6.69937658E-37   0.0000000       0.0000000    
 shsum :   0.0000000      6.69937658E-37   0.0000000       0.0000000    
 shsum :   0.0000000      6.69937658E-37   0.0000000       0.0000000    
 shsum :   0.0000000      6.69937658E-37   0.0000000       0.0000000    
 shsum :   0.0000000      6.69937658E-37   0.0000000       0.0000000    
 shsum :   0.0000000      6.69937658E-37   0.0000000       0.0000000    
 fin  6.69937658E-37   0.0000000           +Infinity
       +Infinity
       -Infinity       +Infinity
 ezero   0.0000000    
  6.69937658E-37
       +Infinity

Total energy input of :1.302E-28 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 6.699E-37 is absorbed (entot) 
                         through inelastic collisions (shsum =0.000E+00)
                                           + heating (elhsum =6.699E-37)
 This refers to an energy gain of   +Inf %


 The average E. loss per ion pair is :   +Inf eV (from qtoteV)
                                  or :   +Inf eV (from (entot))
                                  or :   -Inf eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  50.0, longitude 130.0.

 REED : The energy degradation is computed from the center energies of the grid.
 REED : The energy degradation source term is interpolated linearly with tau.
 REED : The albedo at  80. km is set to 1.00
 REED : The low energy phase function is taken from Porter
 REED : Secondary distribution from Rees et al., PSS 17, 1997, 1969           
 REED : Wiscombe's delta-M method IS applied

 MAIN : The screening parameter for the Rutherford phase function is calculated
        from the Bethe/Moliere formula for E > 500 eV

 MAIN : The energy grid covers the range from : 0.001 [eV] up to :   287.9 [eV].

 MAIN : The total energy input from the precipitation source is : 1.3018E-28 [eV/cm2/s]
                                                             or : 2.0858E-40 [erg/cm2/s]
                                  and from photoelectron source : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]

 MAIN : Total energy deposition in [CO2] is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 Total Heating :  6.739E-37 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  0.0000000E+00
 entot depart  6.73874835E-37  6.73874835E-37
 shsum :   0.0000000      6.73874835E-37   0.0000000       0.0000000    
 shsum :   0.0000000      6.73874835E-37   0.0000000       0.0000000    
 shsum :   0.0000000      6.73874835E-37   0.0000000       0.0000000    
 shsum :   0.0000000      6.73874835E-37   0.0000000       0.0000000    
 shsum :   0.0000000      6.73874835E-37   0.0000000       0.0000000    
 shsum :   0.0000000      6.73874835E-37   0.0000000       0.0000000    
 fin  6.73874835E-37   0.0000000           +Infinity
       +Infinity
       -Infinity       +Infinity
 ezero   0.0000000    
  6.73874835E-37
       +Infinity

Total energy input of :1.302E-28 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 6.739E-37 is absorbed (entot) 
                         through inelastic collisions (shsum =0.000E+00)
                                           + heating (elhsum =6.739E-37)
 This refers to an energy gain of   +Inf %


 The average E. loss per ion pair is :   +Inf eV (from qtoteV)
                                  or :   +Inf eV (from (entot))
                                  or :   -Inf eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  55.0, longitude 130.0.

 REED : The energy degradation is computed from the center energies of the grid.
 REED : The energy degradation source term is interpolated linearly with tau.
 REED : The albedo at  80. km is set to 1.00
 REED : The low energy phase function is taken from Porter
 REED : Secondary distribution from Rees et al., PSS 17, 1997, 1969           
 REED : Wiscombe's delta-M method IS applied

 MAIN : The screening parameter for the Rutherford phase function is calculated
        from the Bethe/Moliere formula for E > 500 eV

 MAIN : The energy grid covers the range from : 0.001 [eV] up to :   287.9 [eV].

 MAIN : The total energy input from the precipitation source is : 1.3018E-28 [eV/cm2/s]
                                                             or : 2.0858E-40 [erg/cm2/s]
                                  and from photoelectron source : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]

 MAIN : Total energy deposition in [CO2] is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 Total Heating :  6.784E-37 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  0.0000000E+00
 entot depart  6.78355941E-37  6.78355941E-37
 shsum :   0.0000000      6.78355941E-37   0.0000000       0.0000000    
 shsum :   0.0000000      6.78355941E-37   0.0000000       0.0000000    
 shsum :   0.0000000      6.78355941E-37   0.0000000       0.0000000    
 shsum :   0.0000000      6.78355941E-37   0.0000000       0.0000000    
 shsum :   0.0000000      6.78355941E-37   0.0000000       0.0000000    
 shsum :   0.0000000      6.78355941E-37   0.0000000       0.0000000    
 fin  6.78355941E-37   0.0000000           +Infinity
       +Infinity
       -Infinity       +Infinity
 ezero   0.0000000    
  6.78355941E-37
       +Infinity

Total energy input of :1.302E-28 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 6.784E-37 is absorbed (entot) 
                         through inelastic collisions (shsum =0.000E+00)
                                           + heating (elhsum =6.784E-37)
 This refers to an energy gain of   +Inf %


 The average E. loss per ion pair is :   +Inf eV (from qtoteV)
                                  or :   +Inf eV (from (entot))
                                  or :   -Inf eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  60.0, longitude 130.0.

 REED : The energy degradation is computed from the center energies of the grid.
 REED : The energy degradation source term is interpolated linearly with tau.
 REED : The albedo at  80. km is set to 1.00
 REED : The low energy phase function is taken from Porter
 REED : Secondary distribution from Rees et al., PSS 17, 1997, 1969           
 REED : Wiscombe's delta-M method IS applied

 MAIN : The screening parameter for the Rutherford phase function is calculated
        from the Bethe/Moliere formula for E > 500 eV

 MAIN : The energy grid covers the range from : 0.001 [eV] up to :   287.9 [eV].

 MAIN : The total energy input from the precipitation source is : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]
                                  and from photoelectron source : 6.1252E+06 [eV/cm2/s]
                                                             or : 9.8139E-06 [erg/cm2/s]
 That variable "errorgaupin" is:          101

 MAIN : Total energy deposition in [CO2] is 1.611E+06 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 2.230E+05 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 1.239E+05 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 5.594E+05 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 5.724E-03 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 1.024E-03 [eV.cm-2.s-1] ("shsum").
   29263.170               2          21
   31561.371               2          23

 Total Heating :  5.372E+00 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  1.3957776E-07
 entot depart   5.3724089       5.3724089    
 shsum :   72583.375       1610898.0       1610892.6       1610892.6    
 shsum :   77869.211       1833865.8       222967.81       1833860.5    
 shsum :   80681.938       1957724.0       123858.28       1957718.8    
 shsum :   102586.94       2517114.0       559390.13       2517109.0    
 shsum :   102586.94       2517114.0      5.72429923E-03   2517109.0    
 shsum :   102586.94       2517114.0      1.02448021E-03   2517109.0    
 fin   2517114.0       102586.94       59.707752    
   24.536398    
 -6.45142846E+18   59.707752    
 ezero   0.0000000    
   2517114.0    
  1.08050096E+19

Total energy input of :6.125E+06 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 2.517E+06 is absorbed (entot) 
                         through inelastic collisions (shsum =2.517E+06)
                                           + heating (elhsum =5.372E+00)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  59.71 eV (from qtoteV)
                                  or :  24.54 eV (from (entot))
                                  or :******* eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  45.0, longitude 135.0.

 REED : The energy degradation is computed from the center energies of the grid.
 REED : The energy degradation source term is interpolated linearly with tau.
 REED : The albedo at  80. km is set to 1.00
 REED : The low energy phase function is taken from Porter
 REED : Secondary distribution from Rees et al., PSS 17, 1997, 1969           
 REED : Wiscombe's delta-M method IS applied

 MAIN : The screening parameter for the Rutherford phase function is calculated
        from the Bethe/Moliere formula for E > 500 eV

 MAIN : The energy grid covers the range from : 0.001 [eV] up to :   287.9 [eV].

 MAIN : The total energy input from the precipitation source is : 1.3018E-28 [eV/cm2/s]
                                                             or : 2.0858E-40 [erg/cm2/s]
                                  and from photoelectron source : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]

 MAIN : Total energy deposition in [CO2] is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 Total Heating :  6.699E-37 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  0.0000000E+00
 entot depart  6.69937658E-37  6.69937658E-37
 shsum :   0.0000000      6.69937658E-37   0.0000000       0.0000000    
 shsum :   0.0000000      6.69937658E-37   0.0000000       0.0000000    
 shsum :   0.0000000      6.69937658E-37   0.0000000       0.0000000    
 shsum :   0.0000000      6.69937658E-37   0.0000000       0.0000000    
 shsum :   0.0000000      6.69937658E-37   0.0000000       0.0000000    
 shsum :   0.0000000      6.69937658E-37   0.0000000       0.0000000    
 fin  6.69937658E-37   0.0000000           +Infinity
       +Infinity
       -Infinity       +Infinity
 ezero   0.0000000    
  6.69937658E-37
       +Infinity

Total energy input of :1.302E-28 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 6.699E-37 is absorbed (entot) 
                         through inelastic collisions (shsum =0.000E+00)
                                           + heating (elhsum =6.699E-37)
 This refers to an energy gain of   +Inf %


 The average E. loss per ion pair is :   +Inf eV (from qtoteV)
                                  or :   +Inf eV (from (entot))
                                  or :   -Inf eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  50.0, longitude 135.0.

 REED : The energy degradation is computed from the center energies of the grid.
 REED : The energy degradation source term is interpolated linearly with tau.
 REED : The albedo at  80. km is set to 1.00
 REED : The low energy phase function is taken from Porter
 REED : Secondary distribution from Rees et al., PSS 17, 1997, 1969           
 REED : Wiscombe's delta-M method IS applied

 MAIN : The screening parameter for the Rutherford phase function is calculated
        from the Bethe/Moliere formula for E > 500 eV

 MAIN : The energy grid covers the range from : 0.001 [eV] up to :   287.9 [eV].

 MAIN : The total energy input from the precipitation source is : 1.3018E-28 [eV/cm2/s]
                                                             or : 2.0858E-40 [erg/cm2/s]
                                  and from photoelectron source : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]

 MAIN : Total energy deposition in [CO2] is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 Total Heating :  6.746E-37 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  0.0000000E+00
 entot depart  6.74631537E-37  6.74631537E-37
 shsum :   0.0000000      6.74631537E-37   0.0000000       0.0000000    
 shsum :   0.0000000      6.74631537E-37   0.0000000       0.0000000    
 shsum :   0.0000000      6.74631537E-37   0.0000000       0.0000000    
 shsum :   0.0000000      6.74631537E-37   0.0000000       0.0000000    
 shsum :   0.0000000      6.74631537E-37   0.0000000       0.0000000    
 shsum :   0.0000000      6.74631537E-37   0.0000000       0.0000000    
 fin  6.74631537E-37   0.0000000           +Infinity
       +Infinity
       -Infinity       +Infinity
 ezero   0.0000000    
  6.74631537E-37
       +Infinity

Total energy input of :1.302E-28 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 6.746E-37 is absorbed (entot) 
                         through inelastic collisions (shsum =0.000E+00)
                                           + heating (elhsum =6.746E-37)
 This refers to an energy gain of   +Inf %


 The average E. loss per ion pair is :   +Inf eV (from qtoteV)
                                  or :   +Inf eV (from (entot))
                                  or :   -Inf eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  55.0, longitude 135.0.

 REED : The energy degradation is computed from the center energies of the grid.
 REED : The energy degradation source term is interpolated linearly with tau.
 REED : The albedo at  80. km is set to 1.00
 REED : The low energy phase function is taken from Porter
 REED : Secondary distribution from Rees et al., PSS 17, 1997, 1969           
 REED : Wiscombe's delta-M method IS applied

 MAIN : The screening parameter for the Rutherford phase function is calculated
        from the Bethe/Moliere formula for E > 500 eV

 MAIN : The energy grid covers the range from : 0.001 [eV] up to :   287.9 [eV].

 MAIN : The total energy input from the precipitation source is : 1.3018E-28 [eV/cm2/s]
                                                             or : 2.0858E-40 [erg/cm2/s]
                                  and from photoelectron source : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]

 MAIN : Total energy deposition in [CO2] is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 Total Heating :  6.793E-37 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  0.0000000E+00
 entot depart  6.79254566E-37  6.79254566E-37
 shsum :   0.0000000      6.79254566E-37   0.0000000       0.0000000    
 shsum :   0.0000000      6.79254566E-37   0.0000000       0.0000000    
 shsum :   0.0000000      6.79254566E-37   0.0000000       0.0000000    
 shsum :   0.0000000      6.79254566E-37   0.0000000       0.0000000    
 shsum :   0.0000000      6.79254566E-37   0.0000000       0.0000000    
 shsum :   0.0000000      6.79254566E-37   0.0000000       0.0000000    
 fin  6.79254566E-37   0.0000000           +Infinity
       +Infinity
       -Infinity       +Infinity
 ezero   0.0000000    
  6.79254566E-37
       +Infinity

Total energy input of :1.302E-28 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 6.793E-37 is absorbed (entot) 
                         through inelastic collisions (shsum =0.000E+00)
                                           + heating (elhsum =6.793E-37)
 This refers to an energy gain of   +Inf %


 The average E. loss per ion pair is :   +Inf eV (from qtoteV)
                                  or :   +Inf eV (from (entot))
                                  or :   -Inf eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  60.0, longitude 135.0.

 REED : The energy degradation is computed from the center energies of the grid.
 REED : The energy degradation source term is interpolated linearly with tau.
 REED : The albedo at  80. km is set to 1.00
 REED : The low energy phase function is taken from Porter
 REED : Secondary distribution from Rees et al., PSS 17, 1997, 1969           
 REED : Wiscombe's delta-M method IS applied

 MAIN : The screening parameter for the Rutherford phase function is calculated
        from the Bethe/Moliere formula for E > 500 eV

 MAIN : The energy grid covers the range from : 0.001 [eV] up to :   287.9 [eV].

 MAIN : The total energy input from the precipitation source is : 1.3018E-28 [eV/cm2/s]
                                                             or : 2.0858E-40 [erg/cm2/s]
                                  and from photoelectron source : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]

 MAIN : Total energy deposition in [CO2] is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 Total Heating :  6.911E-37 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  0.0000000E+00
 entot depart  6.91125425E-37  6.91125425E-37
 shsum :   0.0000000      6.91125425E-37   0.0000000       0.0000000    
 shsum :   0.0000000      6.91125425E-37   0.0000000       0.0000000    
 shsum :   0.0000000      6.91125425E-37   0.0000000       0.0000000    
 shsum :   0.0000000      6.91125425E-37   0.0000000       0.0000000    
 shsum :   0.0000000      6.91125425E-37   0.0000000       0.0000000    
 shsum :   0.0000000      6.91125425E-37   0.0000000       0.0000000    
 fin  6.91125425E-37   0.0000000           +Infinity
       +Infinity
       -Infinity       +Infinity
 ezero   0.0000000    
  6.91125425E-37
       +Infinity

Total energy input of :1.302E-28 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 6.911E-37 is absorbed (entot) 
                         through inelastic collisions (shsum =0.000E+00)
                                           + heating (elhsum =6.911E-37)
 This refers to an energy gain of   +Inf %


 The average E. loss per ion pair is :   +Inf eV (from qtoteV)
                                  or :   +Inf eV (from (entot))
                                  or :   -Inf eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  45.0, longitude 140.0.

 REED : The energy degradation is computed from the center energies of the grid.
 REED : The energy degradation source term is interpolated linearly with tau.
 REED : The albedo at  80. km is set to 1.00
 REED : The low energy phase function is taken from Porter
 REED : Secondary distribution from Rees et al., PSS 17, 1997, 1969           
 REED : Wiscombe's delta-M method IS applied

 MAIN : The screening parameter for the Rutherford phase function is calculated
        from the Bethe/Moliere formula for E > 500 eV

 MAIN : The energy grid covers the range from : 0.001 [eV] up to :   287.9 [eV].

 MAIN : The total energy input from the precipitation source is : 1.3018E-28 [eV/cm2/s]
                                                             or : 2.0858E-40 [erg/cm2/s]
                                  and from photoelectron source : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]

 MAIN : Total energy deposition in [CO2] is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 Total Heating :  6.716E-37 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  0.0000000E+00
 entot depart  6.71557469E-37  6.71557469E-37
 shsum :   0.0000000      6.71557469E-37   0.0000000       0.0000000    
 shsum :   0.0000000      6.71557469E-37   0.0000000       0.0000000    
 shsum :   0.0000000      6.71557469E-37   0.0000000       0.0000000    
 shsum :   0.0000000      6.71557469E-37   0.0000000       0.0000000    
 shsum :   0.0000000      6.71557469E-37   0.0000000       0.0000000    
 shsum :   0.0000000      6.71557469E-37   0.0000000       0.0000000    
 fin  6.71557469E-37   0.0000000           +Infinity
       +Infinity
       -Infinity       +Infinity
 ezero   0.0000000    
  6.71557469E-37
       +Infinity

Total energy input of :1.302E-28 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 6.716E-37 is absorbed (entot) 
                         through inelastic collisions (shsum =0.000E+00)
                                           + heating (elhsum =6.716E-37)
 This refers to an energy gain of   +Inf %


 The average E. loss per ion pair is :   +Inf eV (from qtoteV)
                                  or :   +Inf eV (from (entot))
                                  or :   -Inf eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  50.0, longitude 140.0.

 REED : The energy degradation is computed from the center energies of the grid.
 REED : The energy degradation source term is interpolated linearly with tau.
 REED : The albedo at  80. km is set to 1.00
 REED : The low energy phase function is taken from Porter
 REED : Secondary distribution from Rees et al., PSS 17, 1997, 1969           
 REED : Wiscombe's delta-M method IS applied

 MAIN : The screening parameter for the Rutherford phase function is calculated
        from the Bethe/Moliere formula for E > 500 eV

 MAIN : The energy grid covers the range from : 0.001 [eV] up to :   287.9 [eV].

 MAIN : The total energy input from the precipitation source is : 1.3018E-28 [eV/cm2/s]
                                                             or : 2.0858E-40 [erg/cm2/s]
                                  and from photoelectron source : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]

 MAIN : Total energy deposition in [CO2] is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 Total Heating :  6.761E-37 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  0.0000000E+00
 entot depart  6.76097586E-37  6.76097586E-37
 shsum :   0.0000000      6.76097586E-37   0.0000000       0.0000000    
 shsum :   0.0000000      6.76097586E-37   0.0000000       0.0000000    
 shsum :   0.0000000      6.76097586E-37   0.0000000       0.0000000    
 shsum :   0.0000000      6.76097586E-37   0.0000000       0.0000000    
 shsum :   0.0000000      6.76097586E-37   0.0000000       0.0000000    
 shsum :   0.0000000      6.76097586E-37   0.0000000       0.0000000    
 fin  6.76097586E-37   0.0000000           +Infinity
       +Infinity
       -Infinity       +Infinity
 ezero   0.0000000    
  6.76097586E-37
       +Infinity

Total energy input of :1.302E-28 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 6.761E-37 is absorbed (entot) 
                         through inelastic collisions (shsum =0.000E+00)
                                           + heating (elhsum =6.761E-37)
 This refers to an energy gain of   +Inf %


 The average E. loss per ion pair is :   +Inf eV (from qtoteV)
                                  or :   +Inf eV (from (entot))
                                  or :   -Inf eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  55.0, longitude 140.0.

 REED : The energy degradation is computed from the center energies of the grid.
 REED : The energy degradation source term is interpolated linearly with tau.
 REED : The albedo at  80. km is set to 1.00
 REED : The low energy phase function is taken from Porter
 REED : Secondary distribution from Rees et al., PSS 17, 1997, 1969           
 REED : Wiscombe's delta-M method IS applied

 MAIN : The screening parameter for the Rutherford phase function is calculated
        from the Bethe/Moliere formula for E > 500 eV

 MAIN : The energy grid covers the range from : 0.001 [eV] up to :   287.9 [eV].

 MAIN : The total energy input from the precipitation source is : 1.3018E-28 [eV/cm2/s]
                                                             or : 2.0858E-40 [erg/cm2/s]
                                  and from photoelectron source : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]

 MAIN : Total energy deposition in [CO2] is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 Total Heating :  6.818E-37 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  0.0000000E+00
 entot depart  6.81761209E-37  6.81761209E-37
 shsum :   0.0000000      6.81761209E-37   0.0000000       0.0000000    
 shsum :   0.0000000      6.81761209E-37   0.0000000       0.0000000    
 shsum :   0.0000000      6.81761209E-37   0.0000000       0.0000000    
 shsum :   0.0000000      6.81761209E-37   0.0000000       0.0000000    
 shsum :   0.0000000      6.81761209E-37   0.0000000       0.0000000    
 shsum :   0.0000000      6.81761209E-37   0.0000000       0.0000000    
 fin  6.81761209E-37   0.0000000           +Infinity
       +Infinity
       -Infinity       +Infinity
 ezero   0.0000000    
  6.81761209E-37
       +Infinity

Total energy input of :1.302E-28 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 6.818E-37 is absorbed (entot) 
                         through inelastic collisions (shsum =0.000E+00)
                                           + heating (elhsum =6.818E-37)
 This refers to an energy gain of   +Inf %


 The average E. loss per ion pair is :   +Inf eV (from qtoteV)
                                  or :   +Inf eV (from (entot))
                                  or :   -Inf eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  60.0, longitude 140.0.

 REED : The energy degradation is computed from the center energies of the grid.
 REED : The energy degradation source term is interpolated linearly with tau.
 REED : The albedo at  80. km is set to 1.00
 REED : The low energy phase function is taken from Porter
 REED : Secondary distribution from Rees et al., PSS 17, 1997, 1969           
 REED : Wiscombe's delta-M method IS applied

 MAIN : The screening parameter for the Rutherford phase function is calculated
        from the Bethe/Moliere formula for E > 500 eV

 MAIN : The energy grid covers the range from : 0.001 [eV] up to :   287.9 [eV].

 MAIN : The total energy input from the precipitation source is : 1.3018E-28 [eV/cm2/s]
                                                             or : 2.0858E-40 [erg/cm2/s]
                                  and from photoelectron source : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]

 MAIN : Total energy deposition in [CO2] is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 Total Heating :  6.935E-37 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  0.0000000E+00
 entot depart  6.93549200E-37  6.93549200E-37
 shsum :   0.0000000      6.93549200E-37   0.0000000       0.0000000    
 shsum :   0.0000000      6.93549200E-37   0.0000000       0.0000000    
 shsum :   0.0000000      6.93549200E-37   0.0000000       0.0000000    
 shsum :   0.0000000      6.93549200E-37   0.0000000       0.0000000    
 shsum :   0.0000000      6.93549200E-37   0.0000000       0.0000000    
 shsum :   0.0000000      6.93549200E-37   0.0000000       0.0000000    
 fin  6.93549200E-37   0.0000000           +Infinity
       +Infinity
       -Infinity       +Infinity
 ezero   0.0000000    
  6.93549200E-37
       +Infinity

Total energy input of :1.302E-28 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 6.935E-37 is absorbed (entot) 
                         through inelastic collisions (shsum =0.000E+00)
                                           + heating (elhsum =6.935E-37)
 This refers to an energy gain of   +Inf %


 The average E. loss per ion pair is :   +Inf eV (from qtoteV)
                                  or :   +Inf eV (from (entot))
                                  or :   -Inf eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  45.0, longitude 145.0.

 REED : The energy degradation is computed from the center energies of the grid.
 REED : The energy degradation source term is interpolated linearly with tau.
 REED : The albedo at  80. km is set to 1.00
 REED : The low energy phase function is taken from Porter
 REED : Secondary distribution from Rees et al., PSS 17, 1997, 1969           
 REED : Wiscombe's delta-M method IS applied

 MAIN : The screening parameter for the Rutherford phase function is calculated
        from the Bethe/Moliere formula for E > 500 eV

 MAIN : The energy grid covers the range from : 0.001 [eV] up to :   287.9 [eV].

 MAIN : The total energy input from the precipitation source is : 1.3018E-28 [eV/cm2/s]
                                                             or : 2.0858E-40 [erg/cm2/s]
                                  and from photoelectron source : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]

 MAIN : Total energy deposition in [CO2] is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 Total Heating :  6.739E-37 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  0.0000000E+00
 entot depart  6.73874835E-37  6.73874835E-37
 shsum :   0.0000000      6.73874835E-37   0.0000000       0.0000000    
 shsum :   0.0000000      6.73874835E-37   0.0000000       0.0000000    
 shsum :   0.0000000      6.73874835E-37   0.0000000       0.0000000    
 shsum :   0.0000000      6.73874835E-37   0.0000000       0.0000000    
 shsum :   0.0000000      6.73874835E-37   0.0000000       0.0000000    
 shsum :   0.0000000      6.73874835E-37   0.0000000       0.0000000    
 fin  6.73874835E-37   0.0000000           +Infinity
       +Infinity
       -Infinity       +Infinity
 ezero   0.0000000    
  6.73874835E-37
       +Infinity

Total energy input of :1.302E-28 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 6.739E-37 is absorbed (entot) 
                         through inelastic collisions (shsum =0.000E+00)
                                           + heating (elhsum =6.739E-37)
 This refers to an energy gain of   +Inf %


 The average E. loss per ion pair is :   +Inf eV (from qtoteV)
                                  or :   +Inf eV (from (entot))
                                  or :   -Inf eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  50.0, longitude 145.0.

 REED : The energy degradation is computed from the center energies of the grid.
 REED : The energy degradation source term is interpolated linearly with tau.
 REED : The albedo at  80. km is set to 1.00
 REED : The low energy phase function is taken from Porter
 REED : Secondary distribution from Rees et al., PSS 17, 1997, 1969           
 REED : Wiscombe's delta-M method IS applied

 MAIN : The screening parameter for the Rutherford phase function is calculated
        from the Bethe/Moliere formula for E > 500 eV

 MAIN : The energy grid covers the range from : 0.001 [eV] up to :   287.9 [eV].

 MAIN : The total energy input from the precipitation source is : 1.3018E-28 [eV/cm2/s]
                                                             or : 2.0858E-40 [erg/cm2/s]
                                  and from photoelectron source : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]

 MAIN : Total energy deposition in [CO2] is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 Total Heating :  6.776E-37 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  0.0000000E+00
 entot depart  6.77634710E-37  6.77634710E-37
 shsum :   0.0000000      6.77634710E-37   0.0000000       0.0000000    
 shsum :   0.0000000      6.77634710E-37   0.0000000       0.0000000    
 shsum :   0.0000000      6.77634710E-37   0.0000000       0.0000000    
 shsum :   0.0000000      6.77634710E-37   0.0000000       0.0000000    
 shsum :   0.0000000      6.77634710E-37   0.0000000       0.0000000    
 shsum :   0.0000000      6.77634710E-37   0.0000000       0.0000000    
 fin  6.77634710E-37   0.0000000           +Infinity
       +Infinity
       -Infinity       +Infinity
 ezero   0.0000000    
  6.77634710E-37
       +Infinity

Total energy input of :1.302E-28 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 6.776E-37 is absorbed (entot) 
                         through inelastic collisions (shsum =0.000E+00)
                                           + heating (elhsum =6.776E-37)
 This refers to an energy gain of   +Inf %


 The average E. loss per ion pair is :   +Inf eV (from qtoteV)
                                  or :   +Inf eV (from (entot))
                                  or :   -Inf eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  55.0, longitude 145.0.

 REED : The energy degradation is computed from the center energies of the grid.
 REED : The energy degradation source term is interpolated linearly with tau.
 REED : The albedo at  80. km is set to 1.00
 REED : The low energy phase function is taken from Porter
 REED : Secondary distribution from Rees et al., PSS 17, 1997, 1969           
 REED : Wiscombe's delta-M method IS applied

 MAIN : The screening parameter for the Rutherford phase function is calculated
        from the Bethe/Moliere formula for E > 500 eV

 MAIN : The energy grid covers the range from : 0.001 [eV] up to :   287.9 [eV].

 MAIN : The total energy input from the precipitation source is : 1.3018E-28 [eV/cm2/s]
                                                             or : 2.0858E-40 [erg/cm2/s]
                                  and from photoelectron source : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]

 MAIN : Total energy deposition in [CO2] is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 Total Heating :  6.853E-37 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  0.0000000E+00
 entot depart  6.85308175E-37  6.85308175E-37
 shsum :   0.0000000      6.85308175E-37   0.0000000       0.0000000    
 shsum :   0.0000000      6.85308175E-37   0.0000000       0.0000000    
 shsum :   0.0000000      6.85308175E-37   0.0000000       0.0000000    
 shsum :   0.0000000      6.85308175E-37   0.0000000       0.0000000    
 shsum :   0.0000000      6.85308175E-37   0.0000000       0.0000000    
 shsum :   0.0000000      6.85308175E-37   0.0000000       0.0000000    
 fin  6.85308175E-37   0.0000000           +Infinity
       +Infinity
       -Infinity       +Infinity
 ezero   0.0000000    
  6.85308175E-37
       +Infinity

Total energy input of :1.302E-28 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 6.853E-37 is absorbed (entot) 
                         through inelastic collisions (shsum =0.000E+00)
                                           + heating (elhsum =6.853E-37)
 This refers to an energy gain of   +Inf %


 The average E. loss per ion pair is :   +Inf eV (from qtoteV)
                                  or :   +Inf eV (from (entot))
                                  or :   -Inf eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  60.0, longitude 145.0.

 REED : The energy degradation is computed from the center energies of the grid.
 REED : The energy degradation source term is interpolated linearly with tau.
 REED : The albedo at  80. km is set to 1.00
 REED : The low energy phase function is taken from Porter
 REED : Secondary distribution from Rees et al., PSS 17, 1997, 1969           
 REED : Wiscombe's delta-M method IS applied

 MAIN : The screening parameter for the Rutherford phase function is calculated
        from the Bethe/Moliere formula for E > 500 eV

 MAIN : The energy grid covers the range from : 0.001 [eV] up to :   287.9 [eV].

 MAIN : The total energy input from the precipitation source is : 1.3018E-28 [eV/cm2/s]
                                                             or : 2.0858E-40 [erg/cm2/s]
                                  and from photoelectron source : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]

 MAIN : Total energy deposition in [CO2] is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 Total Heating :  6.961E-37 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  0.0000000E+00
 entot depart  6.96055753E-37  6.96055753E-37
 shsum :   0.0000000      6.96055753E-37   0.0000000       0.0000000    
 shsum :   0.0000000      6.96055753E-37   0.0000000       0.0000000    
 shsum :   0.0000000      6.96055753E-37   0.0000000       0.0000000    
 shsum :   0.0000000      6.96055753E-37   0.0000000       0.0000000    
 shsum :   0.0000000      6.96055753E-37   0.0000000       0.0000000    
 shsum :   0.0000000      6.96055753E-37   0.0000000       0.0000000    
 fin  6.96055753E-37   0.0000000           +Infinity
       +Infinity
       -Infinity       +Infinity
 ezero   0.0000000    
  6.96055753E-37
       +Infinity

Total energy input of :1.302E-28 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 6.961E-37 is absorbed (entot) 
                         through inelastic collisions (shsum =0.000E+00)
                                           + heating (elhsum =6.961E-37)
 This refers to an energy gain of   +Inf %


 The average E. loss per ion pair is :   +Inf eV (from qtoteV)
                                  or :   +Inf eV (from (entot))
                                  or :   -Inf eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  45.0, longitude 150.0.

 REED : The energy degradation is computed from the center energies of the grid.
 REED : The energy degradation source term is interpolated linearly with tau.
 REED : The albedo at  80. km is set to 1.00
 REED : The low energy phase function is taken from Porter
 REED : Secondary distribution from Rees et al., PSS 17, 1997, 1969           
 REED : Wiscombe's delta-M method IS applied

 MAIN : The screening parameter for the Rutherford phase function is calculated
        from the Bethe/Moliere formula for E > 500 eV

 MAIN : The energy grid covers the range from : 0.001 [eV] up to :   287.9 [eV].

 MAIN : The total energy input from the precipitation source is : 1.3018E-28 [eV/cm2/s]
                                                             or : 2.0858E-40 [erg/cm2/s]
                                  and from photoelectron source : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]

 MAIN : Total energy deposition in [CO2] is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 Total Heating :  6.746E-37 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  0.0000000E+00
 entot depart  6.74631537E-37  6.74631537E-37
 shsum :   0.0000000      6.74631537E-37   0.0000000       0.0000000    
 shsum :   0.0000000      6.74631537E-37   0.0000000       0.0000000    
 shsum :   0.0000000      6.74631537E-37   0.0000000       0.0000000    
 shsum :   0.0000000      6.74631537E-37   0.0000000       0.0000000    
 shsum :   0.0000000      6.74631537E-37   0.0000000       0.0000000    
 shsum :   0.0000000      6.74631537E-37   0.0000000       0.0000000    
 fin  6.74631537E-37   0.0000000           +Infinity
       +Infinity
       -Infinity       +Infinity
 ezero   0.0000000    
  6.74631537E-37
       +Infinity

Total energy input of :1.302E-28 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 6.746E-37 is absorbed (entot) 
                         through inelastic collisions (shsum =0.000E+00)
                                           + heating (elhsum =6.746E-37)
 This refers to an energy gain of   +Inf %


 The average E. loss per ion pair is :   +Inf eV (from qtoteV)
                                  or :   +Inf eV (from (entot))
                                  or :   -Inf eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  50.0, longitude 150.0.

 REED : The energy degradation is computed from the center energies of the grid.
 REED : The energy degradation source term is interpolated linearly with tau.
 REED : The albedo at  80. km is set to 1.00
 REED : The low energy phase function is taken from Porter
 REED : Secondary distribution from Rees et al., PSS 17, 1997, 1969           
 REED : Wiscombe's delta-M method IS applied

 MAIN : The screening parameter for the Rutherford phase function is calculated
        from the Bethe/Moliere formula for E > 500 eV

 MAIN : The energy grid covers the range from : 0.001 [eV] up to :   287.9 [eV].

 MAIN : The total energy input from the precipitation source is : 1.3018E-28 [eV/cm2/s]
                                                             or : 2.0858E-40 [erg/cm2/s]
                                  and from photoelectron source : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]

 MAIN : Total energy deposition in [CO2] is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 Total Heating :  6.801E-37 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  0.0000000E+00
 entot depart  6.80094000E-37  6.80094000E-37
 shsum :   0.0000000      6.80094000E-37   0.0000000       0.0000000    
 shsum :   0.0000000      6.80094000E-37   0.0000000       0.0000000    
 shsum :   0.0000000      6.80094000E-37   0.0000000       0.0000000    
 shsum :   0.0000000      6.80094000E-37   0.0000000       0.0000000    
 shsum :   0.0000000      6.80094000E-37   0.0000000       0.0000000    
 shsum :   0.0000000      6.80094000E-37   0.0000000       0.0000000    
 fin  6.80094000E-37   0.0000000           +Infinity
       +Infinity
       -Infinity       +Infinity
 ezero   0.0000000    
  6.80094000E-37
       +Infinity

Total energy input of :1.302E-28 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 6.801E-37 is absorbed (entot) 
                         through inelastic collisions (shsum =0.000E+00)
                                           + heating (elhsum =6.801E-37)
 This refers to an energy gain of   +Inf %


 The average E. loss per ion pair is :   +Inf eV (from qtoteV)
                                  or :   +Inf eV (from (entot))
                                  or :   -Inf eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  55.0, longitude 150.0.

 REED : The energy degradation is computed from the center energies of the grid.
 REED : The energy degradation source term is interpolated linearly with tau.
 REED : The albedo at  80. km is set to 1.00
 REED : The low energy phase function is taken from Porter
 REED : Secondary distribution from Rees et al., PSS 17, 1997, 1969           
 REED : Wiscombe's delta-M method IS applied

 MAIN : The screening parameter for the Rutherford phase function is calculated
        from the Bethe/Moliere formula for E > 500 eV

 MAIN : The energy grid covers the range from : 0.001 [eV] up to :   287.9 [eV].

 MAIN : The total energy input from the precipitation source is : 1.3018E-28 [eV/cm2/s]
                                                             or : 2.0858E-40 [erg/cm2/s]
                                  and from photoelectron source : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]

 MAIN : Total energy deposition in [CO2] is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 Total Heating :  6.896E-37 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  0.0000000E+00
 entot depart  6.89635654E-37  6.89635654E-37
 shsum :   0.0000000      6.89635654E-37   0.0000000       0.0000000    
 shsum :   0.0000000      6.89635654E-37   0.0000000       0.0000000    
 shsum :   0.0000000      6.89635654E-37   0.0000000       0.0000000    
 shsum :   0.0000000      6.89635654E-37   0.0000000       0.0000000    
 shsum :   0.0000000      6.89635654E-37   0.0000000       0.0000000    
 shsum :   0.0000000      6.89635654E-37   0.0000000       0.0000000    
 fin  6.89635654E-37   0.0000000           +Infinity
       +Infinity
       -Infinity       +Infinity
 ezero   0.0000000    
  6.89635654E-37
       +Infinity

Total energy input of :1.302E-28 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 6.896E-37 is absorbed (entot) 
                         through inelastic collisions (shsum =0.000E+00)
                                           + heating (elhsum =6.896E-37)
 This refers to an energy gain of   +Inf %


 The average E. loss per ion pair is :   +Inf eV (from qtoteV)
                                  or :   +Inf eV (from (entot))
                                  or :   -Inf eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  60.0, longitude 150.0.

 REED : The energy degradation is computed from the center energies of the grid.
 REED : The energy degradation source term is interpolated linearly with tau.
 REED : The albedo at  80. km is set to 1.00
 REED : The low energy phase function is taken from Porter
 REED : Secondary distribution from Rees et al., PSS 17, 1997, 1969           
 REED : Wiscombe's delta-M method IS applied

 MAIN : The screening parameter for the Rutherford phase function is calculated
        from the Bethe/Moliere formula for E > 500 eV

 MAIN : The energy grid covers the range from : 0.001 [eV] up to :   287.9 [eV].

 MAIN : The total energy input from the precipitation source is : 1.3018E-28 [eV/cm2/s]
                                                             or : 2.0858E-40 [erg/cm2/s]
                                  and from photoelectron source : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]

 MAIN : Total energy deposition in [CO2] is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 Total Heating :  6.968E-37 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  0.0000000E+00
 entot depart  6.96776985E-37  6.96776985E-37
 shsum :   0.0000000      6.96776985E-37   0.0000000       0.0000000    
 shsum :   0.0000000      6.96776985E-37   0.0000000       0.0000000    
 shsum :   0.0000000      6.96776985E-37   0.0000000       0.0000000    
 shsum :   0.0000000      6.96776985E-37   0.0000000       0.0000000    
 shsum :   0.0000000      6.96776985E-37   0.0000000       0.0000000    
 shsum :   0.0000000      6.96776985E-37   0.0000000       0.0000000    
 fin  6.96776985E-37   0.0000000           +Infinity
       +Infinity
       -Infinity       +Infinity
 ezero   0.0000000    
  6.96776985E-37
       +Infinity

Total energy input of :1.302E-28 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 6.968E-37 is absorbed (entot) 
                         through inelastic collisions (shsum =0.000E+00)
                                           + heating (elhsum =6.968E-37)
 This refers to an energy gain of   +Inf %


 The average E. loss per ion pair is :   +Inf eV (from qtoteV)
                                  or :   +Inf eV (from (entot))
                                  or :   -Inf eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  45.0, longitude 155.0.

 REED : The energy degradation is computed from the center energies of the grid.
 REED : The energy degradation source term is interpolated linearly with tau.
 REED : The albedo at  80. km is set to 1.00
 REED : The low energy phase function is taken from Porter
 REED : Secondary distribution from Rees et al., PSS 17, 1997, 1969           
 REED : Wiscombe's delta-M method IS applied

 MAIN : The screening parameter for the Rutherford phase function is calculated
        from the Bethe/Moliere formula for E > 500 eV

 MAIN : The energy grid covers the range from : 0.001 [eV] up to :   287.9 [eV].

 MAIN : The total energy input from the precipitation source is : 1.3018E-28 [eV/cm2/s]
                                                             or : 2.0858E-40 [erg/cm2/s]
                                  and from photoelectron source : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]

 MAIN : Total energy deposition in [CO2] is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 Total Heating :  6.776E-37 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  0.0000000E+00
 entot depart  6.77634710E-37  6.77634710E-37
 shsum :   0.0000000      6.77634710E-37   0.0000000       0.0000000    
 shsum :   0.0000000      6.77634710E-37   0.0000000       0.0000000    
 shsum :   0.0000000      6.77634710E-37   0.0000000       0.0000000    
 shsum :   0.0000000      6.77634710E-37   0.0000000       0.0000000    
 shsum :   0.0000000      6.77634710E-37   0.0000000       0.0000000    
 shsum :   0.0000000      6.77634710E-37   0.0000000       0.0000000    
 fin  6.77634710E-37   0.0000000           +Infinity
       +Infinity
       -Infinity       +Infinity
 ezero   0.0000000    
  6.77634710E-37
       +Infinity

Total energy input of :1.302E-28 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 6.776E-37 is absorbed (entot) 
                         through inelastic collisions (shsum =0.000E+00)
                                           + heating (elhsum =6.776E-37)
 This refers to an energy gain of   +Inf %


 The average E. loss per ion pair is :   +Inf eV (from qtoteV)
                                  or :   +Inf eV (from (entot))
                                  or :   -Inf eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  50.0, longitude 155.0.

 REED : The energy degradation is computed from the center energies of the grid.
 REED : The energy degradation source term is interpolated linearly with tau.
 REED : The albedo at  80. km is set to 1.00
 REED : The low energy phase function is taken from Porter
 REED : Secondary distribution from Rees et al., PSS 17, 1997, 1969           
 REED : Wiscombe's delta-M method IS applied

 MAIN : The screening parameter for the Rutherford phase function is calculated
        from the Bethe/Moliere formula for E > 500 eV

 MAIN : The energy grid covers the range from : 0.001 [eV] up to :   287.9 [eV].

 MAIN : The total energy input from the precipitation source is : 1.3018E-28 [eV/cm2/s]
                                                             or : 2.0858E-40 [erg/cm2/s]
                                  and from photoelectron source : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]

 MAIN : Total energy deposition in [CO2] is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 Total Heating :  6.853E-37 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  0.0000000E+00
 entot depart  6.85308175E-37  6.85308175E-37
 shsum :   0.0000000      6.85308175E-37   0.0000000       0.0000000    
 shsum :   0.0000000      6.85308175E-37   0.0000000       0.0000000    
 shsum :   0.0000000      6.85308175E-37   0.0000000       0.0000000    
 shsum :   0.0000000      6.85308175E-37   0.0000000       0.0000000    
 shsum :   0.0000000      6.85308175E-37   0.0000000       0.0000000    
 shsum :   0.0000000      6.85308175E-37   0.0000000       0.0000000    
 fin  6.85308175E-37   0.0000000           +Infinity
       +Infinity
       -Infinity       +Infinity
 ezero   0.0000000    
  6.85308175E-37
       +Infinity

Total energy input of :1.302E-28 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 6.853E-37 is absorbed (entot) 
                         through inelastic collisions (shsum =0.000E+00)
                                           + heating (elhsum =6.853E-37)
 This refers to an energy gain of   +Inf %


 The average E. loss per ion pair is :   +Inf eV (from qtoteV)
                                  or :   +Inf eV (from (entot))
                                  or :   -Inf eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  55.0, longitude 155.0.

 REED : The energy degradation is computed from the center energies of the grid.
 REED : The energy degradation source term is interpolated linearly with tau.
 REED : The albedo at  80. km is set to 1.00
 REED : The low energy phase function is taken from Porter
 REED : Secondary distribution from Rees et al., PSS 17, 1997, 1969           
 REED : Wiscombe's delta-M method IS applied

 MAIN : The screening parameter for the Rutherford phase function is calculated
        from the Bethe/Moliere formula for E > 500 eV

 MAIN : The energy grid covers the range from : 0.001 [eV] up to :   287.9 [eV].

 MAIN : The total energy input from the precipitation source is : 1.3018E-28 [eV/cm2/s]
                                                             or : 2.0858E-40 [erg/cm2/s]
                                  and from photoelectron source : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]

 MAIN : Total energy deposition in [CO2] is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 Total Heating :  6.946E-37 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  0.0000000E+00
 entot depart  6.94554189E-37  6.94554189E-37
 shsum :   0.0000000      6.94554189E-37   0.0000000       0.0000000    
 shsum :   0.0000000      6.94554189E-37   0.0000000       0.0000000    
 shsum :   0.0000000      6.94554189E-37   0.0000000       0.0000000    
 shsum :   0.0000000      6.94554189E-37   0.0000000       0.0000000    
 shsum :   0.0000000      6.94554189E-37   0.0000000       0.0000000    
 shsum :   0.0000000      6.94554189E-37   0.0000000       0.0000000    
 fin  6.94554189E-37   0.0000000           +Infinity
       +Infinity
       -Infinity       +Infinity
 ezero   0.0000000    
  6.94554189E-37
       +Infinity

Total energy input of :1.302E-28 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 6.946E-37 is absorbed (entot) 
                         through inelastic collisions (shsum =0.000E+00)
                                           + heating (elhsum =6.946E-37)
 This refers to an energy gain of   +Inf %


 The average E. loss per ion pair is :   +Inf eV (from qtoteV)
                                  or :   +Inf eV (from (entot))
                                  or :   -Inf eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  60.0, longitude 155.0.

 REED : The energy degradation is computed from the center energies of the grid.
 REED : The energy degradation source term is interpolated linearly with tau.
 REED : The albedo at  80. km is set to 1.00
 REED : The low energy phase function is taken from Porter
 REED : Secondary distribution from Rees et al., PSS 17, 1997, 1969           
 REED : Wiscombe's delta-M method IS applied

 MAIN : The screening parameter for the Rutherford phase function is calculated
        from the Bethe/Moliere formula for E > 500 eV

 MAIN : The energy grid covers the range from : 0.001 [eV] up to :   287.9 [eV].

 MAIN : The total energy input from the precipitation source is : 1.3018E-28 [eV/cm2/s]
                                                             or : 2.0858E-40 [erg/cm2/s]
                                  and from photoelectron source : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]

 MAIN : Total energy deposition in [CO2] is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 Total Heating :  6.982E-37 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  0.0000000E+00
 entot depart  6.98243035E-37  6.98243035E-37
 shsum :   0.0000000      6.98243035E-37   0.0000000       0.0000000    
 shsum :   0.0000000      6.98243035E-37   0.0000000       0.0000000    
 shsum :   0.0000000      6.98243035E-37   0.0000000       0.0000000    
 shsum :   0.0000000      6.98243035E-37   0.0000000       0.0000000    
 shsum :   0.0000000      6.98243035E-37   0.0000000       0.0000000    
 shsum :   0.0000000      6.98243035E-37   0.0000000       0.0000000    
 fin  6.98243035E-37   0.0000000           +Infinity
       +Infinity
       -Infinity       +Infinity
 ezero   0.0000000    
  6.98243035E-37
       +Infinity

Total energy input of :1.302E-28 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 6.982E-37 is absorbed (entot) 
                         through inelastic collisions (shsum =0.000E+00)
                                           + heating (elhsum =6.982E-37)
 This refers to an energy gain of   +Inf %


 The average E. loss per ion pair is :   +Inf eV (from qtoteV)
                                  or :   +Inf eV (from (entot))
                                  or :   -Inf eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  45.0, longitude 160.0.

 REED : The energy degradation is computed from the center energies of the grid.
 REED : The energy degradation source term is interpolated linearly with tau.
 REED : The albedo at  80. km is set to 1.00
 REED : The low energy phase function is taken from Porter
 REED : Secondary distribution from Rees et al., PSS 17, 1997, 1969           
 REED : Wiscombe's delta-M method IS applied

 MAIN : The screening parameter for the Rutherford phase function is calculated
        from the Bethe/Moliere formula for E > 500 eV

 MAIN : The energy grid covers the range from : 0.001 [eV] up to :   287.9 [eV].

 MAIN : The total energy input from the precipitation source is : 1.3018E-28 [eV/cm2/s]
                                                             or : 2.0858E-40 [erg/cm2/s]
                                  and from photoelectron source : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]

 MAIN : Total energy deposition in [CO2] is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 Total Heating :  6.801E-37 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  0.0000000E+00
 entot depart  6.80094000E-37  6.80094000E-37
 shsum :   0.0000000      6.80094000E-37   0.0000000       0.0000000    
 shsum :   0.0000000      6.80094000E-37   0.0000000       0.0000000    
 shsum :   0.0000000      6.80094000E-37   0.0000000       0.0000000    
 shsum :   0.0000000      6.80094000E-37   0.0000000       0.0000000    
 shsum :   0.0000000      6.80094000E-37   0.0000000       0.0000000    
 shsum :   0.0000000      6.80094000E-37   0.0000000       0.0000000    
 fin  6.80094000E-37   0.0000000           +Infinity
       +Infinity
       -Infinity       +Infinity
 ezero   0.0000000    
  6.80094000E-37
       +Infinity

Total energy input of :1.302E-28 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 6.801E-37 is absorbed (entot) 
                         through inelastic collisions (shsum =0.000E+00)
                                           + heating (elhsum =6.801E-37)
 This refers to an energy gain of   +Inf %


 The average E. loss per ion pair is :   +Inf eV (from qtoteV)
                                  or :   +Inf eV (from (entot))
                                  or :   -Inf eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  50.0, longitude 160.0.

 REED : The energy degradation is computed from the center energies of the grid.
 REED : The energy degradation source term is interpolated linearly with tau.
 REED : The albedo at  80. km is set to 1.00
 REED : The low energy phase function is taken from Porter
 REED : Secondary distribution from Rees et al., PSS 17, 1997, 1969           
 REED : Wiscombe's delta-M method IS applied

 MAIN : The screening parameter for the Rutherford phase function is calculated
        from the Bethe/Moliere formula for E > 500 eV

 MAIN : The energy grid covers the range from : 0.001 [eV] up to :   287.9 [eV].

 MAIN : The total energy input from the precipitation source is : 1.3018E-28 [eV/cm2/s]
                                                             or : 2.0858E-40 [erg/cm2/s]
                                  and from photoelectron source : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]

 MAIN : Total energy deposition in [CO2] is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 Total Heating :  6.905E-37 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  0.0000000E+00
 entot depart  6.90486926E-37  6.90486926E-37
 shsum :   0.0000000      6.90486926E-37   0.0000000       0.0000000    
 shsum :   0.0000000      6.90486926E-37   0.0000000       0.0000000    
 shsum :   0.0000000      6.90486926E-37   0.0000000       0.0000000    
 shsum :   0.0000000      6.90486926E-37   0.0000000       0.0000000    
 shsum :   0.0000000      6.90486926E-37   0.0000000       0.0000000    
 shsum :   0.0000000      6.90486926E-37   0.0000000       0.0000000    
 fin  6.90486926E-37   0.0000000           +Infinity
       +Infinity
       -Infinity       +Infinity
 ezero   0.0000000    
  6.90486926E-37
       +Infinity

Total energy input of :1.302E-28 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 6.905E-37 is absorbed (entot) 
                         through inelastic collisions (shsum =0.000E+00)
                                           + heating (elhsum =6.905E-37)
 This refers to an energy gain of   +Inf %


 The average E. loss per ion pair is :   +Inf eV (from qtoteV)
                                  or :   +Inf eV (from (entot))
                                  or :   -Inf eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  55.0, longitude 160.0.

 REED : The energy degradation is computed from the center energies of the grid.
 REED : The energy degradation source term is interpolated linearly with tau.
 REED : The albedo at  80. km is set to 1.00
 REED : The low energy phase function is taken from Porter
 REED : Secondary distribution from Rees et al., PSS 17, 1997, 1969           
 REED : Wiscombe's delta-M method IS applied

 MAIN : The screening parameter for the Rutherford phase function is calculated
        from the Bethe/Moliere formula for E > 500 eV

 MAIN : The energy grid covers the range from : 0.001 [eV] up to :   287.9 [eV].

 MAIN : The total energy input from the precipitation source is : 1.3018E-28 [eV/cm2/s]
                                                             or : 2.0858E-40 [erg/cm2/s]
                                  and from photoelectron source : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]

 MAIN : Total energy deposition in [CO2] is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 Total Heating :  6.961E-37 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  0.0000000E+00
 entot depart  6.96055753E-37  6.96055753E-37
 shsum :   0.0000000      6.96055753E-37   0.0000000       0.0000000    
 shsum :   0.0000000      6.96055753E-37   0.0000000       0.0000000    
 shsum :   0.0000000      6.96055753E-37   0.0000000       0.0000000    
 shsum :   0.0000000      6.96055753E-37   0.0000000       0.0000000    
 shsum :   0.0000000      6.96055753E-37   0.0000000       0.0000000    
 shsum :   0.0000000      6.96055753E-37   0.0000000       0.0000000    
 fin  6.96055753E-37   0.0000000           +Infinity
       +Infinity
       -Infinity       +Infinity
 ezero   0.0000000    
  6.96055753E-37
       +Infinity

Total energy input of :1.302E-28 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 6.961E-37 is absorbed (entot) 
                         through inelastic collisions (shsum =0.000E+00)
                                           + heating (elhsum =6.961E-37)
 This refers to an energy gain of   +Inf %


 The average E. loss per ion pair is :   +Inf eV (from qtoteV)
                                  or :   +Inf eV (from (entot))
                                  or :   -Inf eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  60.0, longitude 160.0.

 REED : The energy degradation is computed from the center energies of the grid.
 REED : The energy degradation source term is interpolated linearly with tau.
 REED : The albedo at  80. km is set to 1.00
 REED : The low energy phase function is taken from Porter
 REED : Secondary distribution from Rees et al., PSS 17, 1997, 1969           
 REED : Wiscombe's delta-M method IS applied

 MAIN : The screening parameter for the Rutherford phase function is calculated
        from the Bethe/Moliere formula for E > 500 eV

 MAIN : The energy grid covers the range from : 0.001 [eV] up to :   287.9 [eV].

 MAIN : The total energy input from the precipitation source is : 1.3018E-28 [eV/cm2/s]
                                                             or : 2.0858E-40 [erg/cm2/s]
                                  and from photoelectron source : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]

 MAIN : Total energy deposition in [CO2] is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 Total Heating :  7.007E-37 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  0.0000000E+00
 entot depart  7.00714163E-37  7.00714163E-37
 shsum :   0.0000000      7.00714163E-37   0.0000000       0.0000000    
 shsum :   0.0000000      7.00714163E-37   0.0000000       0.0000000    
 shsum :   0.0000000      7.00714163E-37   0.0000000       0.0000000    
 shsum :   0.0000000      7.00714163E-37   0.0000000       0.0000000    
 shsum :   0.0000000      7.00714163E-37   0.0000000       0.0000000    
 shsum :   0.0000000      7.00714163E-37   0.0000000       0.0000000    
 fin  7.00714163E-37   0.0000000           +Infinity
       +Infinity
       -Infinity       +Infinity
 ezero   0.0000000    
  7.00714163E-37
       +Infinity

Total energy input of :1.302E-28 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 7.007E-37 is absorbed (entot) 
                         through inelastic collisions (shsum =0.000E+00)
                                           + heating (elhsum =7.007E-37)
 This refers to an energy gain of   +Inf %


 The average E. loss per ion pair is :   +Inf eV (from qtoteV)
                                  or :   +Inf eV (from (entot))
                                  or :   -Inf eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  45.0, longitude 165.0.

 REED : The energy degradation is computed from the center energies of the grid.
 REED : The energy degradation source term is interpolated linearly with tau.
 REED : The albedo at  80. km is set to 1.00
 REED : The low energy phase function is taken from Porter
 REED : Secondary distribution from Rees et al., PSS 17, 1997, 1969           
 REED : Wiscombe's delta-M method IS applied

 MAIN : The screening parameter for the Rutherford phase function is calculated
        from the Bethe/Moliere formula for E > 500 eV

 MAIN : The energy grid covers the range from : 0.001 [eV] up to :   287.9 [eV].

 MAIN : The total energy input from the precipitation source is : 1.3018E-28 [eV/cm2/s]
                                                             or : 2.0858E-40 [erg/cm2/s]
                                  and from photoelectron source : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]

 MAIN : Total energy deposition in [CO2] is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 Total Heating :  6.862E-37 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  0.0000000E+00
 entot depart  6.86194962E-37  6.86194962E-37
 shsum :   0.0000000      6.86194962E-37   0.0000000       0.0000000    
 shsum :   0.0000000      6.86194962E-37   0.0000000       0.0000000    
 shsum :   0.0000000      6.86194962E-37   0.0000000       0.0000000    
 shsum :   0.0000000      6.86194962E-37   0.0000000       0.0000000    
 shsum :   0.0000000      6.86194962E-37   0.0000000       0.0000000    
 shsum :   0.0000000      6.86194962E-37   0.0000000       0.0000000    
 fin  6.86194962E-37   0.0000000           +Infinity
       +Infinity
       -Infinity       +Infinity
 ezero   0.0000000    
  6.86194962E-37
       +Infinity

Total energy input of :1.302E-28 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 6.862E-37 is absorbed (entot) 
                         through inelastic collisions (shsum =0.000E+00)
                                           + heating (elhsum =6.862E-37)
 This refers to an energy gain of   +Inf %


 The average E. loss per ion pair is :   +Inf eV (from qtoteV)
                                  or :   +Inf eV (from (entot))
                                  or :   -Inf eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  50.0, longitude 165.0.

 REED : The energy degradation is computed from the center energies of the grid.
 REED : The energy degradation source term is interpolated linearly with tau.
 REED : The albedo at  80. km is set to 1.00
 REED : The low energy phase function is taken from Porter
 REED : Secondary distribution from Rees et al., PSS 17, 1997, 1969           
 REED : Wiscombe's delta-M method IS applied

 MAIN : The screening parameter for the Rutherford phase function is calculated
        from the Bethe/Moliere formula for E > 500 eV

 MAIN : The energy grid covers the range from : 0.001 [eV] up to :   287.9 [eV].

 MAIN : The total energy input from the precipitation source is : 1.3018E-28 [eV/cm2/s]
                                                             or : 2.0858E-40 [erg/cm2/s]
                                  and from photoelectron source : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]

 MAIN : Total energy deposition in [CO2] is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 Total Heating :  6.946E-37 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  0.0000000E+00
 entot depart  6.94554189E-37  6.94554189E-37
 shsum :   0.0000000      6.94554189E-37   0.0000000       0.0000000    
 shsum :   0.0000000      6.94554189E-37   0.0000000       0.0000000    
 shsum :   0.0000000      6.94554189E-37   0.0000000       0.0000000    
 shsum :   0.0000000      6.94554189E-37   0.0000000       0.0000000    
 shsum :   0.0000000      6.94554189E-37   0.0000000       0.0000000    
 shsum :   0.0000000      6.94554189E-37   0.0000000       0.0000000    
 fin  6.94554189E-37   0.0000000           +Infinity
       +Infinity
       -Infinity       +Infinity
 ezero   0.0000000    
  6.94554189E-37
       +Infinity

Total energy input of :1.302E-28 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 6.946E-37 is absorbed (entot) 
                         through inelastic collisions (shsum =0.000E+00)
                                           + heating (elhsum =6.946E-37)
 This refers to an energy gain of   +Inf %


 The average E. loss per ion pair is :   +Inf eV (from qtoteV)
                                  or :   +Inf eV (from (entot))
                                  or :   -Inf eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  55.0, longitude 165.0.

 REED : The energy degradation is computed from the center energies of the grid.
 REED : The energy degradation source term is interpolated linearly with tau.
 REED : The albedo at  80. km is set to 1.00
 REED : The low energy phase function is taken from Porter
 REED : Secondary distribution from Rees et al., PSS 17, 1997, 1969           
 REED : Wiscombe's delta-M method IS applied

 MAIN : The screening parameter for the Rutherford phase function is calculated
        from the Bethe/Moliere formula for E > 500 eV

 MAIN : The energy grid covers the range from : 0.001 [eV] up to :   287.9 [eV].

 MAIN : The total energy input from the precipitation source is : 1.3018E-28 [eV/cm2/s]
                                                             or : 2.0858E-40 [erg/cm2/s]
                                  and from photoelectron source : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]

 MAIN : Total energy deposition in [CO2] is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 Total Heating :  6.982E-37 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  0.0000000E+00
 entot depart  6.98243035E-37  6.98243035E-37
 shsum :   0.0000000      6.98243035E-37   0.0000000       0.0000000    
 shsum :   0.0000000      6.98243035E-37   0.0000000       0.0000000    
 shsum :   0.0000000      6.98243035E-37   0.0000000       0.0000000    
 shsum :   0.0000000      6.98243035E-37   0.0000000       0.0000000    
 shsum :   0.0000000      6.98243035E-37   0.0000000       0.0000000    
 shsum :   0.0000000      6.98243035E-37   0.0000000       0.0000000    
 fin  6.98243035E-37   0.0000000           +Infinity
       +Infinity
       -Infinity       +Infinity
 ezero   0.0000000    
  6.98243035E-37
       +Infinity

Total energy input of :1.302E-28 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 6.982E-37 is absorbed (entot) 
                         through inelastic collisions (shsum =0.000E+00)
                                           + heating (elhsum =6.982E-37)
 This refers to an energy gain of   +Inf %


 The average E. loss per ion pair is :   +Inf eV (from qtoteV)
                                  or :   +Inf eV (from (entot))
                                  or :   -Inf eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  60.0, longitude 165.0.

 REED : The energy degradation is computed from the center energies of the grid.
 REED : The energy degradation source term is interpolated linearly with tau.
 REED : The albedo at  80. km is set to 1.00
 REED : The low energy phase function is taken from Porter
 REED : Secondary distribution from Rees et al., PSS 17, 1997, 1969           
 REED : Wiscombe's delta-M method IS applied

 MAIN : The screening parameter for the Rutherford phase function is calculated
        from the Bethe/Moliere formula for E > 500 eV

 MAIN : The energy grid covers the range from : 0.001 [eV] up to :   287.9 [eV].

 MAIN : The total energy input from the precipitation source is : 1.3018E-28 [eV/cm2/s]
                                                             or : 2.0858E-40 [erg/cm2/s]
                                  and from photoelectron source : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]

 MAIN : Total energy deposition in [CO2] is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 Total Heating :  7.014E-37 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  0.0000000E+00
 entot depart  7.01447188E-37  7.01447188E-37
 shsum :   0.0000000      7.01447188E-37   0.0000000       0.0000000    
 shsum :   0.0000000      7.01447188E-37   0.0000000       0.0000000    
 shsum :   0.0000000      7.01447188E-37   0.0000000       0.0000000    
 shsum :   0.0000000      7.01447188E-37   0.0000000       0.0000000    
 shsum :   0.0000000      7.01447188E-37   0.0000000       0.0000000    
 shsum :   0.0000000      7.01447188E-37   0.0000000       0.0000000    
 fin  7.01447188E-37   0.0000000           +Infinity
       +Infinity
       -Infinity       +Infinity
 ezero   0.0000000    
  7.01447188E-37
       +Infinity

Total energy input of :1.302E-28 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 7.014E-37 is absorbed (entot) 
                         through inelastic collisions (shsum =0.000E+00)
                                           + heating (elhsum =7.014E-37)
 This refers to an energy gain of   +Inf %


 The average E. loss per ion pair is :   +Inf eV (from qtoteV)
                                  or :   +Inf eV (from (entot))
                                  or :   -Inf eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  45.0, longitude 170.0.

 REED : The energy degradation is computed from the center energies of the grid.
 REED : The energy degradation source term is interpolated linearly with tau.
 REED : The albedo at  80. km is set to 1.00
 REED : The low energy phase function is taken from Porter
 REED : Secondary distribution from Rees et al., PSS 17, 1997, 1969           
 REED : Wiscombe's delta-M method IS applied

 MAIN : The screening parameter for the Rutherford phase function is calculated
        from the Bethe/Moliere formula for E > 500 eV

 MAIN : The energy grid covers the range from : 0.001 [eV] up to :   287.9 [eV].

 MAIN : The total energy input from the precipitation source is : 1.3018E-28 [eV/cm2/s]
                                                             or : 2.0858E-40 [erg/cm2/s]
                                  and from photoelectron source : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]

 MAIN : Total energy deposition in [CO2] is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 Total Heating :  6.905E-37 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  0.0000000E+00
 entot depart  6.90486926E-37  6.90486926E-37
 shsum :   0.0000000      6.90486926E-37   0.0000000       0.0000000    
 shsum :   0.0000000      6.90486926E-37   0.0000000       0.0000000    
 shsum :   0.0000000      6.90486926E-37   0.0000000       0.0000000    
 shsum :   0.0000000      6.90486926E-37   0.0000000       0.0000000    
 shsum :   0.0000000      6.90486926E-37   0.0000000       0.0000000    
 shsum :   0.0000000      6.90486926E-37   0.0000000       0.0000000    
 fin  6.90486926E-37   0.0000000           +Infinity
       +Infinity
       -Infinity       +Infinity
 ezero   0.0000000    
  6.90486926E-37
       +Infinity

Total energy input of :1.302E-28 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 6.905E-37 is absorbed (entot) 
                         through inelastic collisions (shsum =0.000E+00)
                                           + heating (elhsum =6.905E-37)
 This refers to an energy gain of   +Inf %


 The average E. loss per ion pair is :   +Inf eV (from qtoteV)
                                  or :   +Inf eV (from (entot))
                                  or :   -Inf eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  50.0, longitude 170.0.

 REED : The energy degradation is computed from the center energies of the grid.
 REED : The energy degradation source term is interpolated linearly with tau.
 REED : The albedo at  80. km is set to 1.00
 REED : The low energy phase function is taken from Porter
 REED : Secondary distribution from Rees et al., PSS 17, 1997, 1969           
 REED : Wiscombe's delta-M method IS applied

 MAIN : The screening parameter for the Rutherford phase function is calculated
        from the Bethe/Moliere formula for E > 500 eV

 MAIN : The energy grid covers the range from : 0.001 [eV] up to :   287.9 [eV].

 MAIN : The total energy input from the precipitation source is : 1.3018E-28 [eV/cm2/s]
                                                             or : 2.0858E-40 [erg/cm2/s]
                                  and from photoelectron source : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]

 MAIN : Total energy deposition in [CO2] is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 Total Heating :  6.961E-37 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  0.0000000E+00
 entot depart  6.96055753E-37  6.96055753E-37
 shsum :   0.0000000      6.96055753E-37   0.0000000       0.0000000    
 shsum :   0.0000000      6.96055753E-37   0.0000000       0.0000000    
 shsum :   0.0000000      6.96055753E-37   0.0000000       0.0000000    
 shsum :   0.0000000      6.96055753E-37   0.0000000       0.0000000    
 shsum :   0.0000000      6.96055753E-37   0.0000000       0.0000000    
 shsum :   0.0000000      6.96055753E-37   0.0000000       0.0000000    
 fin  6.96055753E-37   0.0000000           +Infinity
       +Infinity
       -Infinity       +Infinity
 ezero   0.0000000    
  6.96055753E-37
       +Infinity

Total energy input of :1.302E-28 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 6.961E-37 is absorbed (entot) 
                         through inelastic collisions (shsum =0.000E+00)
                                           + heating (elhsum =6.961E-37)
 This refers to an energy gain of   +Inf %


 The average E. loss per ion pair is :   +Inf eV (from qtoteV)
                                  or :   +Inf eV (from (entot))
                                  or :   -Inf eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  55.0, longitude 170.0.

 REED : The energy degradation is computed from the center energies of the grid.
 REED : The energy degradation source term is interpolated linearly with tau.
 REED : The albedo at  80. km is set to 1.00
 REED : The low energy phase function is taken from Porter
 REED : Secondary distribution from Rees et al., PSS 17, 1997, 1969           
 REED : Wiscombe's delta-M method IS applied

 MAIN : The screening parameter for the Rutherford phase function is calculated
        from the Bethe/Moliere formula for E > 500 eV

 MAIN : The energy grid covers the range from : 0.001 [eV] up to :   287.9 [eV].

 MAIN : The total energy input from the precipitation source is : 1.3018E-28 [eV/cm2/s]
                                                             or : 2.0858E-40 [erg/cm2/s]
                                  and from photoelectron source : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]

 MAIN : Total energy deposition in [CO2] is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 Total Heating :  7.007E-37 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  0.0000000E+00
 entot depart  7.00714163E-37  7.00714163E-37
 shsum :   0.0000000      7.00714163E-37   0.0000000       0.0000000    
 shsum :   0.0000000      7.00714163E-37   0.0000000       0.0000000    
 shsum :   0.0000000      7.00714163E-37   0.0000000       0.0000000    
 shsum :   0.0000000      7.00714163E-37   0.0000000       0.0000000    
 shsum :   0.0000000      7.00714163E-37   0.0000000       0.0000000    
 shsum :   0.0000000      7.00714163E-37   0.0000000       0.0000000    
 fin  7.00714163E-37   0.0000000           +Infinity
       +Infinity
       -Infinity       +Infinity
 ezero   0.0000000    
  7.00714163E-37
       +Infinity

Total energy input of :1.302E-28 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 7.007E-37 is absorbed (entot) 
                         through inelastic collisions (shsum =0.000E+00)
                                           + heating (elhsum =7.007E-37)
 This refers to an energy gain of   +Inf %


 The average E. loss per ion pair is :   +Inf eV (from qtoteV)
                                  or :   +Inf eV (from (entot))
                                  or :   -Inf eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  60.0, longitude 170.0.

 REED : The energy degradation is computed from the center energies of the grid.
 REED : The energy degradation source term is interpolated linearly with tau.
 REED : The albedo at  80. km is set to 1.00
 REED : The low energy phase function is taken from Porter
 REED : Secondary distribution from Rees et al., PSS 17, 1997, 1969           
 REED : Wiscombe's delta-M method IS applied

 MAIN : The screening parameter for the Rutherford phase function is calculated
        from the Bethe/Moliere formula for E > 500 eV

 MAIN : The energy grid covers the range from : 0.001 [eV] up to :   287.9 [eV].

 MAIN : The total energy input from the precipitation source is : 1.3018E-28 [eV/cm2/s]
                                                             or : 2.0858E-40 [erg/cm2/s]
                                  and from photoelectron source : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]

 MAIN : Total energy deposition in [CO2] is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 Total Heating :  7.070E-37 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  0.0000000E+00
 entot depart  7.06968797E-37  7.06968797E-37
 shsum :   0.0000000      7.06968797E-37   0.0000000       0.0000000    
 shsum :   0.0000000      7.06968797E-37   0.0000000       0.0000000    
 shsum :   0.0000000      7.06968797E-37   0.0000000       0.0000000    
 shsum :   0.0000000      7.06968797E-37   0.0000000       0.0000000    
 shsum :   0.0000000      7.06968797E-37   0.0000000       0.0000000    
 shsum :   0.0000000      7.06968797E-37   0.0000000       0.0000000    
 fin  7.06968797E-37   0.0000000           +Infinity
       +Infinity
       -Infinity       +Infinity
 ezero   0.0000000    
  7.06968797E-37
       +Infinity

Total energy input of :1.302E-28 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 7.070E-37 is absorbed (entot) 
                         through inelastic collisions (shsum =0.000E+00)
                                           + heating (elhsum =7.070E-37)
 This refers to an energy gain of   +Inf %


 The average E. loss per ion pair is :   +Inf eV (from qtoteV)
                                  or :   +Inf eV (from (entot))
                                  or :   -Inf eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  45.0, longitude 175.0.

 REED : The energy degradation is computed from the center energies of the grid.
 REED : The energy degradation source term is interpolated linearly with tau.
 REED : The albedo at  80. km is set to 1.00
 REED : The low energy phase function is taken from Porter
 REED : Secondary distribution from Rees et al., PSS 17, 1997, 1969           
 REED : Wiscombe's delta-M method IS applied

 MAIN : The screening parameter for the Rutherford phase function is calculated
        from the Bethe/Moliere formula for E > 500 eV

 MAIN : The energy grid covers the range from : 0.001 [eV] up to :   287.9 [eV].

 MAIN : The total energy input from the precipitation source is : 1.3018E-28 [eV/cm2/s]
                                                             or : 2.0858E-40 [erg/cm2/s]
                                  and from photoelectron source : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]

 MAIN : Total energy deposition in [CO2] is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 Total Heating :  6.946E-37 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  0.0000000E+00
 entot depart  6.94554189E-37  6.94554189E-37
 shsum :   0.0000000      6.94554189E-37   0.0000000       0.0000000    
 shsum :   0.0000000      6.94554189E-37   0.0000000       0.0000000    
 shsum :   0.0000000      6.94554189E-37   0.0000000       0.0000000    
 shsum :   0.0000000      6.94554189E-37   0.0000000       0.0000000    
 shsum :   0.0000000      6.94554189E-37   0.0000000       0.0000000    
 shsum :   0.0000000      6.94554189E-37   0.0000000       0.0000000    
 fin  6.94554189E-37   0.0000000           +Infinity
       +Infinity
       -Infinity       +Infinity
 ezero   0.0000000    
  6.94554189E-37
       +Infinity

Total energy input of :1.302E-28 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 6.946E-37 is absorbed (entot) 
                         through inelastic collisions (shsum =0.000E+00)
                                           + heating (elhsum =6.946E-37)
 This refers to an energy gain of   +Inf %


 The average E. loss per ion pair is :   +Inf eV (from qtoteV)
                                  or :   +Inf eV (from (entot))
                                  or :   -Inf eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  50.0, longitude 175.0.

 REED : The energy degradation is computed from the center energies of the grid.
 REED : The energy degradation source term is interpolated linearly with tau.
 REED : The albedo at  80. km is set to 1.00
 REED : The low energy phase function is taken from Porter
 REED : Secondary distribution from Rees et al., PSS 17, 1997, 1969           
 REED : Wiscombe's delta-M method IS applied

 MAIN : The screening parameter for the Rutherford phase function is calculated
        from the Bethe/Moliere formula for E > 500 eV

 MAIN : The energy grid covers the range from : 0.001 [eV] up to :   287.9 [eV].

 MAIN : The total energy input from the precipitation source is : 1.3018E-28 [eV/cm2/s]
                                                             or : 2.0858E-40 [erg/cm2/s]
                                  and from photoelectron source : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]

 MAIN : Total energy deposition in [CO2] is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 Total Heating :  6.975E-37 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  0.0000000E+00
 entot depart  6.97533641E-37  6.97533641E-37
 shsum :   0.0000000      6.97533641E-37   0.0000000       0.0000000    
 shsum :   0.0000000      6.97533641E-37   0.0000000       0.0000000    
 shsum :   0.0000000      6.97533641E-37   0.0000000       0.0000000    
 shsum :   0.0000000      6.97533641E-37   0.0000000       0.0000000    
 shsum :   0.0000000      6.97533641E-37   0.0000000       0.0000000    
 shsum :   0.0000000      6.97533641E-37   0.0000000       0.0000000    
 fin  6.97533641E-37   0.0000000           +Infinity
       +Infinity
       -Infinity       +Infinity
 ezero   0.0000000    
  6.97533641E-37
       +Infinity

Total energy input of :1.302E-28 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 6.975E-37 is absorbed (entot) 
                         through inelastic collisions (shsum =0.000E+00)
                                           + heating (elhsum =6.975E-37)
 This refers to an energy gain of   +Inf %


 The average E. loss per ion pair is :   +Inf eV (from qtoteV)
                                  or :   +Inf eV (from (entot))
                                  or :   -Inf eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  55.0, longitude 175.0.

 REED : The energy degradation is computed from the center energies of the grid.
 REED : The energy degradation source term is interpolated linearly with tau.
 REED : The albedo at  80. km is set to 1.00
 REED : The low energy phase function is taken from Porter
 REED : Secondary distribution from Rees et al., PSS 17, 1997, 1969           
 REED : Wiscombe's delta-M method IS applied

 MAIN : The screening parameter for the Rutherford phase function is calculated
        from the Bethe/Moliere formula for E > 500 eV

 MAIN : The energy grid covers the range from : 0.001 [eV] up to :   287.9 [eV].

 MAIN : The total energy input from the precipitation source is : 1.3018E-28 [eV/cm2/s]
                                                             or : 2.0858E-40 [erg/cm2/s]
                                  and from photoelectron source : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]

 MAIN : Total energy deposition in [CO2] is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 Total Heating :  7.016E-37 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  0.0000000E+00
 entot depart  7.01589111E-37  7.01589111E-37
 shsum :   0.0000000      7.01589111E-37   0.0000000       0.0000000    
 shsum :   0.0000000      7.01589111E-37   0.0000000       0.0000000    
 shsum :   0.0000000      7.01589111E-37   0.0000000       0.0000000    
 shsum :   0.0000000      7.01589111E-37   0.0000000       0.0000000    
 shsum :   0.0000000      7.01589111E-37   0.0000000       0.0000000    
 shsum :   0.0000000      7.01589111E-37   0.0000000       0.0000000    
 fin  7.01589111E-37   0.0000000           +Infinity
       +Infinity
       -Infinity       +Infinity
 ezero   0.0000000    
  7.01589111E-37
       +Infinity

Total energy input of :1.302E-28 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 7.016E-37 is absorbed (entot) 
                         through inelastic collisions (shsum =0.000E+00)
                                           + heating (elhsum =7.016E-37)
 This refers to an energy gain of   +Inf %


 The average E. loss per ion pair is :   +Inf eV (from qtoteV)
                                  or :   +Inf eV (from (entot))
                                  or :   -Inf eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  60.0, longitude 175.0.

 REED : The energy degradation is computed from the center energies of the grid.
 REED : The energy degradation source term is interpolated linearly with tau.
 REED : The albedo at  80. km is set to 1.00
 REED : The low energy phase function is taken from Porter
 REED : Secondary distribution from Rees et al., PSS 17, 1997, 1969           
 REED : Wiscombe's delta-M method IS applied

 MAIN : The screening parameter for the Rutherford phase function is calculated
        from the Bethe/Moliere formula for E > 500 eV

 MAIN : The energy grid covers the range from : 0.001 [eV] up to :   287.9 [eV].

 MAIN : The total energy input from the precipitation source is : 1.3018E-28 [eV/cm2/s]
                                                             or : 2.0858E-40 [erg/cm2/s]
                                  and from photoelectron source : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]

 MAIN : Total energy deposition in [CO2] is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 Total Heating :  7.131E-37 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  0.0000000E+00
 entot depart  7.13093301E-37  7.13093301E-37
 shsum :   0.0000000      7.13093301E-37   0.0000000       0.0000000    
 shsum :   0.0000000      7.13093301E-37   0.0000000       0.0000000    
 shsum :   0.0000000      7.13093301E-37   0.0000000       0.0000000    
 shsum :   0.0000000      7.13093301E-37   0.0000000       0.0000000    
 shsum :   0.0000000      7.13093301E-37   0.0000000       0.0000000    
 shsum :   0.0000000      7.13093301E-37   0.0000000       0.0000000    
 fin  7.13093301E-37   0.0000000           +Infinity
       +Infinity
       -Infinity       +Infinity
 ezero   0.0000000    
  7.13093301E-37
       +Infinity

Total energy input of :1.302E-28 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 7.131E-37 is absorbed (entot) 
                         through inelastic collisions (shsum =0.000E+00)
                                           + heating (elhsum =7.131E-37)
 This refers to an energy gain of   +Inf %


 The average E. loss per ion pair is :   +Inf eV (from qtoteV)
                                  or :   +Inf eV (from (entot))
                                  or :   -Inf eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  45.0, longitude 180.0.

 REED : The energy degradation is computed from the center energies of the grid.
 REED : The energy degradation source term is interpolated linearly with tau.
 REED : The albedo at  80. km is set to 1.00
 REED : The low energy phase function is taken from Porter
 REED : Secondary distribution from Rees et al., PSS 17, 1997, 1969           
 REED : Wiscombe's delta-M method IS applied

 MAIN : The screening parameter for the Rutherford phase function is calculated
        from the Bethe/Moliere formula for E > 500 eV

 MAIN : The energy grid covers the range from : 0.001 [eV] up to :   287.9 [eV].

 MAIN : The total energy input from the precipitation source is : 1.3018E-28 [eV/cm2/s]
                                                             or : 2.0858E-40 [erg/cm2/s]
                                  and from photoelectron source : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]

 MAIN : Total energy deposition in [CO2] is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 Total Heating :  6.961E-37 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  0.0000000E+00
 entot depart  6.96055753E-37  6.96055753E-37
 shsum :   0.0000000      6.96055753E-37   0.0000000       0.0000000    
 shsum :   0.0000000      6.96055753E-37   0.0000000       0.0000000    
 shsum :   0.0000000      6.96055753E-37   0.0000000       0.0000000    
 shsum :   0.0000000      6.96055753E-37   0.0000000       0.0000000    
 shsum :   0.0000000      6.96055753E-37   0.0000000       0.0000000    
 shsum :   0.0000000      6.96055753E-37   0.0000000       0.0000000    
 fin  6.96055753E-37   0.0000000           +Infinity
       +Infinity
       -Infinity       +Infinity
 ezero   0.0000000    
  6.96055753E-37
       +Infinity

Total energy input of :1.302E-28 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 6.961E-37 is absorbed (entot) 
                         through inelastic collisions (shsum =0.000E+00)
                                           + heating (elhsum =6.961E-37)
 This refers to an energy gain of   +Inf %


 The average E. loss per ion pair is :   +Inf eV (from qtoteV)
                                  or :   +Inf eV (from (entot))
                                  or :   -Inf eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  50.0, longitude 180.0.

 REED : The energy degradation is computed from the center energies of the grid.
 REED : The energy degradation source term is interpolated linearly with tau.
 REED : The albedo at  80. km is set to 1.00
 REED : The low energy phase function is taken from Porter
 REED : Secondary distribution from Rees et al., PSS 17, 1997, 1969           
 REED : Wiscombe's delta-M method IS applied

 MAIN : The screening parameter for the Rutherford phase function is calculated
        from the Bethe/Moliere formula for E > 500 eV

 MAIN : The energy grid covers the range from : 0.001 [eV] up to :   287.9 [eV].

 MAIN : The total energy input from the precipitation source is : 1.3018E-28 [eV/cm2/s]
                                                             or : 2.0858E-40 [erg/cm2/s]
                                  and from photoelectron source : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]

 MAIN : Total energy deposition in [CO2] is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 Total Heating :  7.007E-37 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  0.0000000E+00
 entot depart  7.00714163E-37  7.00714163E-37
 shsum :   0.0000000      7.00714163E-37   0.0000000       0.0000000    
 shsum :   0.0000000      7.00714163E-37   0.0000000       0.0000000    
 shsum :   0.0000000      7.00714163E-37   0.0000000       0.0000000    
 shsum :   0.0000000      7.00714163E-37   0.0000000       0.0000000    
 shsum :   0.0000000      7.00714163E-37   0.0000000       0.0000000    
 shsum :   0.0000000      7.00714163E-37   0.0000000       0.0000000    
 fin  7.00714163E-37   0.0000000           +Infinity
       +Infinity
       -Infinity       +Infinity
 ezero   0.0000000    
  7.00714163E-37
       +Infinity

Total energy input of :1.302E-28 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 7.007E-37 is absorbed (entot) 
                         through inelastic collisions (shsum =0.000E+00)
                                           + heating (elhsum =7.007E-37)
 This refers to an energy gain of   +Inf %


 The average E. loss per ion pair is :   +Inf eV (from qtoteV)
                                  or :   +Inf eV (from (entot))
                                  or :   -Inf eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  55.0, longitude 180.0.

 REED : The energy degradation is computed from the center energies of the grid.
 REED : The energy degradation source term is interpolated linearly with tau.
 REED : The albedo at  80. km is set to 1.00
 REED : The low energy phase function is taken from Porter
 REED : Secondary distribution from Rees et al., PSS 17, 1997, 1969           
 REED : Wiscombe's delta-M method IS applied

 MAIN : The screening parameter for the Rutherford phase function is calculated
        from the Bethe/Moliere formula for E > 500 eV

 MAIN : The energy grid covers the range from : 0.001 [eV] up to :   287.9 [eV].

 MAIN : The total energy input from the precipitation source is : 1.3018E-28 [eV/cm2/s]
                                                             or : 2.0858E-40 [erg/cm2/s]
                                  and from photoelectron source : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]

 MAIN : Total energy deposition in [CO2] is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 Total Heating :  7.087E-37 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  0.0000000E+00
 entot depart  7.08671296E-37  7.08671296E-37
 shsum :   0.0000000      7.08671296E-37   0.0000000       0.0000000    
 shsum :   0.0000000      7.08671296E-37   0.0000000       0.0000000    
 shsum :   0.0000000      7.08671296E-37   0.0000000       0.0000000    
 shsum :   0.0000000      7.08671296E-37   0.0000000       0.0000000    
 shsum :   0.0000000      7.08671296E-37   0.0000000       0.0000000    
 shsum :   0.0000000      7.08671296E-37   0.0000000       0.0000000    
 fin  7.08671296E-37   0.0000000           +Infinity
       +Infinity
       -Infinity       +Infinity
 ezero   0.0000000    
  7.08671296E-37
       +Infinity

Total energy input of :1.302E-28 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 7.087E-37 is absorbed (entot) 
                         through inelastic collisions (shsum =0.000E+00)
                                           + heating (elhsum =7.087E-37)
 This refers to an energy gain of   +Inf %


 The average E. loss per ion pair is :   +Inf eV (from qtoteV)
                                  or :   +Inf eV (from (entot))
                                  or :   -Inf eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  60.0, longitude 180.0.

 REED : The energy degradation is computed from the center energies of the grid.
 REED : The energy degradation source term is interpolated linearly with tau.
 REED : The albedo at  80. km is set to 1.00
 REED : The low energy phase function is taken from Porter
 REED : Secondary distribution from Rees et al., PSS 17, 1997, 1969           
 REED : Wiscombe's delta-M method IS applied

 MAIN : The screening parameter for the Rutherford phase function is calculated
        from the Bethe/Moliere formula for E > 500 eV

 MAIN : The energy grid covers the range from : 0.001 [eV] up to :   287.9 [eV].

 MAIN : The total energy input from the precipitation source is : 1.3018E-28 [eV/cm2/s]
                                                             or : 2.0858E-40 [erg/cm2/s]
                                  and from photoelectron source : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]

 MAIN : Total energy deposition in [CO2] is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 Total Heating :  7.171E-37 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  0.0000000E+00
 entot depart  7.17148770E-37  7.17148770E-37
 shsum :   0.0000000      7.17148770E-37   0.0000000       0.0000000    
 shsum :   0.0000000      7.17148770E-37   0.0000000       0.0000000    
 shsum :   0.0000000      7.17148770E-37   0.0000000       0.0000000    
 shsum :   0.0000000      7.17148770E-37   0.0000000       0.0000000    
 shsum :   0.0000000      7.17148770E-37   0.0000000       0.0000000    
 shsum :   0.0000000      7.17148770E-37   0.0000000       0.0000000    
 fin  7.17148770E-37   0.0000000           +Infinity
       +Infinity
       -Infinity       +Infinity
 ezero   0.0000000    
  7.17148770E-37
       +Infinity

Total energy input of :1.302E-28 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 7.171E-37 is absorbed (entot) 
                         through inelastic collisions (shsum =0.000E+00)
                                           + heating (elhsum =7.171E-37)
 This refers to an energy gain of   +Inf %


 The average E. loss per ion pair is :   +Inf eV (from qtoteV)
                                  or :   +Inf eV (from (entot))
                                  or :   -Inf eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  45.0, longitude 185.0.

 REED : The energy degradation is computed from the center energies of the grid.
 REED : The energy degradation source term is interpolated linearly with tau.
 REED : The albedo at  80. km is set to 1.00
 REED : The low energy phase function is taken from Porter
 REED : Secondary distribution from Rees et al., PSS 17, 1997, 1969           
 REED : Wiscombe's delta-M method IS applied

 MAIN : The screening parameter for the Rutherford phase function is calculated
        from the Bethe/Moliere formula for E > 500 eV

 MAIN : The energy grid covers the range from : 0.001 [eV] up to :   287.9 [eV].

 MAIN : The total energy input from the precipitation source is : 1.3018E-28 [eV/cm2/s]
                                                             or : 2.0858E-40 [erg/cm2/s]
                                  and from photoelectron source : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]

 MAIN : Total energy deposition in [CO2] is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 Total Heating :  6.993E-37 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  0.0000000E+00
 entot depart  6.99295376E-37  6.99295376E-37
 shsum :   0.0000000      6.99295376E-37   0.0000000       0.0000000    
 shsum :   0.0000000      6.99295376E-37   0.0000000       0.0000000    
 shsum :   0.0000000      6.99295376E-37   0.0000000       0.0000000    
 shsum :   0.0000000      6.99295376E-37   0.0000000       0.0000000    
 shsum :   0.0000000      6.99295376E-37   0.0000000       0.0000000    
 shsum :   0.0000000      6.99295376E-37   0.0000000       0.0000000    
 fin  6.99295376E-37   0.0000000           +Infinity
       +Infinity
       -Infinity       +Infinity
 ezero   0.0000000    
  6.99295376E-37
       +Infinity

Total energy input of :1.302E-28 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 6.993E-37 is absorbed (entot) 
                         through inelastic collisions (shsum =0.000E+00)
                                           + heating (elhsum =6.993E-37)
 This refers to an energy gain of   +Inf %


 The average E. loss per ion pair is :   +Inf eV (from qtoteV)
                                  or :   +Inf eV (from (entot))
                                  or :   -Inf eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  50.0, longitude 185.0.

 REED : The energy degradation is computed from the center energies of the grid.
 REED : The energy degradation source term is interpolated linearly with tau.
 REED : The albedo at  80. km is set to 1.00
 REED : The low energy phase function is taken from Porter
 REED : Secondary distribution from Rees et al., PSS 17, 1997, 1969           
 REED : Wiscombe's delta-M method IS applied

 MAIN : The screening parameter for the Rutherford phase function is calculated
        from the Bethe/Moliere formula for E > 500 eV

 MAIN : The energy grid covers the range from : 0.001 [eV] up to :   287.9 [eV].

 MAIN : The total energy input from the precipitation source is : 1.3018E-28 [eV/cm2/s]
                                                             or : 2.0858E-40 [erg/cm2/s]
                                  and from photoelectron source : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]

 MAIN : Total energy deposition in [CO2] is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 Total Heating :  7.040E-37 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  0.0000000E+00
 entot depart  7.03989255E-37  7.03989255E-37
 shsum :   0.0000000      7.03989255E-37   0.0000000       0.0000000    
 shsum :   0.0000000      7.03989255E-37   0.0000000       0.0000000    
 shsum :   0.0000000      7.03989255E-37   0.0000000       0.0000000    
 shsum :   0.0000000      7.03989255E-37   0.0000000       0.0000000    
 shsum :   0.0000000      7.03989255E-37   0.0000000       0.0000000    
 shsum :   0.0000000      7.03989255E-37   0.0000000       0.0000000    
 fin  7.03989255E-37   0.0000000           +Infinity
       +Infinity
       -Infinity       +Infinity
 ezero   0.0000000    
  7.03989255E-37
       +Infinity

Total energy input of :1.302E-28 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 7.040E-37 is absorbed (entot) 
                         through inelastic collisions (shsum =0.000E+00)
                                           + heating (elhsum =7.040E-37)
 This refers to an energy gain of   +Inf %


 The average E. loss per ion pair is :   +Inf eV (from qtoteV)
                                  or :   +Inf eV (from (entot))
                                  or :   -Inf eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  55.0, longitude 185.0.

 REED : The energy degradation is computed from the center energies of the grid.
 REED : The energy degradation source term is interpolated linearly with tau.
 REED : The albedo at  80. km is set to 1.00
 REED : The low energy phase function is taken from Porter
 REED : Secondary distribution from Rees et al., PSS 17, 1997, 1969           
 REED : Wiscombe's delta-M method IS applied

 MAIN : The screening parameter for the Rutherford phase function is calculated
        from the Bethe/Moliere formula for E > 500 eV

 MAIN : The energy grid covers the range from : 0.001 [eV] up to :   287.9 [eV].

 MAIN : The total energy input from the precipitation source is : 1.3018E-28 [eV/cm2/s]
                                                             or : 2.0858E-40 [erg/cm2/s]
                                  and from photoelectron source : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]

 MAIN : Total energy deposition in [CO2] is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 Total Heating :  7.148E-37 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  0.0000000E+00
 entot depart  7.14784096E-37  7.14784096E-37
 shsum :   0.0000000      7.14784096E-37   0.0000000       0.0000000    
 shsum :   0.0000000      7.14784096E-37   0.0000000       0.0000000    
 shsum :   0.0000000      7.14784096E-37   0.0000000       0.0000000    
 shsum :   0.0000000      7.14784096E-37   0.0000000       0.0000000    
 shsum :   0.0000000      7.14784096E-37   0.0000000       0.0000000    
 shsum :   0.0000000      7.14784096E-37   0.0000000       0.0000000    
 fin  7.14784096E-37   0.0000000           +Infinity
       +Infinity
       -Infinity       +Infinity
 ezero   0.0000000    
  7.14784096E-37
       +Infinity

Total energy input of :1.302E-28 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 7.148E-37 is absorbed (entot) 
                         through inelastic collisions (shsum =0.000E+00)
                                           + heating (elhsum =7.148E-37)
 This refers to an energy gain of   +Inf %


 The average E. loss per ion pair is :   +Inf eV (from qtoteV)
                                  or :   +Inf eV (from (entot))
                                  or :   -Inf eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  60.0, longitude 185.0.

 REED : The energy degradation is computed from the center energies of the grid.
 REED : The energy degradation source term is interpolated linearly with tau.
 REED : The albedo at  80. km is set to 1.00
 REED : The low energy phase function is taken from Porter
 REED : Secondary distribution from Rees et al., PSS 17, 1997, 1969           
 REED : Wiscombe's delta-M method IS applied

 MAIN : The screening parameter for the Rutherford phase function is calculated
        from the Bethe/Moliere formula for E > 500 eV

 MAIN : The energy grid covers the range from : 0.001 [eV] up to :   287.9 [eV].

 MAIN : The total energy input from the precipitation source is : 1.3018E-28 [eV/cm2/s]
                                                             or : 2.0858E-40 [erg/cm2/s]
                                  and from photoelectron source : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]

 MAIN : Total energy deposition in [CO2] is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 Total Heating :  7.205E-37 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  0.0000000E+00
 entot depart  7.20482964E-37  7.20482964E-37
 shsum :   0.0000000      7.20482964E-37   0.0000000       0.0000000    
 shsum :   0.0000000      7.20482964E-37   0.0000000       0.0000000    
 shsum :   0.0000000      7.20482964E-37   0.0000000       0.0000000    
 shsum :   0.0000000      7.20482964E-37   0.0000000       0.0000000    
 shsum :   0.0000000      7.20482964E-37   0.0000000       0.0000000    
 shsum :   0.0000000      7.20482964E-37   0.0000000       0.0000000    
 fin  7.20482964E-37   0.0000000           +Infinity
       +Infinity
       -Infinity       +Infinity
 ezero   0.0000000    
  7.20482964E-37
       +Infinity

Total energy input of :1.302E-28 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 7.205E-37 is absorbed (entot) 
                         through inelastic collisions (shsum =0.000E+00)
                                           + heating (elhsum =7.205E-37)
 This refers to an energy gain of   +Inf %


 The average E. loss per ion pair is :   +Inf eV (from qtoteV)
                                  or :   +Inf eV (from (entot))
                                  or :   -Inf eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  45.0, longitude 190.0.

 REED : The energy degradation is computed from the center energies of the grid.
 REED : The energy degradation source term is interpolated linearly with tau.
 REED : The albedo at  80. km is set to 1.00
 REED : The low energy phase function is taken from Porter
 REED : Secondary distribution from Rees et al., PSS 17, 1997, 1969           
 REED : Wiscombe's delta-M method IS applied

 MAIN : The screening parameter for the Rutherford phase function is calculated
        from the Bethe/Moliere formula for E > 500 eV

 MAIN : The energy grid covers the range from : 0.001 [eV] up to :   287.9 [eV].

 MAIN : The total energy input from the precipitation source is : 1.3018E-28 [eV/cm2/s]
                                                             or : 2.0858E-40 [erg/cm2/s]
                                  and from photoelectron source : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]

 MAIN : Total energy deposition in [CO2] is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 Total Heating :  7.025E-37 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  0.0000000E+00
 entot depart  7.02487646E-37  7.02487646E-37
 shsum :   0.0000000      7.02487646E-37   0.0000000       0.0000000    
 shsum :   0.0000000      7.02487646E-37   0.0000000       0.0000000    
 shsum :   0.0000000      7.02487646E-37   0.0000000       0.0000000    
 shsum :   0.0000000      7.02487646E-37   0.0000000       0.0000000    
 shsum :   0.0000000      7.02487646E-37   0.0000000       0.0000000    
 shsum :   0.0000000      7.02487646E-37   0.0000000       0.0000000    
 fin  7.02487646E-37   0.0000000           +Infinity
       +Infinity
       -Infinity       +Infinity
 ezero   0.0000000    
  7.02487646E-37
       +Infinity

Total energy input of :1.302E-28 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 7.025E-37 is absorbed (entot) 
                         through inelastic collisions (shsum =0.000E+00)
                                           + heating (elhsum =7.025E-37)
 This refers to an energy gain of   +Inf %


 The average E. loss per ion pair is :   +Inf eV (from qtoteV)
                                  or :   +Inf eV (from (entot))
                                  or :   -Inf eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  50.0, longitude 190.0.

 REED : The energy degradation is computed from the center energies of the grid.
 REED : The energy degradation source term is interpolated linearly with tau.
 REED : The albedo at  80. km is set to 1.00
 REED : The low energy phase function is taken from Porter
 REED : Secondary distribution from Rees et al., PSS 17, 1997, 1969           
 REED : Wiscombe's delta-M method IS applied

 MAIN : The screening parameter for the Rutherford phase function is calculated
        from the Bethe/Moliere formula for E > 500 eV

 MAIN : The energy grid covers the range from : 0.001 [eV] up to :   287.9 [eV].

 MAIN : The total energy input from the precipitation source is : 1.3018E-28 [eV/cm2/s]
                                                             or : 2.0858E-40 [erg/cm2/s]
                                  and from photoelectron source : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]

 MAIN : Total energy deposition in [CO2] is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 Total Heating :  7.118E-37 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  0.0000000E+00
 entot depart  7.11839979E-37  7.11839979E-37
 shsum :   0.0000000      7.11839979E-37   0.0000000       0.0000000    
 shsum :   0.0000000      7.11839979E-37   0.0000000       0.0000000    
 shsum :   0.0000000      7.11839979E-37   0.0000000       0.0000000    
 shsum :   0.0000000      7.11839979E-37   0.0000000       0.0000000    
 shsum :   0.0000000      7.11839979E-37   0.0000000       0.0000000    
 shsum :   0.0000000      7.11839979E-37   0.0000000       0.0000000    
 fin  7.11839979E-37   0.0000000           +Infinity
       +Infinity
       -Infinity       +Infinity
 ezero   0.0000000    
  7.11839979E-37
       +Infinity

Total energy input of :1.302E-28 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 7.118E-37 is absorbed (entot) 
                         through inelastic collisions (shsum =0.000E+00)
                                           + heating (elhsum =7.118E-37)
 This refers to an energy gain of   +Inf %


 The average E. loss per ion pair is :   +Inf eV (from qtoteV)
                                  or :   +Inf eV (from (entot))
                                  or :   -Inf eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  55.0, longitude 190.0.

 REED : The energy degradation is computed from the center energies of the grid.
 REED : The energy degradation source term is interpolated linearly with tau.
 REED : The albedo at  80. km is set to 1.00
 REED : The low energy phase function is taken from Porter
 REED : Secondary distribution from Rees et al., PSS 17, 1997, 1969           
 REED : Wiscombe's delta-M method IS applied

 MAIN : The screening parameter for the Rutherford phase function is calculated
        from the Bethe/Moliere formula for E > 500 eV

 MAIN : The energy grid covers the range from : 0.001 [eV] up to :   287.9 [eV].

 MAIN : The total energy input from the precipitation source is : 1.3018E-28 [eV/cm2/s]
                                                             or : 2.0858E-40 [erg/cm2/s]
                                  and from photoelectron source : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]

 MAIN : Total energy deposition in [CO2] is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 Total Heating :  7.189E-37 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  0.0000000E+00
 entot depart  7.18945930E-37  7.18945930E-37
 shsum :   0.0000000      7.18945930E-37   0.0000000       0.0000000    
 shsum :   0.0000000      7.18945930E-37   0.0000000       0.0000000    
 shsum :   0.0000000      7.18945930E-37   0.0000000       0.0000000    
 shsum :   0.0000000      7.18945930E-37   0.0000000       0.0000000    
 shsum :   0.0000000      7.18945930E-37   0.0000000       0.0000000    
 shsum :   0.0000000      7.18945930E-37   0.0000000       0.0000000    
 fin  7.18945930E-37   0.0000000           +Infinity
       +Infinity
       -Infinity       +Infinity
 ezero   0.0000000    
  7.18945930E-37
       +Infinity

Total energy input of :1.302E-28 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 7.189E-37 is absorbed (entot) 
                         through inelastic collisions (shsum =0.000E+00)
                                           + heating (elhsum =7.189E-37)
 This refers to an energy gain of   +Inf %


 The average E. loss per ion pair is :   +Inf eV (from qtoteV)
                                  or :   +Inf eV (from (entot))
                                  or :   -Inf eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  60.0, longitude 190.0.

 REED : The energy degradation is computed from the center energies of the grid.
 REED : The energy degradation source term is interpolated linearly with tau.
 REED : The albedo at  80. km is set to 1.00
 REED : The low energy phase function is taken from Porter
 REED : Secondary distribution from Rees et al., PSS 17, 1997, 1969           
 REED : Wiscombe's delta-M method IS applied

 MAIN : The screening parameter for the Rutherford phase function is calculated
        from the Bethe/Moliere formula for E > 500 eV

 MAIN : The energy grid covers the range from : 0.001 [eV] up to :   287.9 [eV].

 MAIN : The total energy input from the precipitation source is : 1.3018E-28 [eV/cm2/s]
                                                             or : 2.0858E-40 [erg/cm2/s]
                                  and from photoelectron source : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]

 MAIN : Total energy deposition in [CO2] is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 Total Heating :  7.237E-37 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  0.0000000E+00
 entot depart  7.23746263E-37  7.23746263E-37
 shsum :   0.0000000      7.23746263E-37   0.0000000       0.0000000    
 shsum :   0.0000000      7.23746263E-37   0.0000000       0.0000000    
 shsum :   0.0000000      7.23746263E-37   0.0000000       0.0000000    
 shsum :   0.0000000      7.23746263E-37   0.0000000       0.0000000    
 shsum :   0.0000000      7.23746263E-37   0.0000000       0.0000000    
 shsum :   0.0000000      7.23746263E-37   0.0000000       0.0000000    
 fin  7.23746263E-37   0.0000000           +Infinity
       +Infinity
       -Infinity       +Infinity
 ezero   0.0000000    
  7.23746263E-37
       +Infinity

Total energy input of :1.302E-28 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 7.237E-37 is absorbed (entot) 
                         through inelastic collisions (shsum =0.000E+00)
                                           + heating (elhsum =7.237E-37)
 This refers to an energy gain of   +Inf %


 The average E. loss per ion pair is :   +Inf eV (from qtoteV)
                                  or :   +Inf eV (from (entot))
                                  or :   -Inf eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  45.0, longitude 195.0.

 REED : The energy degradation is computed from the center energies of the grid.
 REED : The energy degradation source term is interpolated linearly with tau.
 REED : The albedo at  80. km is set to 1.00
 REED : The low energy phase function is taken from Porter
 REED : Secondary distribution from Rees et al., PSS 17, 1997, 1969           
 REED : Wiscombe's delta-M method IS applied

 MAIN : The screening parameter for the Rutherford phase function is calculated
        from the Bethe/Moliere formula for E > 500 eV

 MAIN : The energy grid covers the range from : 0.001 [eV] up to :   287.9 [eV].

 MAIN : The total energy input from the precipitation source is : 1.3018E-28 [eV/cm2/s]
                                                             or : 2.0858E-40 [erg/cm2/s]
                                  and from photoelectron source : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]

 MAIN : Total energy deposition in [CO2] is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 Total Heating :  7.079E-37 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  0.0000000E+00
 entot depart  7.07926433E-37  7.07926433E-37
 shsum :   0.0000000      7.07926433E-37   0.0000000       0.0000000    
 shsum :   0.0000000      7.07926433E-37   0.0000000       0.0000000    
 shsum :   0.0000000      7.07926433E-37   0.0000000       0.0000000    
 shsum :   0.0000000      7.07926433E-37   0.0000000       0.0000000    
 shsum :   0.0000000      7.07926433E-37   0.0000000       0.0000000    
 shsum :   0.0000000      7.07926433E-37   0.0000000       0.0000000    
 fin  7.07926433E-37   0.0000000           +Infinity
       +Infinity
       -Infinity       +Infinity
 ezero   0.0000000    
  7.07926433E-37
       +Infinity

Total energy input of :1.302E-28 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 7.079E-37 is absorbed (entot) 
                         through inelastic collisions (shsum =0.000E+00)
                                           + heating (elhsum =7.079E-37)
 This refers to an energy gain of   +Inf %


 The average E. loss per ion pair is :   +Inf eV (from qtoteV)
                                  or :   +Inf eV (from (entot))
                                  or :   -Inf eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  50.0, longitude 195.0.

 REED : The energy degradation is computed from the center energies of the grid.
 REED : The energy degradation source term is interpolated linearly with tau.
 REED : The albedo at  80. km is set to 1.00
 REED : The low energy phase function is taken from Porter
 REED : Secondary distribution from Rees et al., PSS 17, 1997, 1969           
 REED : Wiscombe's delta-M method IS applied

 MAIN : The screening parameter for the Rutherford phase function is calculated
        from the Bethe/Moliere formula for E > 500 eV

 MAIN : The energy grid covers the range from : 0.001 [eV] up to :   287.9 [eV].

 MAIN : The total energy input from the precipitation source is : 1.3018E-28 [eV/cm2/s]
                                                             or : 2.0858E-40 [erg/cm2/s]
                                  and from photoelectron source : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]

 MAIN : Total energy deposition in [CO2] is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 Total Heating :  7.164E-37 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  0.0000000E+00
 entot depart  7.16392114E-37  7.16392114E-37
 shsum :   0.0000000      7.16392114E-37   0.0000000       0.0000000    
 shsum :   0.0000000      7.16392114E-37   0.0000000       0.0000000    
 shsum :   0.0000000      7.16392114E-37   0.0000000       0.0000000    
 shsum :   0.0000000      7.16392114E-37   0.0000000       0.0000000    
 shsum :   0.0000000      7.16392114E-37   0.0000000       0.0000000    
 shsum :   0.0000000      7.16392114E-37   0.0000000       0.0000000    
 fin  7.16392114E-37   0.0000000           +Infinity
       +Infinity
       -Infinity       +Infinity
 ezero   0.0000000    
  7.16392114E-37
       +Infinity

Total energy input of :1.302E-28 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 7.164E-37 is absorbed (entot) 
                         through inelastic collisions (shsum =0.000E+00)
                                           + heating (elhsum =7.164E-37)
 This refers to an energy gain of   +Inf %


 The average E. loss per ion pair is :   +Inf eV (from qtoteV)
                                  or :   +Inf eV (from (entot))
                                  or :   -Inf eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  55.0, longitude 195.0.

 REED : The energy degradation is computed from the center energies of the grid.
 REED : The energy degradation source term is interpolated linearly with tau.
 REED : The albedo at  80. km is set to 1.00
 REED : The low energy phase function is taken from Porter
 REED : Secondary distribution from Rees et al., PSS 17, 1997, 1969           
 REED : Wiscombe's delta-M method IS applied

 MAIN : The screening parameter for the Rutherford phase function is calculated
        from the Bethe/Moliere formula for E > 500 eV

 MAIN : The energy grid covers the range from : 0.001 [eV] up to :   287.9 [eV].

 MAIN : The total energy input from the precipitation source is : 1.3018E-28 [eV/cm2/s]
                                                             or : 2.0858E-40 [erg/cm2/s]
                                  and from photoelectron source : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]

 MAIN : Total energy deposition in [CO2] is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 Total Heating :  7.229E-37 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  0.0000000E+00
 entot depart  7.22918623E-37  7.22918623E-37
 shsum :   0.0000000      7.22918623E-37   0.0000000       0.0000000    
 shsum :   0.0000000      7.22918623E-37   0.0000000       0.0000000    
 shsum :   0.0000000      7.22918623E-37   0.0000000       0.0000000    
 shsum :   0.0000000      7.22918623E-37   0.0000000       0.0000000    
 shsum :   0.0000000      7.22918623E-37   0.0000000       0.0000000    
 shsum :   0.0000000      7.22918623E-37   0.0000000       0.0000000    
 fin  7.22918623E-37   0.0000000           +Infinity
       +Infinity
       -Infinity       +Infinity
 ezero   0.0000000    
  7.22918623E-37
       +Infinity

Total energy input of :1.302E-28 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 7.229E-37 is absorbed (entot) 
                         through inelastic collisions (shsum =0.000E+00)
                                           + heating (elhsum =7.229E-37)
 This refers to an energy gain of   +Inf %


 The average E. loss per ion pair is :   +Inf eV (from qtoteV)
                                  or :   +Inf eV (from (entot))
                                  or :   -Inf eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  60.0, longitude 195.0.

 REED : The energy degradation is computed from the center energies of the grid.
 REED : The energy degradation source term is interpolated linearly with tau.
 REED : The albedo at  80. km is set to 1.00
 REED : The low energy phase function is taken from Porter
 REED : Secondary distribution from Rees et al., PSS 17, 1997, 1969           
 REED : Wiscombe's delta-M method IS applied

 MAIN : The screening parameter for the Rutherford phase function is calculated
        from the Bethe/Moliere formula for E > 500 eV

 MAIN : The energy grid covers the range from : 0.001 [eV] up to :   287.9 [eV].

 MAIN : The total energy input from the precipitation source is : 1.3018E-28 [eV/cm2/s]
                                                             or : 2.0858E-40 [erg/cm2/s]
                                  and from photoelectron source : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]

 MAIN : Total energy deposition in [CO2] is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 Total Heating :  7.285E-37 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  0.0000000E+00
 entot depart  7.28522875E-37  7.28522875E-37
 shsum :   0.0000000      7.28522875E-37   0.0000000       0.0000000    
 shsum :   0.0000000      7.28522875E-37   0.0000000       0.0000000    
 shsum :   0.0000000      7.28522875E-37   0.0000000       0.0000000    
 shsum :   0.0000000      7.28522875E-37   0.0000000       0.0000000    
 shsum :   0.0000000      7.28522875E-37   0.0000000       0.0000000    
 shsum :   0.0000000      7.28522875E-37   0.0000000       0.0000000    
 fin  7.28522875E-37   0.0000000           +Infinity
       +Infinity
       -Infinity       +Infinity
 ezero   0.0000000    
  7.28522875E-37
       +Infinity

Total energy input of :1.302E-28 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 7.285E-37 is absorbed (entot) 
                         through inelastic collisions (shsum =0.000E+00)
                                           + heating (elhsum =7.285E-37)
 This refers to an energy gain of   +Inf %


 The average E. loss per ion pair is :   +Inf eV (from qtoteV)
                                  or :   +Inf eV (from (entot))
                                  or :   -Inf eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  45.0, longitude 200.0.

 REED : The energy degradation is computed from the center energies of the grid.
 REED : The energy degradation source term is interpolated linearly with tau.
 REED : The albedo at  80. km is set to 1.00
 REED : The low energy phase function is taken from Porter
 REED : Secondary distribution from Rees et al., PSS 17, 1997, 1969           
 REED : Wiscombe's delta-M method IS applied

 MAIN : The screening parameter for the Rutherford phase function is calculated
        from the Bethe/Moliere formula for E > 500 eV

 MAIN : The energy grid covers the range from : 0.001 [eV] up to :   287.9 [eV].

 MAIN : The total energy input from the precipitation source is : 1.3018E-28 [eV/cm2/s]
                                                             or : 2.0858E-40 [erg/cm2/s]
                                  and from photoelectron source : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]

 MAIN : Total energy deposition in [CO2] is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 Total Heating :  7.149E-37 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  0.0000000E+00
 entot depart  7.14925930E-37  7.14925930E-37
 shsum :   0.0000000      7.14925930E-37   0.0000000       0.0000000    
 shsum :   0.0000000      7.14925930E-37   0.0000000       0.0000000    
 shsum :   0.0000000      7.14925930E-37   0.0000000       0.0000000    
 shsum :   0.0000000      7.14925930E-37   0.0000000       0.0000000    
 shsum :   0.0000000      7.14925930E-37   0.0000000       0.0000000    
 shsum :   0.0000000      7.14925930E-37   0.0000000       0.0000000    
 fin  7.14925930E-37   0.0000000           +Infinity
       +Infinity
       -Infinity       +Infinity
 ezero   0.0000000    
  7.14925930E-37
       +Infinity

Total energy input of :1.302E-28 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 7.149E-37 is absorbed (entot) 
                         through inelastic collisions (shsum =0.000E+00)
                                           + heating (elhsum =7.149E-37)
 This refers to an energy gain of   +Inf %


 The average E. loss per ion pair is :   +Inf eV (from qtoteV)
                                  or :   +Inf eV (from (entot))
                                  or :   -Inf eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  50.0, longitude 200.0.

 REED : The energy degradation is computed from the center energies of the grid.
 REED : The energy degradation source term is interpolated linearly with tau.
 REED : The albedo at  80. km is set to 1.00
 REED : The low energy phase function is taken from Porter
 REED : Secondary distribution from Rees et al., PSS 17, 1997, 1969           
 REED : Wiscombe's delta-M method IS applied

 MAIN : The screening parameter for the Rutherford phase function is calculated
        from the Bethe/Moliere formula for E > 500 eV

 MAIN : The energy grid covers the range from : 0.001 [eV] up to :   287.9 [eV].

 MAIN : The total energy input from the precipitation source is : 1.3018E-28 [eV/cm2/s]
                                                             or : 2.0858E-40 [erg/cm2/s]
                                  and from photoelectron source : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]

 MAIN : Total energy deposition in [CO2] is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 Total Heating :  7.222E-37 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  0.0000000E+00
 entot depart  7.22161921E-37  7.22161921E-37
 shsum :   0.0000000      7.22161921E-37   0.0000000       0.0000000    
 shsum :   0.0000000      7.22161921E-37   0.0000000       0.0000000    
 shsum :   0.0000000      7.22161921E-37   0.0000000       0.0000000    
 shsum :   0.0000000      7.22161921E-37   0.0000000       0.0000000    
 shsum :   0.0000000      7.22161921E-37   0.0000000       0.0000000    
 shsum :   0.0000000      7.22161921E-37   0.0000000       0.0000000    
 fin  7.22161921E-37   0.0000000           +Infinity
       +Infinity
       -Infinity       +Infinity
 ezero   0.0000000    
  7.22161921E-37
       +Infinity

Total energy input of :1.302E-28 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 7.222E-37 is absorbed (entot) 
                         through inelastic collisions (shsum =0.000E+00)
                                           + heating (elhsum =7.222E-37)
 This refers to an energy gain of   +Inf %


 The average E. loss per ion pair is :   +Inf eV (from qtoteV)
                                  or :   +Inf eV (from (entot))
                                  or :   -Inf eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  55.0, longitude 200.0.

 REED : The energy degradation is computed from the center energies of the grid.
 REED : The energy degradation source term is interpolated linearly with tau.
 REED : The albedo at  80. km is set to 1.00
 REED : The low energy phase function is taken from Porter
 REED : Secondary distribution from Rees et al., PSS 17, 1997, 1969           
 REED : Wiscombe's delta-M method IS applied

 MAIN : The screening parameter for the Rutherford phase function is calculated
        from the Bethe/Moliere formula for E > 500 eV

 MAIN : The energy grid covers the range from : 0.001 [eV] up to :   287.9 [eV].

 MAIN : The total energy input from the precipitation source is : 1.3018E-28 [eV/cm2/s]
                                                             or : 2.0858E-40 [erg/cm2/s]
                                  and from photoelectron source : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]

 MAIN : Total energy deposition in [CO2] is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 Total Heating :  7.278E-37 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  0.0000000E+00
 entot depart  7.27766218E-37  7.27766218E-37
 shsum :   0.0000000      7.27766218E-37   0.0000000       0.0000000    
 shsum :   0.0000000      7.27766218E-37   0.0000000       0.0000000    
 shsum :   0.0000000      7.27766218E-37   0.0000000       0.0000000    
 shsum :   0.0000000      7.27766218E-37   0.0000000       0.0000000    
 shsum :   0.0000000      7.27766218E-37   0.0000000       0.0000000    
 shsum :   0.0000000      7.27766218E-37   0.0000000       0.0000000    
 fin  7.27766218E-37   0.0000000           +Infinity
       +Infinity
       -Infinity       +Infinity
 ezero   0.0000000    
  7.27766218E-37
       +Infinity

Total energy input of :1.302E-28 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 7.278E-37 is absorbed (entot) 
                         through inelastic collisions (shsum =0.000E+00)
                                           + heating (elhsum =7.278E-37)
 This refers to an energy gain of   +Inf %


 The average E. loss per ion pair is :   +Inf eV (from qtoteV)
                                  or :   +Inf eV (from (entot))
                                  or :   -Inf eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  60.0, longitude 200.0.

 REED : The energy degradation is computed from the center energies of the grid.
 REED : The energy degradation source term is interpolated linearly with tau.
 REED : The albedo at  80. km is set to 1.00
 REED : The low energy phase function is taken from Porter
 REED : Secondary distribution from Rees et al., PSS 17, 1997, 1969           
 REED : Wiscombe's delta-M method IS applied

 MAIN : The screening parameter for the Rutherford phase function is calculated
        from the Bethe/Moliere formula for E > 500 eV

 MAIN : The energy grid covers the range from : 0.001 [eV] up to :   287.9 [eV].

 MAIN : The total energy input from the precipitation source is : 1.3018E-28 [eV/cm2/s]
                                                             or : 2.0858E-40 [erg/cm2/s]
                                  and from photoelectron source : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]

 MAIN : Total energy deposition in [CO2] is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 Total Heating :  7.317E-37 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  0.0000000E+00
 entot depart  7.31703396E-37  7.31703396E-37
 shsum :   0.0000000      7.31703396E-37   0.0000000       0.0000000    
 shsum :   0.0000000      7.31703396E-37   0.0000000       0.0000000    
 shsum :   0.0000000      7.31703396E-37   0.0000000       0.0000000    
 shsum :   0.0000000      7.31703396E-37   0.0000000       0.0000000    
 shsum :   0.0000000      7.31703396E-37   0.0000000       0.0000000    
 shsum :   0.0000000      7.31703396E-37   0.0000000       0.0000000    
 fin  7.31703396E-37   0.0000000           +Infinity
       +Infinity
       -Infinity       +Infinity
 ezero   0.0000000    
  7.31703396E-37
       +Infinity

Total energy input of :1.302E-28 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 7.317E-37 is absorbed (entot) 
                         through inelastic collisions (shsum =0.000E+00)
                                           + heating (elhsum =7.317E-37)
 This refers to an energy gain of   +Inf %


 The average E. loss per ion pair is :   +Inf eV (from qtoteV)
                                  or :   +Inf eV (from (entot))
                                  or :   -Inf eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  45.0, longitude 205.0.

 REED : The energy degradation is computed from the center energies of the grid.
 REED : The energy degradation source term is interpolated linearly with tau.
 REED : The albedo at  80. km is set to 1.00
 REED : The low energy phase function is taken from Porter
 REED : Secondary distribution from Rees et al., PSS 17, 1997, 1969           
 REED : Wiscombe's delta-M method IS applied

 MAIN : The screening parameter for the Rutherford phase function is calculated
        from the Bethe/Moliere formula for E > 500 eV

 MAIN : The energy grid covers the range from : 0.001 [eV] up to :   287.9 [eV].

 MAIN : The total energy input from the precipitation source is : 1.3018E-28 [eV/cm2/s]
                                                             or : 2.0858E-40 [erg/cm2/s]
                                  and from photoelectron source : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]

 MAIN : Total energy deposition in [CO2] is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 Total Heating :  7.206E-37 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  0.0000000E+00
 entot depart  7.20613049E-37  7.20613049E-37
 shsum :   0.0000000      7.20613049E-37   0.0000000       0.0000000    
 shsum :   0.0000000      7.20613049E-37   0.0000000       0.0000000    
 shsum :   0.0000000      7.20613049E-37   0.0000000       0.0000000    
 shsum :   0.0000000      7.20613049E-37   0.0000000       0.0000000    
 shsum :   0.0000000      7.20613049E-37   0.0000000       0.0000000    
 shsum :   0.0000000      7.20613049E-37   0.0000000       0.0000000    
 fin  7.20613049E-37   0.0000000           +Infinity
       +Infinity
       -Infinity       +Infinity
 ezero   0.0000000    
  7.20613049E-37
       +Infinity

Total energy input of :1.302E-28 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 7.206E-37 is absorbed (entot) 
                         through inelastic collisions (shsum =0.000E+00)
                                           + heating (elhsum =7.206E-37)
 This refers to an energy gain of   +Inf %


 The average E. loss per ion pair is :   +Inf eV (from qtoteV)
                                  or :   +Inf eV (from (entot))
                                  or :   -Inf eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  50.0, longitude 205.0.

 REED : The energy degradation is computed from the center energies of the grid.
 REED : The energy degradation source term is interpolated linearly with tau.
 REED : The albedo at  80. km is set to 1.00
 REED : The low energy phase function is taken from Porter
 REED : Secondary distribution from Rees et al., PSS 17, 1997, 1969           
 REED : Wiscombe's delta-M method IS applied

 MAIN : The screening parameter for the Rutherford phase function is calculated
        from the Bethe/Moliere formula for E > 500 eV

 MAIN : The energy grid covers the range from : 0.001 [eV] up to :   287.9 [eV].

 MAIN : The total energy input from the precipitation source is : 1.3018E-28 [eV/cm2/s]
                                                             or : 2.0858E-40 [erg/cm2/s]
                                  and from photoelectron source : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]

 MAIN : Total energy deposition in [CO2] is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 Total Heating :  7.270E-37 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  0.0000000E+00
 entot depart  7.27044987E-37  7.27044987E-37
 shsum :   0.0000000      7.27044987E-37   0.0000000       0.0000000    
 shsum :   0.0000000      7.27044987E-37   0.0000000       0.0000000    
 shsum :   0.0000000      7.27044987E-37   0.0000000       0.0000000    
 shsum :   0.0000000      7.27044987E-37   0.0000000       0.0000000    
 shsum :   0.0000000      7.27044987E-37   0.0000000       0.0000000    
 shsum :   0.0000000      7.27044987E-37   0.0000000       0.0000000    
 fin  7.27044987E-37   0.0000000           +Infinity
       +Infinity
       -Infinity       +Infinity
 ezero   0.0000000    
  7.27044987E-37
       +Infinity

Total energy input of :1.302E-28 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 7.270E-37 is absorbed (entot) 
                         through inelastic collisions (shsum =0.000E+00)
                                           + heating (elhsum =7.270E-37)
 This refers to an energy gain of   +Inf %


 The average E. loss per ion pair is :   +Inf eV (from qtoteV)
                                  or :   +Inf eV (from (entot))
                                  or :   -Inf eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  55.0, longitude 205.0.

 REED : The energy degradation is computed from the center energies of the grid.
 REED : The energy degradation source term is interpolated linearly with tau.
 REED : The albedo at  80. km is set to 1.00
 REED : The low energy phase function is taken from Porter
 REED : Secondary distribution from Rees et al., PSS 17, 1997, 1969           
 REED : Wiscombe's delta-M method IS applied

 MAIN : The screening parameter for the Rutherford phase function is calculated
        from the Bethe/Moliere formula for E > 500 eV

 MAIN : The energy grid covers the range from : 0.001 [eV] up to :   287.9 [eV].

 MAIN : The total energy input from the precipitation source is : 1.3018E-28 [eV/cm2/s]
                                                             or : 2.0858E-40 [erg/cm2/s]
                                  and from photoelectron source : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]

 MAIN : Total energy deposition in [CO2] is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 Total Heating :  7.310E-37 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  0.0000000E+00
 entot depart  7.31005796E-37  7.31005796E-37
 shsum :   0.0000000      7.31005796E-37   0.0000000       0.0000000    
 shsum :   0.0000000      7.31005796E-37   0.0000000       0.0000000    
 shsum :   0.0000000      7.31005796E-37   0.0000000       0.0000000    
 shsum :   0.0000000      7.31005796E-37   0.0000000       0.0000000    
 shsum :   0.0000000      7.31005796E-37   0.0000000       0.0000000    
 shsum :   0.0000000      7.31005796E-37   0.0000000       0.0000000    
 fin  7.31005796E-37   0.0000000           +Infinity
       +Infinity
       -Infinity       +Infinity
 ezero   0.0000000    
  7.31005796E-37
       +Infinity

Total energy input of :1.302E-28 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 7.310E-37 is absorbed (entot) 
                         through inelastic collisions (shsum =0.000E+00)
                                           + heating (elhsum =7.310E-37)
 This refers to an energy gain of   +Inf %


 The average E. loss per ion pair is :   +Inf eV (from qtoteV)
                                  or :   +Inf eV (from (entot))
                                  or :   -Inf eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  60.0, longitude 205.0.

 REED : The energy degradation is computed from the center energies of the grid.
 REED : The energy degradation source term is interpolated linearly with tau.
 REED : The albedo at  80. km is set to 1.00
 REED : The low energy phase function is taken from Porter
 REED : Secondary distribution from Rees et al., PSS 17, 1997, 1969           
 REED : Wiscombe's delta-M method IS applied

 MAIN : The screening parameter for the Rutherford phase function is calculated
        from the Bethe/Moliere formula for E > 500 eV

 MAIN : The energy grid covers the range from : 0.001 [eV] up to :   287.9 [eV].

 MAIN : The total energy input from the precipitation source is : 1.3018E-28 [eV/cm2/s]
                                                             or : 2.0858E-40 [erg/cm2/s]
                                  and from photoelectron source : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]

 MAIN : Total energy deposition in [CO2] is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 Total Heating :  7.324E-37 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  0.0000000E+00
 entot depart  7.32448304E-37  7.32448304E-37
 shsum :   0.0000000      7.32448304E-37   0.0000000       0.0000000    
 shsum :   0.0000000      7.32448304E-37   0.0000000       0.0000000    
 shsum :   0.0000000      7.32448304E-37   0.0000000       0.0000000    
 shsum :   0.0000000      7.32448304E-37   0.0000000       0.0000000    
 shsum :   0.0000000      7.32448304E-37   0.0000000       0.0000000    
 shsum :   0.0000000      7.32448304E-37   0.0000000       0.0000000    
 fin  7.32448304E-37   0.0000000           +Infinity
       +Infinity
       -Infinity       +Infinity
 ezero   0.0000000    
  7.32448304E-37
       +Infinity

Total energy input of :1.302E-28 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 7.324E-37 is absorbed (entot) 
                         through inelastic collisions (shsum =0.000E+00)
                                           + heating (elhsum =7.324E-37)
 This refers to an energy gain of   +Inf %


 The average E. loss per ion pair is :   +Inf eV (from qtoteV)
                                  or :   +Inf eV (from (entot))
                                  or :   -Inf eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  45.0, longitude 210.0.

 REED : The energy degradation is computed from the center energies of the grid.
 REED : The energy degradation source term is interpolated linearly with tau.
 REED : The albedo at  80. km is set to 1.00
 REED : The low energy phase function is taken from Porter
 REED : Secondary distribution from Rees et al., PSS 17, 1997, 1969           
 REED : Wiscombe's delta-M method IS applied

 MAIN : The screening parameter for the Rutherford phase function is calculated
        from the Bethe/Moliere formula for E > 500 eV

 MAIN : The energy grid covers the range from : 0.001 [eV] up to :   287.9 [eV].

 MAIN : The total energy input from the precipitation source is : 1.3018E-28 [eV/cm2/s]
                                                             or : 2.0858E-40 [erg/cm2/s]
                                  and from photoelectron source : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]

 MAIN : Total energy deposition in [CO2] is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 Total Heating :  7.263E-37 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  0.0000000E+00
 entot depart  7.26276448E-37  7.26276448E-37
 shsum :   0.0000000      7.26276448E-37   0.0000000       0.0000000    
 shsum :   0.0000000      7.26276448E-37   0.0000000       0.0000000    
 shsum :   0.0000000      7.26276448E-37   0.0000000       0.0000000    
 shsum :   0.0000000      7.26276448E-37   0.0000000       0.0000000    
 shsum :   0.0000000      7.26276448E-37   0.0000000       0.0000000    
 shsum :   0.0000000      7.26276448E-37   0.0000000       0.0000000    
 fin  7.26276448E-37   0.0000000           +Infinity
       +Infinity
       -Infinity       +Infinity
 ezero   0.0000000    
  7.26276448E-37
       +Infinity

Total energy input of :1.302E-28 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 7.263E-37 is absorbed (entot) 
                         through inelastic collisions (shsum =0.000E+00)
                                           + heating (elhsum =7.263E-37)
 This refers to an energy gain of   +Inf %


 The average E. loss per ion pair is :   +Inf eV (from qtoteV)
                                  or :   +Inf eV (from (entot))
                                  or :   -Inf eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  50.0, longitude 210.0.

 REED : The energy degradation is computed from the center energies of the grid.
 REED : The energy degradation source term is interpolated linearly with tau.
 REED : The albedo at  80. km is set to 1.00
 REED : The low energy phase function is taken from Porter
 REED : Secondary distribution from Rees et al., PSS 17, 1997, 1969           
 REED : Wiscombe's delta-M method IS applied

 MAIN : The screening parameter for the Rutherford phase function is calculated
        from the Bethe/Moliere formula for E > 500 eV

 MAIN : The energy grid covers the range from : 0.001 [eV] up to :   287.9 [eV].

 MAIN : The total energy input from the precipitation source is : 1.3018E-28 [eV/cm2/s]
                                                             or : 2.0858E-40 [erg/cm2/s]
                                  and from photoelectron source : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]

 MAIN : Total energy deposition in [CO2] is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 Total Heating :  7.310E-37 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  0.0000000E+00
 entot depart  7.31005796E-37  7.31005796E-37
 shsum :   0.0000000      7.31005796E-37   0.0000000       0.0000000    
 shsum :   0.0000000      7.31005796E-37   0.0000000       0.0000000    
 shsum :   0.0000000      7.31005796E-37   0.0000000       0.0000000    
 shsum :   0.0000000      7.31005796E-37   0.0000000       0.0000000    
 shsum :   0.0000000      7.31005796E-37   0.0000000       0.0000000    
 shsum :   0.0000000      7.31005796E-37   0.0000000       0.0000000    
 fin  7.31005796E-37   0.0000000           +Infinity
       +Infinity
       -Infinity       +Infinity
 ezero   0.0000000    
  7.31005796E-37
       +Infinity

Total energy input of :1.302E-28 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 7.310E-37 is absorbed (entot) 
                         through inelastic collisions (shsum =0.000E+00)
                                           + heating (elhsum =7.310E-37)
 This refers to an energy gain of   +Inf %


 The average E. loss per ion pair is :   +Inf eV (from qtoteV)
                                  or :   +Inf eV (from (entot))
                                  or :   -Inf eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  55.0, longitude 210.0.

 REED : The energy degradation is computed from the center energies of the grid.
 REED : The energy degradation source term is interpolated linearly with tau.
 REED : The albedo at  80. km is set to 1.00
 REED : The low energy phase function is taken from Porter
 REED : Secondary distribution from Rees et al., PSS 17, 1997, 1969           
 REED : Wiscombe's delta-M method IS applied

 MAIN : The screening parameter for the Rutherford phase function is calculated
        from the Bethe/Moliere formula for E > 500 eV

 MAIN : The energy grid covers the range from : 0.001 [eV] up to :   287.9 [eV].

 MAIN : The total energy input from the precipitation source is : 1.3018E-28 [eV/cm2/s]
                                                             or : 2.0858E-40 [erg/cm2/s]
                                  and from photoelectron source : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]

 MAIN : Total energy deposition in [CO2] is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 Total Heating :  7.324E-37 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  0.0000000E+00
 entot depart  7.32448304E-37  7.32448304E-37
 shsum :   0.0000000      7.32448304E-37   0.0000000       0.0000000    
 shsum :   0.0000000      7.32448304E-37   0.0000000       0.0000000    
 shsum :   0.0000000      7.32448304E-37   0.0000000       0.0000000    
 shsum :   0.0000000      7.32448304E-37   0.0000000       0.0000000    
 shsum :   0.0000000      7.32448304E-37   0.0000000       0.0000000    
 shsum :   0.0000000      7.32448304E-37   0.0000000       0.0000000    
 fin  7.32448304E-37   0.0000000           +Infinity
       +Infinity
       -Infinity       +Infinity
 ezero   0.0000000    
  7.32448304E-37
       +Infinity

Total energy input of :1.302E-28 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 7.324E-37 is absorbed (entot) 
                         through inelastic collisions (shsum =0.000E+00)
                                           + heating (elhsum =7.324E-37)
 This refers to an energy gain of   +Inf %


 The average E. loss per ion pair is :   +Inf eV (from qtoteV)
                                  or :   +Inf eV (from (entot))
                                  or :   -Inf eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  60.0, longitude 210.0.

 REED : The energy degradation is computed from the center energies of the grid.
 REED : The energy degradation source term is interpolated linearly with tau.
 REED : The albedo at  80. km is set to 1.00
 REED : The low energy phase function is taken from Porter
 REED : Secondary distribution from Rees et al., PSS 17, 1997, 1969           
 REED : Wiscombe's delta-M method IS applied

 MAIN : The screening parameter for the Rutherford phase function is calculated
        from the Bethe/Moliere formula for E > 500 eV

 MAIN : The energy grid covers the range from : 0.001 [eV] up to :   287.9 [eV].

 MAIN : The total energy input from the precipitation source is : 1.3018E-28 [eV/cm2/s]
                                                             or : 2.0858E-40 [erg/cm2/s]
                                  and from photoelectron source : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]

 MAIN : Total energy deposition in [CO2] is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 Total Heating :  7.387E-37 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  0.0000000E+00
 entot depart  7.38679172E-37  7.38679172E-37
 shsum :   0.0000000      7.38679172E-37   0.0000000       0.0000000    
 shsum :   0.0000000      7.38679172E-37   0.0000000       0.0000000    
 shsum :   0.0000000      7.38679172E-37   0.0000000       0.0000000    
 shsum :   0.0000000      7.38679172E-37   0.0000000       0.0000000    
 shsum :   0.0000000      7.38679172E-37   0.0000000       0.0000000    
 shsum :   0.0000000      7.38679172E-37   0.0000000       0.0000000    
 fin  7.38679172E-37   0.0000000           +Infinity
       +Infinity
       -Infinity       +Infinity
 ezero   0.0000000    
  7.38679172E-37
       +Infinity

Total energy input of :1.302E-28 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 7.387E-37 is absorbed (entot) 
                         through inelastic collisions (shsum =0.000E+00)
                                           + heating (elhsum =7.387E-37)
 This refers to an energy gain of   +Inf %


 The average E. loss per ion pair is :   +Inf eV (from qtoteV)
                                  or :   +Inf eV (from (entot))
                                  or :   -Inf eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  45.0, longitude 215.0.

 REED : The energy degradation is computed from the center energies of the grid.
 REED : The energy degradation source term is interpolated linearly with tau.
 REED : The albedo at  80. km is set to 1.00
 REED : The low energy phase function is taken from Porter
 REED : Secondary distribution from Rees et al., PSS 17, 1997, 1969           
 REED : Wiscombe's delta-M method IS applied

 MAIN : The screening parameter for the Rutherford phase function is calculated
        from the Bethe/Moliere formula for E > 500 eV

 MAIN : The energy grid covers the range from : 0.001 [eV] up to :   287.9 [eV].

 MAIN : The total energy input from the precipitation source is : 1.3018E-28 [eV/cm2/s]
                                                             or : 2.0858E-40 [erg/cm2/s]
                                  and from photoelectron source : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]

 MAIN : Total energy deposition in [CO2] is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 Total Heating :  7.286E-37 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  0.0000000E+00
 entot depart  7.28641167E-37  7.28641167E-37
 shsum :   0.0000000      7.28641167E-37   0.0000000       0.0000000    
 shsum :   0.0000000      7.28641167E-37   0.0000000       0.0000000    
 shsum :   0.0000000      7.28641167E-37   0.0000000       0.0000000    
 shsum :   0.0000000      7.28641167E-37   0.0000000       0.0000000    
 shsum :   0.0000000      7.28641167E-37   0.0000000       0.0000000    
 shsum :   0.0000000      7.28641167E-37   0.0000000       0.0000000    
 fin  7.28641167E-37   0.0000000           +Infinity
       +Infinity
       -Infinity       +Infinity
 ezero   0.0000000    
  7.28641167E-37
       +Infinity

Total energy input of :1.302E-28 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 7.286E-37 is absorbed (entot) 
                         through inelastic collisions (shsum =0.000E+00)
                                           + heating (elhsum =7.286E-37)
 This refers to an energy gain of   +Inf %


 The average E. loss per ion pair is :   +Inf eV (from qtoteV)
                                  or :   +Inf eV (from (entot))
                                  or :   -Inf eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  50.0, longitude 215.0.

 REED : The energy degradation is computed from the center energies of the grid.
 REED : The energy degradation source term is interpolated linearly with tau.
 REED : The albedo at  80. km is set to 1.00
 REED : The low energy phase function is taken from Porter
 REED : Secondary distribution from Rees et al., PSS 17, 1997, 1969           
 REED : Wiscombe's delta-M method IS applied

 MAIN : The screening parameter for the Rutherford phase function is calculated
        from the Bethe/Moliere formula for E > 500 eV

 MAIN : The energy grid covers the range from : 0.001 [eV] up to :   287.9 [eV].

 MAIN : The total energy input from the precipitation source is : 1.3018E-28 [eV/cm2/s]
                                                             or : 2.0858E-40 [erg/cm2/s]
                                  and from photoelectron source : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]

 MAIN : Total energy deposition in [CO2] is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 Total Heating :  7.324E-37 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  0.0000000E+00
 entot depart  7.32448304E-37  7.32448304E-37
 shsum :   0.0000000      7.32448304E-37   0.0000000       0.0000000    
 shsum :   0.0000000      7.32448304E-37   0.0000000       0.0000000    
 shsum :   0.0000000      7.32448304E-37   0.0000000       0.0000000    
 shsum :   0.0000000      7.32448304E-37   0.0000000       0.0000000    
 shsum :   0.0000000      7.32448304E-37   0.0000000       0.0000000    
 shsum :   0.0000000      7.32448304E-37   0.0000000       0.0000000    
 fin  7.32448304E-37   0.0000000           +Infinity
       +Infinity
       -Infinity       +Infinity
 ezero   0.0000000    
  7.32448304E-37
       +Infinity

Total energy input of :1.302E-28 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 7.324E-37 is absorbed (entot) 
                         through inelastic collisions (shsum =0.000E+00)
                                           + heating (elhsum =7.324E-37)
 This refers to an energy gain of   +Inf %


 The average E. loss per ion pair is :   +Inf eV (from qtoteV)
                                  or :   +Inf eV (from (entot))
                                  or :   -Inf eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  55.0, longitude 215.0.

 REED : The energy degradation is computed from the center energies of the grid.
 REED : The energy degradation source term is interpolated linearly with tau.
 REED : The albedo at  80. km is set to 1.00
 REED : The low energy phase function is taken from Porter
 REED : Secondary distribution from Rees et al., PSS 17, 1997, 1969           
 REED : Wiscombe's delta-M method IS applied

 MAIN : The screening parameter for the Rutherford phase function is calculated
        from the Bethe/Moliere formula for E > 500 eV

 MAIN : The energy grid covers the range from : 0.001 [eV] up to :   287.9 [eV].

 MAIN : The total energy input from the precipitation source is : 1.3018E-28 [eV/cm2/s]
                                                             or : 2.0858E-40 [erg/cm2/s]
                                  and from photoelectron source : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]

 MAIN : Total energy deposition in [CO2] is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 Total Heating :  7.387E-37 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  0.0000000E+00
 entot depart  7.38679172E-37  7.38679172E-37
 shsum :   0.0000000      7.38679172E-37   0.0000000       0.0000000    
 shsum :   0.0000000      7.38679172E-37   0.0000000       0.0000000    
 shsum :   0.0000000      7.38679172E-37   0.0000000       0.0000000    
 shsum :   0.0000000      7.38679172E-37   0.0000000       0.0000000    
 shsum :   0.0000000      7.38679172E-37   0.0000000       0.0000000    
 shsum :   0.0000000      7.38679172E-37   0.0000000       0.0000000    
 fin  7.38679172E-37   0.0000000           +Infinity
       +Infinity
       -Infinity       +Infinity
 ezero   0.0000000    
  7.38679172E-37
       +Infinity

Total energy input of :1.302E-28 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 7.387E-37 is absorbed (entot) 
                         through inelastic collisions (shsum =0.000E+00)
                                           + heating (elhsum =7.387E-37)
 This refers to an energy gain of   +Inf %


 The average E. loss per ion pair is :   +Inf eV (from qtoteV)
                                  or :   +Inf eV (from (entot))
                                  or :   -Inf eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  60.0, longitude 215.0.

 REED : The energy degradation is computed from the center energies of the grid.
 REED : The energy degradation source term is interpolated linearly with tau.
 REED : The albedo at  80. km is set to 1.00
 REED : The low energy phase function is taken from Porter
 REED : Secondary distribution from Rees et al., PSS 17, 1997, 1969           
 REED : Wiscombe's delta-M method IS applied

 MAIN : The screening parameter for the Rutherford phase function is calculated
        from the Bethe/Moliere formula for E > 500 eV

 MAIN : The energy grid covers the range from : 0.001 [eV] up to :   287.9 [eV].

 MAIN : The total energy input from the precipitation source is : 1.3018E-28 [eV/cm2/s]
                                                             or : 2.0858E-40 [erg/cm2/s]
                                  and from photoelectron source : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]

 MAIN : Total energy deposition in [CO2] is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 Total Heating :  7.419E-37 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  0.0000000E+00
 entot depart  7.41895208E-37  7.41895208E-37
 shsum :   0.0000000      7.41895208E-37   0.0000000       0.0000000    
 shsum :   0.0000000      7.41895208E-37   0.0000000       0.0000000    
 shsum :   0.0000000      7.41895208E-37   0.0000000       0.0000000    
 shsum :   0.0000000      7.41895208E-37   0.0000000       0.0000000    
 shsum :   0.0000000      7.41895208E-37   0.0000000       0.0000000    
 shsum :   0.0000000      7.41895208E-37   0.0000000       0.0000000    
 fin  7.41895208E-37   0.0000000           +Infinity
       +Infinity
       -Infinity       +Infinity
 ezero   0.0000000    
  7.41895208E-37
       +Infinity

Total energy input of :1.302E-28 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 7.419E-37 is absorbed (entot) 
                         through inelastic collisions (shsum =0.000E+00)
                                           + heating (elhsum =7.419E-37)
 This refers to an energy gain of   +Inf %


 The average E. loss per ion pair is :   +Inf eV (from qtoteV)
                                  or :   +Inf eV (from (entot))
                                  or :   -Inf eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  45.0, longitude 220.0.

 REED : The energy degradation is computed from the center energies of the grid.
 REED : The energy degradation source term is interpolated linearly with tau.
 REED : The albedo at  80. km is set to 1.00
 REED : The low energy phase function is taken from Porter
 REED : Secondary distribution from Rees et al., PSS 17, 1997, 1969           
 REED : Wiscombe's delta-M method IS applied

 MAIN : The screening parameter for the Rutherford phase function is calculated
        from the Bethe/Moliere formula for E > 500 eV

 MAIN : The energy grid covers the range from : 0.001 [eV] up to :   287.9 [eV].

 MAIN : The total energy input from the precipitation source is : 1.3018E-28 [eV/cm2/s]
                                                             or : 2.0858E-40 [erg/cm2/s]
                                  and from photoelectron source : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]

 MAIN : Total energy deposition in [CO2] is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 Total Heating :  7.310E-37 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  0.0000000E+00
 entot depart  7.31005796E-37  7.31005796E-37
 shsum :   0.0000000      7.31005796E-37   0.0000000       0.0000000    
 shsum :   0.0000000      7.31005796E-37   0.0000000       0.0000000    
 shsum :   0.0000000      7.31005796E-37   0.0000000       0.0000000    
 shsum :   0.0000000      7.31005796E-37   0.0000000       0.0000000    
 shsum :   0.0000000      7.31005796E-37   0.0000000       0.0000000    
 shsum :   0.0000000      7.31005796E-37   0.0000000       0.0000000    
 fin  7.31005796E-37   0.0000000           +Infinity
       +Infinity
       -Infinity       +Infinity
 ezero   0.0000000    
  7.31005796E-37
       +Infinity

Total energy input of :1.302E-28 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 7.310E-37 is absorbed (entot) 
                         through inelastic collisions (shsum =0.000E+00)
                                           + heating (elhsum =7.310E-37)
 This refers to an energy gain of   +Inf %


 The average E. loss per ion pair is :   +Inf eV (from qtoteV)
                                  or :   +Inf eV (from (entot))
                                  or :   -Inf eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  50.0, longitude 220.0.

 REED : The energy degradation is computed from the center energies of the grid.
 REED : The energy degradation source term is interpolated linearly with tau.
 REED : The albedo at  80. km is set to 1.00
 REED : The low energy phase function is taken from Porter
 REED : Secondary distribution from Rees et al., PSS 17, 1997, 1969           
 REED : Wiscombe's delta-M method IS applied

 MAIN : The screening parameter for the Rutherford phase function is calculated
        from the Bethe/Moliere formula for E > 500 eV

 MAIN : The energy grid covers the range from : 0.001 [eV] up to :   287.9 [eV].

 MAIN : The total energy input from the precipitation source is : 1.3018E-28 [eV/cm2/s]
                                                             or : 2.0858E-40 [erg/cm2/s]
                                  and from photoelectron source : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]

 MAIN : Total energy deposition in [CO2] is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 Total Heating :  7.358E-37 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  0.0000000E+00
 entot depart  7.35794336E-37  7.35794336E-37
 shsum :   0.0000000      7.35794336E-37   0.0000000       0.0000000    
 shsum :   0.0000000      7.35794336E-37   0.0000000       0.0000000    
 shsum :   0.0000000      7.35794336E-37   0.0000000       0.0000000    
 shsum :   0.0000000      7.35794336E-37   0.0000000       0.0000000    
 shsum :   0.0000000      7.35794336E-37   0.0000000       0.0000000    
 shsum :   0.0000000      7.35794336E-37   0.0000000       0.0000000    
 fin  7.35794336E-37   0.0000000           +Infinity
       +Infinity
       -Infinity       +Infinity
 ezero   0.0000000    
  7.35794336E-37
       +Infinity

Total energy input of :1.302E-28 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 7.358E-37 is absorbed (entot) 
                         through inelastic collisions (shsum =0.000E+00)
                                           + heating (elhsum =7.358E-37)
 This refers to an energy gain of   +Inf %


 The average E. loss per ion pair is :   +Inf eV (from qtoteV)
                                  or :   +Inf eV (from (entot))
                                  or :   -Inf eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  55.0, longitude 220.0.

 REED : The energy degradation is computed from the center energies of the grid.
 REED : The energy degradation source term is interpolated linearly with tau.
 REED : The albedo at  80. km is set to 1.00
 REED : The low energy phase function is taken from Porter
 REED : Secondary distribution from Rees et al., PSS 17, 1997, 1969           
 REED : Wiscombe's delta-M method IS applied

 MAIN : The screening parameter for the Rutherford phase function is calculated
        from the Bethe/Moliere formula for E > 500 eV

 MAIN : The energy grid covers the range from : 0.001 [eV] up to :   287.9 [eV].

 MAIN : The total energy input from the precipitation source is : 1.3018E-28 [eV/cm2/s]
                                                             or : 2.0858E-40 [erg/cm2/s]
                                  and from photoelectron source : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]

 MAIN : Total energy deposition in [CO2] is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 Total Heating :  7.427E-37 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  0.0000000E+00
 entot depart  7.42746480E-37  7.42746480E-37
 shsum :   0.0000000      7.42746480E-37   0.0000000       0.0000000    
 shsum :   0.0000000      7.42746480E-37   0.0000000       0.0000000    
 shsum :   0.0000000      7.42746480E-37   0.0000000       0.0000000    
 shsum :   0.0000000      7.42746480E-37   0.0000000       0.0000000    
 shsum :   0.0000000      7.42746480E-37   0.0000000       0.0000000    
 shsum :   0.0000000      7.42746480E-37   0.0000000       0.0000000    
 fin  7.42746480E-37   0.0000000           +Infinity
       +Infinity
       -Infinity       +Infinity
 ezero   0.0000000    
  7.42746480E-37
       +Infinity

Total energy input of :1.302E-28 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 7.427E-37 is absorbed (entot) 
                         through inelastic collisions (shsum =0.000E+00)
                                           + heating (elhsum =7.427E-37)
 This refers to an energy gain of   +Inf %


 The average E. loss per ion pair is :   +Inf eV (from qtoteV)
                                  or :   +Inf eV (from (entot))
                                  or :   -Inf eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  60.0, longitude 220.0.

 REED : The energy degradation is computed from the center energies of the grid.
 REED : The energy degradation source term is interpolated linearly with tau.
 REED : The albedo at  80. km is set to 1.00
 REED : The low energy phase function is taken from Porter
 REED : Secondary distribution from Rees et al., PSS 17, 1997, 1969           
 REED : Wiscombe's delta-M method IS applied

 MAIN : The screening parameter for the Rutherford phase function is calculated
        from the Bethe/Moliere formula for E > 500 eV

 MAIN : The energy grid covers the range from : 0.001 [eV] up to :   287.9 [eV].

 MAIN : The total energy input from the precipitation source is : 1.3018E-28 [eV/cm2/s]
                                                             or : 2.0858E-40 [erg/cm2/s]
                                  and from photoelectron source : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]

 MAIN : Total energy deposition in [CO2] is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 Total Heating :  7.450E-37 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  0.0000000E+00
 entot depart  7.44969321E-37  7.44969321E-37
 shsum :   0.0000000      7.44969321E-37   0.0000000       0.0000000    
 shsum :   0.0000000      7.44969321E-37   0.0000000       0.0000000    
 shsum :   0.0000000      7.44969321E-37   0.0000000       0.0000000    
 shsum :   0.0000000      7.44969321E-37   0.0000000       0.0000000    
 shsum :   0.0000000      7.44969321E-37   0.0000000       0.0000000    
 shsum :   0.0000000      7.44969321E-37   0.0000000       0.0000000    
 fin  7.44969321E-37   0.0000000           +Infinity
       +Infinity
       -Infinity       +Infinity
 ezero   0.0000000    
  7.44969321E-37
       +Infinity

Total energy input of :1.302E-28 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 7.450E-37 is absorbed (entot) 
                         through inelastic collisions (shsum =0.000E+00)
                                           + heating (elhsum =7.450E-37)
 This refers to an energy gain of   +Inf %


 The average E. loss per ion pair is :   +Inf eV (from qtoteV)
                                  or :   +Inf eV (from (entot))
                                  or :   -Inf eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  45.0, longitude 225.0.

 REED : The energy degradation is computed from the center energies of the grid.
 REED : The energy degradation source term is interpolated linearly with tau.
 REED : The albedo at  80. km is set to 1.00
 REED : The low energy phase function is taken from Porter
 REED : Secondary distribution from Rees et al., PSS 17, 1997, 1969           
 REED : Wiscombe's delta-M method IS applied

 MAIN : The screening parameter for the Rutherford phase function is calculated
        from the Bethe/Moliere formula for E > 500 eV

 MAIN : The energy grid covers the range from : 0.001 [eV] up to :   287.9 [eV].

 MAIN : The total energy input from the precipitation source is : 1.3018E-28 [eV/cm2/s]
                                                             or : 2.0858E-40 [erg/cm2/s]
                                  and from photoelectron source : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]

 MAIN : Total energy deposition in [CO2] is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 Total Heating :  7.358E-37 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  0.0000000E+00
 entot depart  7.35794336E-37  7.35794336E-37
 shsum :   0.0000000      7.35794336E-37   0.0000000       0.0000000    
 shsum :   0.0000000      7.35794336E-37   0.0000000       0.0000000    
 shsum :   0.0000000      7.35794336E-37   0.0000000       0.0000000    
 shsum :   0.0000000      7.35794336E-37   0.0000000       0.0000000    
 shsum :   0.0000000      7.35794336E-37   0.0000000       0.0000000    
 shsum :   0.0000000      7.35794336E-37   0.0000000       0.0000000    
 fin  7.35794336E-37   0.0000000           +Infinity
       +Infinity
       -Infinity       +Infinity
 ezero   0.0000000    
  7.35794336E-37
       +Infinity

Total energy input of :1.302E-28 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 7.358E-37 is absorbed (entot) 
                         through inelastic collisions (shsum =0.000E+00)
                                           + heating (elhsum =7.358E-37)
 This refers to an energy gain of   +Inf %


 The average E. loss per ion pair is :   +Inf eV (from qtoteV)
                                  or :   +Inf eV (from (entot))
                                  or :   -Inf eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  50.0, longitude 225.0.

 REED : The energy degradation is computed from the center energies of the grid.
 REED : The energy degradation source term is interpolated linearly with tau.
 REED : The albedo at  80. km is set to 1.00
 REED : The low energy phase function is taken from Porter
 REED : Secondary distribution from Rees et al., PSS 17, 1997, 1969           
 REED : Wiscombe's delta-M method IS applied

 MAIN : The screening parameter for the Rutherford phase function is calculated
        from the Bethe/Moliere formula for E > 500 eV

 MAIN : The energy grid covers the range from : 0.001 [eV] up to :   287.9 [eV].

 MAIN : The total energy input from the precipitation source is : 1.3018E-28 [eV/cm2/s]
                                                             or : 2.0858E-40 [erg/cm2/s]
                                  and from photoelectron source : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]

 MAIN : Total energy deposition in [CO2] is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 Total Heating :  7.427E-37 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  0.0000000E+00
 entot depart  7.42746480E-37  7.42746480E-37
 shsum :   0.0000000      7.42746480E-37   0.0000000       0.0000000    
 shsum :   0.0000000      7.42746480E-37   0.0000000       0.0000000    
 shsum :   0.0000000      7.42746480E-37   0.0000000       0.0000000    
 shsum :   0.0000000      7.42746480E-37   0.0000000       0.0000000    
 shsum :   0.0000000      7.42746480E-37   0.0000000       0.0000000    
 shsum :   0.0000000      7.42746480E-37   0.0000000       0.0000000    
 fin  7.42746480E-37   0.0000000           +Infinity
       +Infinity
       -Infinity       +Infinity
 ezero   0.0000000    
  7.42746480E-37
       +Infinity

Total energy input of :1.302E-28 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 7.427E-37 is absorbed (entot) 
                         through inelastic collisions (shsum =0.000E+00)
                                           + heating (elhsum =7.427E-37)
 This refers to an energy gain of   +Inf %


 The average E. loss per ion pair is :   +Inf eV (from qtoteV)
                                  or :   +Inf eV (from (entot))
                                  or :   -Inf eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  55.0, longitude 225.0.

 REED : The energy degradation is computed from the center energies of the grid.
 REED : The energy degradation source term is interpolated linearly with tau.
 REED : The albedo at  80. km is set to 1.00
 REED : The low energy phase function is taken from Porter
 REED : Secondary distribution from Rees et al., PSS 17, 1997, 1969           
 REED : Wiscombe's delta-M method IS applied

 MAIN : The screening parameter for the Rutherford phase function is calculated
        from the Bethe/Moliere formula for E > 500 eV

 MAIN : The energy grid covers the range from : 0.001 [eV] up to :   287.9 [eV].

 MAIN : The total energy input from the precipitation source is : 1.3018E-28 [eV/cm2/s]
                                                             or : 2.0858E-40 [erg/cm2/s]
                                  and from photoelectron source : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]

 MAIN : Total energy deposition in [CO2] is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 Total Heating :  7.470E-37 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  0.0000000E+00
 entot depart  7.46967415E-37  7.46967415E-37
 shsum :   0.0000000      7.46967415E-37   0.0000000       0.0000000    
 shsum :   0.0000000      7.46967415E-37   0.0000000       0.0000000    
 shsum :   0.0000000      7.46967415E-37   0.0000000       0.0000000    
 shsum :   0.0000000      7.46967415E-37   0.0000000       0.0000000    
 shsum :   0.0000000      7.46967415E-37   0.0000000       0.0000000    
 shsum :   0.0000000      7.46967415E-37   0.0000000       0.0000000    
 fin  7.46967415E-37   0.0000000           +Infinity
       +Infinity
       -Infinity       +Infinity
 ezero   0.0000000    
  7.46967415E-37
       +Infinity

Total energy input of :1.302E-28 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 7.470E-37 is absorbed (entot) 
                         through inelastic collisions (shsum =0.000E+00)
                                           + heating (elhsum =7.470E-37)
 This refers to an energy gain of   +Inf %


 The average E. loss per ion pair is :   +Inf eV (from qtoteV)
                                  or :   +Inf eV (from (entot))
                                  or :   -Inf eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  60.0, longitude 225.0.

 REED : The energy degradation is computed from the center energies of the grid.
 REED : The energy degradation source term is interpolated linearly with tau.
 REED : The albedo at  80. km is set to 1.00
 REED : The low energy phase function is taken from Porter
 REED : Secondary distribution from Rees et al., PSS 17, 1997, 1969           
 REED : Wiscombe's delta-M method IS applied

 MAIN : The screening parameter for the Rutherford phase function is calculated
        from the Bethe/Moliere formula for E > 500 eV

 MAIN : The energy grid covers the range from : 0.001 [eV] up to :   287.9 [eV].

 MAIN : The total energy input from the precipitation source is : 1.3018E-28 [eV/cm2/s]
                                                             or : 2.0858E-40 [erg/cm2/s]
                                  and from photoelectron source : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]

 MAIN : Total energy deposition in [CO2] is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 Total Heating :  7.498E-37 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  0.0000000E+00
 entot depart  7.49805123E-37  7.49805123E-37
 shsum :   0.0000000      7.49805123E-37   0.0000000       0.0000000    
 shsum :   0.0000000      7.49805123E-37   0.0000000       0.0000000    
 shsum :   0.0000000      7.49805123E-37   0.0000000       0.0000000    
 shsum :   0.0000000      7.49805123E-37   0.0000000       0.0000000    
 shsum :   0.0000000      7.49805123E-37   0.0000000       0.0000000    
 shsum :   0.0000000      7.49805123E-37   0.0000000       0.0000000    
 fin  7.49805123E-37   0.0000000           +Infinity
       +Infinity
       -Infinity       +Infinity
 ezero   0.0000000    
  7.49805123E-37
       +Infinity

Total energy input of :1.302E-28 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 7.498E-37 is absorbed (entot) 
                         through inelastic collisions (shsum =0.000E+00)
                                           + heating (elhsum =7.498E-37)
 This refers to an energy gain of   +Inf %


 The average E. loss per ion pair is :   +Inf eV (from qtoteV)
                                  or :   +Inf eV (from (entot))
                                  or :   -Inf eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  45.0, longitude 230.0.

 REED : The energy degradation is computed from the center energies of the grid.
 REED : The energy degradation source term is interpolated linearly with tau.
 REED : The albedo at  80. km is set to 1.00
 REED : The low energy phase function is taken from Porter
 REED : Secondary distribution from Rees et al., PSS 17, 1997, 1969           
 REED : Wiscombe's delta-M method IS applied

 MAIN : The screening parameter for the Rutherford phase function is calculated
        from the Bethe/Moliere formula for E > 500 eV

 MAIN : The energy grid covers the range from : 0.001 [eV] up to :   287.9 [eV].

 MAIN : The total energy input from the precipitation source is : 1.3018E-28 [eV/cm2/s]
                                                             or : 2.0858E-40 [erg/cm2/s]
                                  and from photoelectron source : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]

 MAIN : Total energy deposition in [CO2] is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 Total Heating :  7.413E-37 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  0.0000000E+00
 entot depart  7.41292179E-37  7.41292179E-37
 shsum :   0.0000000      7.41292179E-37   0.0000000       0.0000000    
 shsum :   0.0000000      7.41292179E-37   0.0000000       0.0000000    
 shsum :   0.0000000      7.41292179E-37   0.0000000       0.0000000    
 shsum :   0.0000000      7.41292179E-37   0.0000000       0.0000000    
 shsum :   0.0000000      7.41292179E-37   0.0000000       0.0000000    
 shsum :   0.0000000      7.41292179E-37   0.0000000       0.0000000    
 fin  7.41292179E-37   0.0000000           +Infinity
       +Infinity
       -Infinity       +Infinity
 ezero   0.0000000    
  7.41292179E-37
       +Infinity

Total energy input of :1.302E-28 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 7.413E-37 is absorbed (entot) 
                         through inelastic collisions (shsum =0.000E+00)
                                           + heating (elhsum =7.413E-37)
 This refers to an energy gain of   +Inf %


 The average E. loss per ion pair is :   +Inf eV (from qtoteV)
                                  or :   +Inf eV (from (entot))
                                  or :   -Inf eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  50.0, longitude 230.0.

 REED : The energy degradation is computed from the center energies of the grid.
 REED : The energy degradation source term is interpolated linearly with tau.
 REED : The albedo at  80. km is set to 1.00
 REED : The low energy phase function is taken from Porter
 REED : Secondary distribution from Rees et al., PSS 17, 1997, 1969           
 REED : Wiscombe's delta-M method IS applied

 MAIN : The screening parameter for the Rutherford phase function is calculated
        from the Bethe/Moliere formula for E > 500 eV

 MAIN : The energy grid covers the range from : 0.001 [eV] up to :   287.9 [eV].

 MAIN : The total energy input from the precipitation source is : 1.3018E-28 [eV/cm2/s]
                                                             or : 2.0858E-40 [erg/cm2/s]
                                  and from photoelectron source : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]

 MAIN : Total energy deposition in [CO2] is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 Total Heating :  7.462E-37 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  0.0000000E+00
 entot depart  7.46163406E-37  7.46163406E-37
 shsum :   0.0000000      7.46163406E-37   0.0000000       0.0000000    
 shsum :   0.0000000      7.46163406E-37   0.0000000       0.0000000    
 shsum :   0.0000000      7.46163406E-37   0.0000000       0.0000000    
 shsum :   0.0000000      7.46163406E-37   0.0000000       0.0000000    
 shsum :   0.0000000      7.46163406E-37   0.0000000       0.0000000    
 shsum :   0.0000000      7.46163406E-37   0.0000000       0.0000000    
 fin  7.46163406E-37   0.0000000           +Infinity
       +Infinity
       -Infinity       +Infinity
 ezero   0.0000000    
  7.46163406E-37
       +Infinity

Total energy input of :1.302E-28 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 7.462E-37 is absorbed (entot) 
                         through inelastic collisions (shsum =0.000E+00)
                                           + heating (elhsum =7.462E-37)
 This refers to an energy gain of   +Inf %


 The average E. loss per ion pair is :   +Inf eV (from qtoteV)
                                  or :   +Inf eV (from (entot))
                                  or :   -Inf eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  55.0, longitude 230.0.

 REED : The energy degradation is computed from the center energies of the grid.
 REED : The energy degradation source term is interpolated linearly with tau.
 REED : The albedo at  80. km is set to 1.00
 REED : The low energy phase function is taken from Porter
 REED : Secondary distribution from Rees et al., PSS 17, 1997, 1969           
 REED : Wiscombe's delta-M method IS applied

 MAIN : The screening parameter for the Rutherford phase function is calculated
        from the Bethe/Moliere formula for E > 500 eV

 MAIN : The energy grid covers the range from : 0.001 [eV] up to :   287.9 [eV].

 MAIN : The total energy input from the precipitation source is : 1.3018E-28 [eV/cm2/s]
                                                             or : 2.0858E-40 [erg/cm2/s]
                                  and from photoelectron source : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]

 MAIN : Total energy deposition in [CO2] is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 Total Heating :  7.507E-37 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  0.0000000E+00
 entot depart  7.50691910E-37  7.50691910E-37
 shsum :   0.0000000      7.50691910E-37   0.0000000       0.0000000    
 shsum :   0.0000000      7.50691910E-37   0.0000000       0.0000000    
 shsum :   0.0000000      7.50691910E-37   0.0000000       0.0000000    
 shsum :   0.0000000      7.50691910E-37   0.0000000       0.0000000    
 shsum :   0.0000000      7.50691910E-37   0.0000000       0.0000000    
 shsum :   0.0000000      7.50691910E-37   0.0000000       0.0000000    
 fin  7.50691910E-37   0.0000000           +Infinity
       +Infinity
       -Infinity       +Infinity
 ezero   0.0000000    
  7.50691910E-37
       +Infinity

Total energy input of :1.302E-28 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 7.507E-37 is absorbed (entot) 
                         through inelastic collisions (shsum =0.000E+00)
                                           + heating (elhsum =7.507E-37)
 This refers to an energy gain of   +Inf %


 The average E. loss per ion pair is :   +Inf eV (from qtoteV)
                                  or :   +Inf eV (from (entot))
                                  or :   -Inf eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  60.0, longitude 230.0.

 REED : The energy degradation is computed from the center energies of the grid.
 REED : The energy degradation source term is interpolated linearly with tau.
 REED : The albedo at  80. km is set to 1.00
 REED : The low energy phase function is taken from Porter
 REED : Secondary distribution from Rees et al., PSS 17, 1997, 1969           
 REED : Wiscombe's delta-M method IS applied

 MAIN : The screening parameter for the Rutherford phase function is calculated
        from the Bethe/Moliere formula for E > 500 eV

 MAIN : The energy grid covers the range from : 0.001 [eV] up to :   287.9 [eV].

 MAIN : The total energy input from the precipitation source is : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]
                                  and from photoelectron source : 5.0278E+06 [eV/cm2/s]
                                                             or : 8.0555E-06 [erg/cm2/s]
 That variable "errorgaupin" is:           93

 MAIN : Total energy deposition in [CO2] is 1.288E+06 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 1.823E+05 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 1.015E+05 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 4.693E+05 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 4.951E-03 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 8.927E-04 [eV.cm-2.s-1] ("shsum").
   22404.012               2          21
   24164.135               2          23

 Total Heating :  4.447E+00 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  1.1406516E-07
 entot depart   4.4472218       4.4472218    
 shsum :   58968.539       1287855.1       1287850.6       1287850.6    
 shsum :   63288.207       1470144.0       182288.88       1470139.5    
 shsum :   65591.063       1571659.1       101515.15       1571654.6    
 shsum :   84010.000       2040939.1       469279.97       2040934.6    
 shsum :   84010.000       2040939.1      4.95099649E-03   2040934.6    
 shsum :   84010.000       2040939.1      8.92724842E-04   2040934.6    
 fin   2040939.1       84010.000       59.847496    
   24.294003    
 -7.87801786E+18   59.847496    
 ezero   0.0000000    
   2040939.1    
  1.31634884E+19

Total energy input of :5.028E+06 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 2.041E+06 is absorbed (entot) 
                         through inelastic collisions (shsum =2.041E+06)
                                           + heating (elhsum =4.447E+00)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  59.85 eV (from qtoteV)
                                  or :  24.29 eV (from (entot))
                                  or :******* eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  45.0, longitude 235.0.

 REED : The energy degradation is computed from the center energies of the grid.
 REED : The energy degradation source term is interpolated linearly with tau.
 REED : The albedo at  80. km is set to 1.00
 REED : The low energy phase function is taken from Porter
 REED : Secondary distribution from Rees et al., PSS 17, 1997, 1969           
 REED : Wiscombe's delta-M method IS applied

 MAIN : The screening parameter for the Rutherford phase function is calculated
        from the Bethe/Moliere formula for E > 500 eV

 MAIN : The energy grid covers the range from : 0.001 [eV] up to :   287.9 [eV].

 MAIN : The total energy input from the precipitation source is : 1.3018E-28 [eV/cm2/s]
                                                             or : 2.0858E-40 [erg/cm2/s]
                                  and from photoelectron source : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]

 MAIN : Total energy deposition in [CO2] is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 Total Heating :  7.453E-37 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  0.0000000E+00
 entot depart  7.45347649E-37  7.45347649E-37
 shsum :   0.0000000      7.45347649E-37   0.0000000       0.0000000    
 shsum :   0.0000000      7.45347649E-37   0.0000000       0.0000000    
 shsum :   0.0000000      7.45347649E-37   0.0000000       0.0000000    
 shsum :   0.0000000      7.45347649E-37   0.0000000       0.0000000    
 shsum :   0.0000000      7.45347649E-37   0.0000000       0.0000000    
 shsum :   0.0000000      7.45347649E-37   0.0000000       0.0000000    
 fin  7.45347649E-37   0.0000000           +Infinity
       +Infinity
       -Infinity       +Infinity
 ezero   0.0000000    
  7.45347649E-37
       +Infinity

Total energy input of :1.302E-28 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 7.453E-37 is absorbed (entot) 
                         through inelastic collisions (shsum =0.000E+00)
                                           + heating (elhsum =7.453E-37)
 This refers to an energy gain of   +Inf %


 The average E. loss per ion pair is :   +Inf eV (from qtoteV)
                                  or :   +Inf eV (from (entot))
                                  or :   -Inf eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  50.0, longitude 235.0.

 REED : The energy degradation is computed from the center energies of the grid.
 REED : The energy degradation source term is interpolated linearly with tau.
 REED : The albedo at  80. km is set to 1.00
 REED : The low energy phase function is taken from Porter
 REED : Secondary distribution from Rees et al., PSS 17, 1997, 1969           
 REED : Wiscombe's delta-M method IS applied

 MAIN : The screening parameter for the Rutherford phase function is calculated
        from the Bethe/Moliere formula for E > 500 eV

 MAIN : The energy grid covers the range from : 0.001 [eV] up to :   287.9 [eV].

 MAIN : The total energy input from the precipitation source is : 1.3018E-28 [eV/cm2/s]
                                                             or : 2.0858E-40 [erg/cm2/s]
                                  and from photoelectron source : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]

 MAIN : Total energy deposition in [CO2] is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 Total Heating :  7.493E-37 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  0.0000000E+00
 entot depart  7.49296710E-37  7.49296710E-37
 shsum :   0.0000000      7.49296710E-37   0.0000000       0.0000000    
 shsum :   0.0000000      7.49296710E-37   0.0000000       0.0000000    
 shsum :   0.0000000      7.49296710E-37   0.0000000       0.0000000    
 shsum :   0.0000000      7.49296710E-37   0.0000000       0.0000000    
 shsum :   0.0000000      7.49296710E-37   0.0000000       0.0000000    
 shsum :   0.0000000      7.49296710E-37   0.0000000       0.0000000    
 fin  7.49296710E-37   0.0000000           +Infinity
       +Infinity
       -Infinity       +Infinity
 ezero   0.0000000    
  7.49296710E-37
       +Infinity

Total energy input of :1.302E-28 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 7.493E-37 is absorbed (entot) 
                         through inelastic collisions (shsum =0.000E+00)
                                           + heating (elhsum =7.493E-37)
 This refers to an energy gain of   +Inf %


 The average E. loss per ion pair is :   +Inf eV (from qtoteV)
                                  or :   +Inf eV (from (entot))
                                  or :   -Inf eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  55.0, longitude 235.0.

 REED : The energy degradation is computed from the center energies of the grid.
 REED : The energy degradation source term is interpolated linearly with tau.
 REED : The albedo at  80. km is set to 1.00
 REED : The low energy phase function is taken from Porter
 REED : Secondary distribution from Rees et al., PSS 17, 1997, 1969           
 REED : Wiscombe's delta-M method IS applied

 MAIN : The screening parameter for the Rutherford phase function is calculated
        from the Bethe/Moliere formula for E > 500 eV

 MAIN : The energy grid covers the range from : 0.001 [eV] up to :   287.9 [eV].

 MAIN : The total energy input from the precipitation source is : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]
                                  and from photoelectron source : 1.7956E+06 [eV/cm2/s]
                                                             or : 2.8769E-06 [erg/cm2/s]
 That variable "errorgaupin" is:           94

 MAIN : Total energy deposition in [CO2] is 4.589E+05 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 6.409E+04 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 3.563E+04 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 1.634E+05 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 1.709E-03 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 3.100E-04 [eV.cm-2.s-1] ("shsum").
   7813.5479               2          21
   8433.5273               2          23

 Total Heating :  1.564E+00 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  4.0110155E-08
 entot depart   1.5640481       1.5640481    
 shsum :   20636.969       458881.56       458880.00       458880.00    
 shsum :   22155.947       522974.84       64093.277       522973.28    
 shsum :   22962.373       558600.19       35625.367       558598.63    
 shsum :   29373.291       721997.00       163396.80       721995.44    
 shsum :   29373.291       721997.00      1.70914165E-03   721995.44    
 shsum :   29373.291       721997.00      3.09951720E-04   721995.44    
 fin   721997.00       29373.291       61.130280    
   24.580051    
 -2.25317706E+19   61.130280    
 ezero   0.0000000    
   721997.00    
  3.68586094E+19

Total energy input of :1.796E+06 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 7.220E+05 is absorbed (entot) 
                         through inelastic collisions (shsum =7.220E+05)
                                           + heating (elhsum =1.564E+00)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  61.13 eV (from qtoteV)
                                  or :  24.58 eV (from (entot))
                                  or :******* eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  60.0, longitude 235.0.

 REED : The energy degradation is computed from the center energies of the grid.
 REED : The energy degradation source term is interpolated linearly with tau.
 REED : The albedo at  80. km is set to 1.00
 REED : The low energy phase function is taken from Porter
 REED : Secondary distribution from Rees et al., PSS 17, 1997, 1969           
 REED : Wiscombe's delta-M method IS applied

 MAIN : The screening parameter for the Rutherford phase function is calculated
        from the Bethe/Moliere formula for E > 500 eV

 MAIN : The energy grid covers the range from : 0.001 [eV] up to :   287.9 [eV].

 MAIN : The total energy input from the precipitation source is : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]
                                  and from photoelectron source : 7.8872E+07 [eV/cm2/s]
                                                             or : 1.2637E-04 [erg/cm2/s]
 That variable "errorgaupin" is:           93

 MAIN : Total energy deposition in [CO2] is 2.025E+07 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 3.088E+06 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 1.759E+06 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 8.475E+06 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 8.832E-02 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 1.480E-02 [eV.cm-2.s-1] ("shsum").
   400445.75               2          21
   429852.59               2          23

 Total Heating :  7.602E+01 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  1.8830438E-06
 entot depart   76.021721       76.021721    
 shsum :   1118944.3       20245972.       20245896.       20245896.    
 shsum :   1190255.5       23334196.       3088224.5       23334120.    
 shsum :   1229207.9       25093696.       1759499.9       25093620.    
 shsum :   1557464.8       33568360.       8474663.0       33568284.    
 shsum :   1557464.8       33568360.      8.83187503E-02   33568284.    
 shsum :   1557464.8       33568360.      1.47985229E-02   33568284.    
 fin   33568360.       1557464.8       50.641235    
   21.553207    
 -4.24942071E+17   50.641235    
 ezero   0.0000000    
   33568360.    
  8.39122604E+17

Total energy input of :7.887E+07 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 3.357E+07 is absorbed (entot) 
                         through inelastic collisions (shsum =3.357E+07)
                                           + heating (elhsum =7.602E+01)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  50.64 eV (from qtoteV)
                                  or :  21.55 eV (from (entot))
                                  or :******* eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  45.0, longitude 240.0.

 REED : The energy degradation is computed from the center energies of the grid.
 REED : The energy degradation source term is interpolated linearly with tau.
 REED : The albedo at  80. km is set to 1.00
 REED : The low energy phase function is taken from Porter
 REED : Secondary distribution from Rees et al., PSS 17, 1997, 1969           
 REED : Wiscombe's delta-M method IS applied

 MAIN : The screening parameter for the Rutherford phase function is calculated
        from the Bethe/Moliere formula for E > 500 eV

 MAIN : The energy grid covers the range from : 0.001 [eV] up to :   287.9 [eV].

 MAIN : The total energy input from the precipitation source is : 1.3018E-28 [eV/cm2/s]
                                                             or : 2.0858E-40 [erg/cm2/s]
                                  and from photoelectron source : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]

 MAIN : Total energy deposition in [CO2] is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 Total Heating :  7.479E-37 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  0.0000000E+00
 entot depart  7.47854202E-37  7.47854202E-37
 shsum :   0.0000000      7.47854202E-37   0.0000000       0.0000000    
 shsum :   0.0000000      7.47854202E-37   0.0000000       0.0000000    
 shsum :   0.0000000      7.47854202E-37   0.0000000       0.0000000    
 shsum :   0.0000000      7.47854202E-37   0.0000000       0.0000000    
 shsum :   0.0000000      7.47854202E-37   0.0000000       0.0000000    
 shsum :   0.0000000      7.47854202E-37   0.0000000       0.0000000    
 fin  7.47854202E-37   0.0000000           +Infinity
       +Infinity
       -Infinity       +Infinity
 ezero   0.0000000    
  7.47854202E-37
       +Infinity

Total energy input of :1.302E-28 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 7.479E-37 is absorbed (entot) 
                         through inelastic collisions (shsum =0.000E+00)
                                           + heating (elhsum =7.479E-37)
 This refers to an energy gain of   +Inf %


 The average E. loss per ion pair is :   +Inf eV (from qtoteV)
                                  or :   +Inf eV (from (entot))
                                  or :   -Inf eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  50.0, longitude 240.0.

 REED : The energy degradation is computed from the center energies of the grid.
 REED : The energy degradation source term is interpolated linearly with tau.
 REED : The albedo at  80. km is set to 1.00
 REED : The low energy phase function is taken from Porter
 REED : Secondary distribution from Rees et al., PSS 17, 1997, 1969           
 REED : Wiscombe's delta-M method IS applied

 MAIN : The screening parameter for the Rutherford phase function is calculated
        from the Bethe/Moliere formula for E > 500 eV

 MAIN : The energy grid covers the range from : 0.001 [eV] up to :   287.9 [eV].

 MAIN : The total energy input from the precipitation source is : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]
                                  and from photoelectron source : 4.3511E+06 [eV/cm2/s]
                                                             or : 6.9714E-06 [erg/cm2/s]
 That variable "errorgaupin" is:           99

 MAIN : Total energy deposition in [CO2] is 1.112E+06 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 1.575E+05 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 8.770E+04 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 4.058E+05 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 4.264E-03 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 7.698E-04 [eV.cm-2.s-1] ("shsum").
   19321.107               2          21
   20846.746               2          23

 Total Heating :  3.825E+00 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  9.8529924E-08
 entot depart   3.8246944       3.8246944    
 shsum :   50848.336       1111905.1       1111901.3       1111901.3    
 shsum :   54579.684       1269365.5       157460.41       1269361.6    
 shsum :   56568.305       1357065.3       87699.688       1357061.3    
 shsum :   72498.203       1762878.1       405812.91       1762874.1    
 shsum :   72498.203       1762878.1      4.26394492E-03   1762874.1    
 shsum :   72498.203       1762878.1      7.69823440E-04   1762874.1    
 fin   1762878.1       72498.203       60.017220    
   24.316162    
 -9.12894763E+18   60.017220    
 ezero   0.0000000    
   1762878.1    
  1.52105471E+19

Total energy input of :4.351E+06 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 1.763E+06 is absorbed (entot) 
                         through inelastic collisions (shsum =1.763E+06)
                                           + heating (elhsum =3.825E+00)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  60.02 eV (from qtoteV)
                                  or :  24.32 eV (from (entot))
                                  or :******* eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  55.0, longitude 240.0.

 REED : The energy degradation is computed from the center energies of the grid.
 REED : The energy degradation source term is interpolated linearly with tau.
 REED : The albedo at  80. km is set to 1.00
 REED : The low energy phase function is taken from Porter
 REED : Secondary distribution from Rees et al., PSS 17, 1997, 1969           
 REED : Wiscombe's delta-M method IS applied

 MAIN : The screening parameter for the Rutherford phase function is calculated
        from the Bethe/Moliere formula for E > 500 eV

 MAIN : The energy grid covers the range from : 0.001 [eV] up to :   287.9 [eV].

 MAIN : The total energy input from the precipitation source is : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]
                                  and from photoelectron source : 7.6056E+07 [eV/cm2/s]
                                                             or : 1.2186E-04 [erg/cm2/s]
 That variable "errorgaupin" is:           91

 MAIN : Total energy deposition in [CO2] is 1.948E+07 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 2.973E+06 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 1.693E+06 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 8.165E+06 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 8.507E-02 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 1.428E-02 [eV.cm-2.s-1] ("shsum").
   384651.56               2          21
   412984.66               2          23

 Total Heating :  7.300E+01 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  1.8139981E-06
 entot depart   72.995979       72.995979    
 shsum :   1074347.1       19482894.       19482822.       19482822.    
 shsum :   1143043.5       22455996.       2973102.0       22455924.    
 shsum :   1180557.0       24149416.       1693420.3       24149344.    
 shsum :   1496988.3       32314708.       8165292.0       32314636.    
 shsum :   1496988.3       32314708.      8.50710571E-02   32314636.    
 shsum :   1496988.3       32314708.      1.42812701E-02   32314636.    
 fin   32314708.       1496988.3       50.805775    
   21.586481    
 -4.42109193E+17   50.805775    
 ezero   0.0000000    
   32314708.    
  8.70194803E+17

Total energy input of :7.606E+07 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 3.231E+07 is absorbed (entot) 
                         through inelastic collisions (shsum =3.231E+07)
                                           + heating (elhsum =7.300E+01)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  50.81 eV (from qtoteV)
                                  or :  21.59 eV (from (entot))
                                  or :******* eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  60.0, longitude 240.0.

 REED : The energy degradation is computed from the center energies of the grid.
 REED : The energy degradation source term is interpolated linearly with tau.
 REED : The albedo at  80. km is set to 1.00
 REED : The low energy phase function is taken from Porter
 REED : Secondary distribution from Rees et al., PSS 17, 1997, 1969           
 REED : Wiscombe's delta-M method IS applied

 MAIN : The screening parameter for the Rutherford phase function is calculated
        from the Bethe/Moliere formula for E > 500 eV

 MAIN : The energy grid covers the range from : 0.001 [eV] up to :   287.9 [eV].

 MAIN : The total energy input from the precipitation source is : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]
                                  and from photoelectron source : 5.2703E+08 [eV/cm2/s]
                                                             or : 8.4440E-04 [erg/cm2/s]
 That variable "errorgaupin" is:           81

 MAIN : Total energy deposition in [CO2] is 1.282E+08 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 2.259E+07 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 1.384E+07 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 6.885E+07 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 6.474E-01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 8.715E-02 [eV.cm-2.s-1] ("shsum").
   3536383.8               2          21
   3758260.8               2          23

 Total Heating :  6.183E+02 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  1.2346045E-05
 entot depart   618.34460       618.34460    
 shsum :   11705298.      1.28201288E+08  1.28200672E+08  1.28200672E+08
 shsum :   12172845.      1.50786960E+08   22585672.      1.50786336E+08
 shsum :   12441688.      1.64630336E+08   13843384.      1.64629728E+08
 shsum :   14948393.      2.33482096E+08   68851760.      2.33481488E+08
 shsum :   14948393.      2.33482096E+08  0.64740342      2.33481488E+08
 shsum :   14948393.      2.33482096E+08  8.71485919E-02  2.33481488E+08
 fin  2.33482096E+08   14948393.       35.256443    
   15.619210    
 -4.42744771E+16   35.256443    
 ezero   0.0000000    
  2.33482096E+08
  1.25578401E+17

Total energy input of :5.270E+08 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 2.335E+08 is absorbed (entot) 
                         through inelastic collisions (shsum =2.335E+08)
                                           + heating (elhsum =6.183E+02)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  35.26 eV (from qtoteV)
                                  or :  15.62 eV (from (entot))
                                  or :******* eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  45.0, longitude 245.0.

 REED : The energy degradation is computed from the center energies of the grid.
 REED : The energy degradation source term is interpolated linearly with tau.
 REED : The albedo at  80. km is set to 1.00
 REED : The low energy phase function is taken from Porter
 REED : Secondary distribution from Rees et al., PSS 17, 1997, 1969           
 REED : Wiscombe's delta-M method IS applied

 MAIN : The screening parameter for the Rutherford phase function is calculated
        from the Bethe/Moliere formula for E > 500 eV

 MAIN : The energy grid covers the range from : 0.001 [eV] up to :   287.9 [eV].

 MAIN : The total energy input from the precipitation source is : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]
                                  and from photoelectron source : 3.2179E+07 [eV/cm2/s]
                                                             or : 5.1558E-05 [erg/cm2/s]
 That variable "errorgaupin" is:           94

 MAIN : Total energy deposition in [CO2] is 8.290E+06 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 1.221E+06 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 6.862E+05 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 3.251E+06 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 3.411E-02 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 5.974E-03 [eV.cm-2.s-1] ("shsum").
   153868.47               2          21
   165650.09               2          23

 Total Heating :  2.954E+01 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  7.5732811E-07
 entot depart   29.541271       29.541271    
 shsum :   410451.53       8289590.5       8289561.0       8289561.0    
 shsum :   439131.69       9510226.0       1220635.8       9510197.0    
 shsum :   454603.25       10196434.       686207.56       10196405.    
 shsum :   581735.13       13447511.       3251077.0       13447482.    
 shsum :   581735.13       13447511.      3.41088660E-02   13447482.    
 shsum :   581735.13       13447511.      5.97384479E-03   13447482.    
 fin   13447511.       581735.13       55.316395    
   23.116209    
 -1.13768667E+18   55.316395    
 ezero   0.0000000    
   13447511.    
  2.05668983E+18

Total energy input of :3.218E+07 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 1.345E+07 is absorbed (entot) 
                         through inelastic collisions (shsum =1.345E+07)
                                           + heating (elhsum =2.954E+01)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  55.32 eV (from qtoteV)
                                  or :  23.12 eV (from (entot))
                                  or :******* eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  50.0, longitude 245.0.

 REED : The energy degradation is computed from the center energies of the grid.
 REED : The energy degradation source term is interpolated linearly with tau.
 REED : The albedo at  80. km is set to 1.00
 REED : The low energy phase function is taken from Porter
 REED : Secondary distribution from Rees et al., PSS 17, 1997, 1969           
 REED : Wiscombe's delta-M method IS applied

 MAIN : The screening parameter for the Rutherford phase function is calculated
        from the Bethe/Moliere formula for E > 500 eV

 MAIN : The energy grid covers the range from : 0.001 [eV] up to :   287.9 [eV].

 MAIN : The total energy input from the precipitation source is : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]
                                  and from photoelectron source : 1.7491E+08 [eV/cm2/s]
                                                             or : 2.8024E-04 [erg/cm2/s]
 That variable "errorgaupin" is:           86

 MAIN : Total energy deposition in [CO2] is 4.393E+07 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 7.082E+06 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 4.134E+06 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 2.033E+07 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 2.050E-01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 3.193E-02 [eV.cm-2.s-1] ("shsum").
   972557.56               2          21
   1040606.9               2          23

 Total Heating :  1.783E+02 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  4.1772741E-06
 entot depart   178.32057       178.32057    
 shsum :   2917752.5       43931952.       43931772.       43931772.    
 shsum :   3075946.5       51014072.       7082118.0       51013888.    
 shsum :   3163987.8       55148072.       4134000.5       55147888.    
 shsum :   3936966.3       75481984.       20333908.       75481792.    
 shsum :   3936966.3       75481984.      0.20497003       75481792.    
 shsum :   3936966.3       75481984.      3.19347158E-02   75481792.    
 fin   75481984.       3936966.3       44.427780    
   19.172626    
 -1.68107185E+17   44.427780    
 ezero   0.0000000    
   75481984.    
  3.78383011E+17

Total energy input of :1.749E+08 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 7.548E+07 is absorbed (entot) 
                         through inelastic collisions (shsum =7.548E+07)
                                           + heating (elhsum =1.783E+02)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  44.43 eV (from qtoteV)
                                  or :  19.17 eV (from (entot))
                                  or :******* eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  55.0, longitude 245.0.

 REED : The energy degradation is computed from the center energies of the grid.
 REED : The energy degradation source term is interpolated linearly with tau.
 REED : The albedo at  80. km is set to 1.00
 REED : The low energy phase function is taken from Porter
 REED : Secondary distribution from Rees et al., PSS 17, 1997, 1969           
 REED : Wiscombe's delta-M method IS applied

 MAIN : The screening parameter for the Rutherford phase function is calculated
        from the Bethe/Moliere formula for E > 500 eV

 MAIN : The energy grid covers the range from : 0.001 [eV] up to :   287.9 [eV].

 MAIN : The total energy input from the precipitation source is : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]
                                  and from photoelectron source : 7.1435E+08 [eV/cm2/s]
                                                             or : 1.1445E-03 [erg/cm2/s]
 That variable "errorgaupin" is:           82

 MAIN : Total energy deposition in [CO2] is 1.722E+08 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 3.121E+07 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 1.944E+07 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 9.671E+07 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 8.845E-01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 1.135E-01 [eV.cm-2.s-1] ("shsum").
   5128134.5               2          21
   5438435.0               2          23

 Total Heating :  8.788E+02 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  1.6603502E-05
 entot depart   878.83636       878.83636    
 shsum :   17228256.      1.72244208E+08  1.72243328E+08  1.72243328E+08
 shsum :   17857034.      2.03450288E+08   31206074.      2.03449408E+08
 shsum :   18222224.      2.22887744E+08   19437462.      2.22886864E+08
 shsum :   21691702.      3.19596672E+08   96708944.      3.19595808E+08
 shsum :   21691702.      3.19596672E+08  0.88451815      3.19595808E+08
 shsum :   21691702.      3.19596672E+08  0.11348474      3.19595808E+08
 fin  3.19596672E+08   21691702.       32.932167    
   14.733591    
 -3.05108507E+16   32.932167    
 ezero   0.0000000    
  3.19596672E+08
  9.26475642E+16

Total energy input of :7.144E+08 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 3.196E+08 is absorbed (entot) 
                         through inelastic collisions (shsum =3.196E+08)
                                           + heating (elhsum =8.788E+02)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  32.93 eV (from qtoteV)
                                  or :  14.73 eV (from (entot))
                                  or :******* eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  60.0, longitude 245.0.

 REED : The energy degradation is computed from the center energies of the grid.
 REED : The energy degradation source term is interpolated linearly with tau.
 REED : The albedo at  80. km is set to 1.00
 REED : The low energy phase function is taken from Porter
 REED : Secondary distribution from Rees et al., PSS 17, 1997, 1969           
 REED : Wiscombe's delta-M method IS applied

 MAIN : The screening parameter for the Rutherford phase function is calculated
        from the Bethe/Moliere formula for E > 500 eV

 MAIN : The energy grid covers the range from : 0.001 [eV] up to :   287.9 [eV].

 MAIN : The total energy input from the precipitation source is : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]
                                  and from photoelectron source : 2.1750E+09 [eV/cm2/s]
                                                             or : 3.4849E-03 [erg/cm2/s]
 That variable "errorgaupin" is:           78

 MAIN : Total energy deposition in [CO2] is 5.466E+08 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 1.057E+08 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 6.952E+07 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 3.335E+08 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 2.718E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 2.930E-01 [eV.cm-2.s-1] ("shsum").
   20883136.               2          21
   21993514.               2          23

 Total Heating :  3.364E+03 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  5.0682458E-05
 entot depart   3364.4727       3364.4727    
 shsum :   67451128.      5.46600384E+08  5.46596992E+08  5.46596992E+08
 shsum :   69370480.      6.52284352E+08  1.05683944E+08  6.52280960E+08
 shsum :   70519208.      7.21800512E+08   69516152.      7.21797120E+08
 shsum :   81834040.      1.05534963E+09  3.33549088E+08  1.05534618E+09
 shsum :   81834040.      1.05534963E+09   2.7180586      1.05534618E+09
 shsum :   81834040.      1.05534963E+09  0.29297924      1.05534618E+09
 fin  1.05534963E+09   81834040.       26.578789    
   12.896218    
 -8.08749375E+15   26.578789    
 ezero   0.0000000    
  1.05534963E+09
  3.04283744E+16

Total energy input of :2.175E+09 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 1.055E+09 is absorbed (entot) 
                         through inelastic collisions (shsum =1.055E+09)
                                           + heating (elhsum =3.364E+03)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  26.58 eV (from qtoteV)
                                  or :  12.90 eV (from (entot))
                                  or :******* eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  45.0, longitude 250.0.

 REED : The energy degradation is computed from the center energies of the grid.
 REED : The energy degradation source term is interpolated linearly with tau.
 REED : The albedo at  80. km is set to 1.00
 REED : The low energy phase function is taken from Porter
 REED : Secondary distribution from Rees et al., PSS 17, 1997, 1969           
 REED : Wiscombe's delta-M method IS applied

 MAIN : The screening parameter for the Rutherford phase function is calculated
        from the Bethe/Moliere formula for E > 500 eV

 MAIN : The energy grid covers the range from : 0.001 [eV] up to :   287.9 [eV].

 MAIN : The total energy input from the precipitation source is : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]
                                  and from photoelectron source : 7.0902E+08 [eV/cm2/s]
                                                             or : 1.1360E-03 [erg/cm2/s]
 That variable "errorgaupin" is:           66

 MAIN : Total energy deposition in [CO2] is 1.715E+08 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 3.100E+07 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 1.929E+07 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 9.591E+07 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 8.722E-01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 1.122E-01 [eV.cm-2.s-1] ("shsum").
   5103577.0               2          21
   5413998.5               2          23

 Total Heating :  8.662E+02 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  1.6516127E-05
 entot depart   866.23035       866.23035    
 shsum :   17028994.      1.71459776E+08  1.71458912E+08  1.71458912E+08
 shsum :   17654462.      2.02457120E+08   30997340.      2.02456256E+08
 shsum :   18017486.      2.21748656E+08   19291532.      2.21747792E+08
 shsum :   21460570.      3.17660160E+08   95911520.      3.17659328E+08
 shsum :   21460570.      3.17660160E+08  0.87216741      3.17659328E+08
 shsum :   21460570.      3.17660160E+08  0.11216814      3.17659328E+08
 fin  3.17660160E+08   21460570.       33.038208    
   14.802037    
 -3.08394543E+16   33.038208    
 ezero   0.0000000    
  3.17660160E+08
  9.33448092E+16

Total energy input of :7.090E+08 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 3.177E+08 is absorbed (entot) 
                         through inelastic collisions (shsum =3.177E+08)
                                           + heating (elhsum =8.662E+02)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  33.04 eV (from qtoteV)
                                  or :  14.80 eV (from (entot))
                                  or :******* eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  50.0, longitude 250.0.

 REED : The energy degradation is computed from the center energies of the grid.
 REED : The energy degradation source term is interpolated linearly with tau.
 REED : The albedo at  80. km is set to 1.00
 REED : The low energy phase function is taken from Porter
 REED : Secondary distribution from Rees et al., PSS 17, 1997, 1969           
 REED : Wiscombe's delta-M method IS applied

 MAIN : The screening parameter for the Rutherford phase function is calculated
        from the Bethe/Moliere formula for E > 500 eV

 MAIN : The energy grid covers the range from : 0.001 [eV] up to :   287.9 [eV].

 MAIN : The total energy input from the precipitation source is : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]
                                  and from photoelectron source : 1.6236E+09 [eV/cm2/s]
                                                             or : 2.6014E-03 [erg/cm2/s]
 That variable "errorgaupin" is:           76

 MAIN : Total energy deposition in [CO2] is 3.984E+08 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 7.624E+07 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 4.948E+07 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 2.412E+08 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 2.025E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 2.284E-01 [eV.cm-2.s-1] ("shsum").
   14387604.               2          21
   15177283.               2          23

 Total Heating :  2.338E+03 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  3.7599999E-05
 entot depart   2337.6079       2337.6079    
 shsum :   47507528.      3.98355168E+08  3.98352832E+08  3.98352832E+08
 shsum :   48931448.      4.74594848E+08   76239688.      4.74592512E+08
 shsum :   49777992.      5.24071968E+08   49477116.      5.24069632E+08
 shsum :   58084272.      7.65271296E+08  2.41199312E+08  7.65268928E+08
 shsum :   58084272.      7.65271296E+08   2.0252743      7.65268928E+08
 shsum :   58084272.      7.65271296E+08  0.22841308      7.65268928E+08
 fin  7.65271296E+08   58084272.       27.952829    
   13.175190    
 -1.13943464E+16   27.952829    
 ezero   0.0000000    
  7.65271296E+08
  4.07627658E+16

Total energy input of :1.624E+09 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 7.653E+08 is absorbed (entot) 
                         through inelastic collisions (shsum =7.653E+08)
                                           + heating (elhsum =2.338E+03)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  27.95 eV (from qtoteV)
                                  or :  13.18 eV (from (entot))
                                  or :******* eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  55.0, longitude 250.0.

 REED : The energy degradation is computed from the center energies of the grid.
 REED : The energy degradation source term is interpolated linearly with tau.
 REED : The albedo at  80. km is set to 1.00
 REED : The low energy phase function is taken from Porter
 REED : Secondary distribution from Rees et al., PSS 17, 1997, 1969           
 REED : Wiscombe's delta-M method IS applied

 MAIN : The screening parameter for the Rutherford phase function is calculated
        from the Bethe/Moliere formula for E > 500 eV

 MAIN : The energy grid covers the range from : 0.001 [eV] up to :   287.9 [eV].

 MAIN : The total energy input from the precipitation source is : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]
                                  and from photoelectron source : 3.2835E+09 [eV/cm2/s]
                                                             or : 5.2608E-03 [erg/cm2/s]
 That variable "errorgaupin" is:           70

 MAIN : Total energy deposition in [CO2] is 8.636E+08 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 1.687E+08 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 1.131E+08 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 5.285E+08 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 4.071E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 4.110E-01 [eV.cm-2.s-1] ("shsum").
   35607036.               2          21
   37446868.               2          23

 Total Heating :  5.620E+03 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  7.7595840E-05
 entot depart   5620.4941       5620.4941    
 shsum :  1.09783136E+08  8.63604416E+08  8.63598784E+08  8.63598784E+08
 shsum :  1.12721704E+08  1.03230349E+09  1.68699072E+08  1.03229786E+09
 shsum :  1.14494496E+08  1.14539008E+09  1.13086624E+08  1.14538445E+09
 shsum :  1.32026576E+08  1.67390682E+09  5.28516704E+08  1.67390118E+09
 shsum :  1.32026576E+08  1.67390682E+09   4.0705118      1.67390118E+09
 shsum :  1.32026576E+08  1.67390682E+09  0.41101730      1.67390118E+09
 fin  1.67390682E+09  1.32026576E+08   24.869846    
   12.678559    
 -5.01287162E+15   24.869846    
 ezero   0.0000000    
  1.67390682E+09
  2.01564233E+16

Total energy input of :3.283E+09 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 1.674E+09 is absorbed (entot) 
                         through inelastic collisions (shsum =1.674E+09)
                                           + heating (elhsum =5.620E+03)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  24.87 eV (from qtoteV)
                                  or :  12.68 eV (from (entot))
                                  or :******* eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  60.0, longitude 250.0.

 REED : The energy degradation is computed from the center energies of the grid.
 REED : The energy degradation source term is interpolated linearly with tau.
 REED : The albedo at  80. km is set to 1.00
 REED : The low energy phase function is taken from Porter
 REED : Secondary distribution from Rees et al., PSS 17, 1997, 1969           
 REED : Wiscombe's delta-M method IS applied

 MAIN : The screening parameter for the Rutherford phase function is calculated
        from the Bethe/Moliere formula for E > 500 eV

 MAIN : The energy grid covers the range from : 0.001 [eV] up to :   287.9 [eV].

 MAIN : The total energy input from the precipitation source is : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]
                                  and from photoelectron source : 5.9653E+09 [eV/cm2/s]
                                                             or : 9.5577E-03 [erg/cm2/s]
 That variable "errorgaupin" is:           70

 MAIN : Total energy deposition in [CO2] is 1.751E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 3.382E+08 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 2.323E+08 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 1.022E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 7.174E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 6.595E-01 [eV.cm-2.s-1] ("shsum").
   77205960.               2          21
   81224800.               2          23

 Total Heating :  1.209E+04 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  1.4586881E-04
 entot depart   12090.217       12090.217    
 shsum :  2.17852976E+08  1.75133056E+09  1.75131853E+09  1.75131853E+09
 shsum :  2.23377056E+08  2.08958054E+09  3.38249920E+08  2.08956851E+09
 shsum :  2.26726624E+08  2.32185011E+09  2.32269632E+08  2.32183808E+09
 shsum :  2.59453424E+08  3.34397286E+09  1.02212275E+09  3.34396083E+09
 shsum :  2.59453424E+08  3.34397286E+09   7.1739478      3.34396083E+09
 shsum :  2.59453424E+08  3.34397286E+09  0.65945935      3.34396083E+09
 fin  3.34397286E+09  2.59453424E+08   22.991970    
   12.888529    
 -2.55087127E+15   22.991970    
 ezero   0.0000000    
  3.34397286E+09
  1.10946189E+16

Total energy input of :5.965E+09 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 3.344E+09 is absorbed (entot) 
                         through inelastic collisions (shsum =3.344E+09)
                                           + heating (elhsum =1.209E+04)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  22.99 eV (from qtoteV)
                                  or :  12.89 eV (from (entot))
                                  or :******* eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  45.0, longitude 255.0.

 REED : The energy degradation is computed from the center energies of the grid.
 REED : The energy degradation source term is interpolated linearly with tau.
 REED : The albedo at  80. km is set to 1.00
 REED : The low energy phase function is taken from Porter
 REED : Secondary distribution from Rees et al., PSS 17, 1997, 1969           
 REED : Wiscombe's delta-M method IS applied

 MAIN : The screening parameter for the Rutherford phase function is calculated
        from the Bethe/Moliere formula for E > 500 eV

 MAIN : The energy grid covers the range from : 0.001 [eV] up to :   287.9 [eV].

 MAIN : The total energy input from the precipitation source is : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]
                                  and from photoelectron source : 4.4913E+09 [eV/cm2/s]
                                                             or : 7.1960E-03 [erg/cm2/s]
 That variable "errorgaupin" is:           83

 MAIN : Total energy deposition in [CO2] is 1.249E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 2.428E+08 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 1.648E+08 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 7.478E+08 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 5.456E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 5.253E-01 [eV.cm-2.s-1] ("shsum").
   53674916.               2          21
   56442836.               2          23

 Total Heating :  8.318E+03 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  1.0815451E-04
 entot depart   8317.9580       8317.9580    
 shsum :  1.57404416E+08  1.24880602E+09  1.24879770E+09  1.24879770E+09
 shsum :  1.61500240E+08  1.49160051E+09  2.42794528E+08  1.49159219E+09
 shsum :  1.63978704E+08  1.65641690E+09  1.64816384E+08  1.65640858E+09
 shsum :  1.88349664E+08  2.40425882E+09  7.47841920E+08  2.40425062E+09
 shsum :  1.88349664E+08  2.40425882E+09   5.4563341      2.40425062E+09
 shsum :  1.88349664E+08  2.40425882E+09  0.52527440      2.40425062E+09
 fin  2.40425882E+09  1.88349664E+08   23.845640    
   12.764869    
 -3.51384911E+15   23.845640    
 ezero   0.0000000    
  2.40425882E+09
  1.47358127E+16

Total energy input of :4.491E+09 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 2.404E+09 is absorbed (entot) 
                         through inelastic collisions (shsum =2.404E+09)
                                           + heating (elhsum =8.318E+03)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  23.85 eV (from qtoteV)
                                  or :  12.76 eV (from (entot))
                                  or :******* eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  50.0, longitude 255.0.

 REED : The energy degradation is computed from the center energies of the grid.
 REED : The energy degradation source term is interpolated linearly with tau.
 REED : The albedo at  80. km is set to 1.00
 REED : The low energy phase function is taken from Porter
 REED : Secondary distribution from Rees et al., PSS 17, 1997, 1969           
 REED : Wiscombe's delta-M method IS applied

 MAIN : The screening parameter for the Rutherford phase function is calculated
        from the Bethe/Moliere formula for E > 500 eV

 MAIN : The energy grid covers the range from : 0.001 [eV] up to :   287.9 [eV].

 MAIN : The total energy input from the precipitation source is : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]
                                  and from photoelectron source : 6.4913E+09 [eV/cm2/s]
                                                             or : 1.0400E-02 [erg/cm2/s]
 That variable "errorgaupin" is:           64

 MAIN : Total energy deposition in [CO2] is 1.942E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 3.738E+08 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 2.575E+08 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 1.122E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 7.719E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 7.001E-01 [eV.cm-2.s-1] ("shsum").
   86228952.               2          21
   90767976.               2          23

 Total Heating :  1.341E+04 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  1.5963973E-04
 entot depart   13411.502       13411.502    
 shsum :  2.39622304E+08  1.94205427E+09  1.94204083E+09  1.94204083E+09
 shsum :  2.45667888E+08  2.31581312E+09  3.73758752E+08  2.31579955E+09
 shsum :  2.49333136E+08  2.57327974E+09  2.57466576E+08  2.57326618E+09
 shsum :  2.85072352E+08  3.69552691E+09  1.12224730E+09  3.69551360E+09
 shsum :  2.85072352E+08  3.69552691E+09   7.7190032      3.69551360E+09
 shsum :  2.85072352E+08  3.69552691E+09  0.70006514      3.69551360E+09
 fin  3.69552691E+09  2.85072352E+08   22.770695    
   12.963470    
 -2.32162927E+15   22.770695    
 ezero   0.0000000    
  3.69552691E+09
  1.01956886E+16

Total energy input of :6.491E+09 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 3.696E+09 is absorbed (entot) 
                         through inelastic collisions (shsum =3.696E+09)
                                           + heating (elhsum =1.341E+04)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  22.77 eV (from qtoteV)
                                  or :  12.96 eV (from (entot))
                                  or :******* eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  55.0, longitude 255.0.

 REED : The energy degradation is computed from the center energies of the grid.
 REED : The energy degradation source term is interpolated linearly with tau.
 REED : The albedo at  80. km is set to 1.00
 REED : The low energy phase function is taken from Porter
 REED : Secondary distribution from Rees et al., PSS 17, 1997, 1969           
 REED : Wiscombe's delta-M method IS applied

 MAIN : The screening parameter for the Rutherford phase function is calculated
        from the Bethe/Moliere formula for E > 500 eV

 MAIN : The energy grid covers the range from : 0.001 [eV] up to :   287.9 [eV].

 MAIN : The total energy input from the precipitation source is : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]
                                  and from photoelectron source : 9.1962E+09 [eV/cm2/s]
                                                             or : 1.4734E-02 [erg/cm2/s]
 That variable "errorgaupin" is:           77

 MAIN : Total energy deposition in [CO2] is 2.995E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 5.643E+08 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 3.934E+08 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 1.635E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 1.055E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 9.035E-01 [eV.cm-2.s-1] ("shsum").
  1.33933880E+08           2          21
  1.41380528E+08           2          23

 Total Heating :  2.112E+04 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  2.3083997E-04
 entot depart   21116.047       21116.047    
 shsum :  3.53957984E+08  2.99546778E+09  2.99544678E+09  2.99544678E+09
 shsum :  3.62699936E+08  3.55972864E+09  5.64260736E+08  3.55970765E+09
 shsum :  3.67988416E+08  3.95309158E+09  3.93362976E+08  3.95307059E+09
 shsum :  4.18808224E+08  5.58773914E+09  1.63464755E+09  5.58771814E+09
 shsum :  4.18808224E+08  5.58773914E+09   10.550022      5.58771814E+09
 shsum :  4.18808224E+08  5.58773914E+09  0.90347469      5.58771814E+09
 fin  5.58773914E+09  4.18808224E+08   21.958097    
   13.342000    
 -1.58027523E+15   21.958097    
 ezero   0.0000000    
  5.58773914E+09
  7.19677712E+15

Total energy input of :9.196E+09 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 5.588E+09 is absorbed (entot) 
                         through inelastic collisions (shsum =5.588E+09)
                                           + heating (elhsum =2.112E+04)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  21.96 eV (from qtoteV)
                                  or :  13.34 eV (from (entot))
                                  or :******* eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  60.0, longitude 255.0.

 REED : The energy degradation is computed from the center energies of the grid.
 REED : The energy degradation source term is interpolated linearly with tau.
 REED : The albedo at  80. km is set to 1.00
 REED : The low energy phase function is taken from Porter
 REED : Secondary distribution from Rees et al., PSS 17, 1997, 1969           
 REED : Wiscombe's delta-M method IS applied

 MAIN : The screening parameter for the Rutherford phase function is calculated
        from the Bethe/Moliere formula for E > 500 eV

 MAIN : The energy grid covers the range from : 0.001 [eV] up to :   287.9 [eV].

 MAIN : The total energy input from the precipitation source is : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]
                                  and from photoelectron source : 1.2763E+10 [eV/cm2/s]
                                                             or : 2.0450E-02 [erg/cm2/s]
 That variable "errorgaupin" is:           81

 MAIN : Total energy deposition in [CO2] is 4.551E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 8.312E+08 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 5.848E+08 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 2.304E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 1.391E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 1.127E+00 [eV.cm-2.s-1] ("shsum").
  1.99988560E+08           2          21
  2.11958304E+08           2          23

 Total Heating :  3.227E+04 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  3.2530670E-04
 entot depart   32273.434       32273.434    
 shsum :  5.08166912E+08  4.55148646E+09  4.55145421E+09  4.55145421E+09
 shsum :  5.20486336E+08  5.38273382E+09  8.31247552E+08  5.38270157E+09
 shsum :  5.27894208E+08  5.96754739E+09  5.84813760E+08  5.96751514E+09
 shsum :  5.97745600E+08  8.27144602E+09  2.30389888E+09  8.27141427E+09
 shsum :  5.97745600E+08  8.27144602E+09   13.914541      8.27141427E+09
 shsum :  5.97745600E+08  8.27144602E+09   1.1274083      8.27141427E+09
 fin  8.27144602E+09  5.97745600E+08   21.352623    
   13.837736    
 -1.10721398E+15   21.352623    
 ezero   0.0000000    
  8.27144602E+09
  5.18537683E+15

Total energy input of :1.276E+10 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 8.271E+09 is absorbed (entot) 
                         through inelastic collisions (shsum =8.271E+09)
                                           + heating (elhsum =3.227E+04)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  21.35 eV (from qtoteV)
                                  or :  13.84 eV (from (entot))
                                  or :******* eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  45.0, longitude 260.0.

 REED : The energy degradation is computed from the center energies of the grid.
 REED : The energy degradation source term is interpolated linearly with tau.
 REED : The albedo at  80. km is set to 1.00
 REED : The low energy phase function is taken from Porter
 REED : Secondary distribution from Rees et al., PSS 17, 1997, 1969           
 REED : Wiscombe's delta-M method IS applied

 MAIN : The screening parameter for the Rutherford phase function is calculated
        from the Bethe/Moliere formula for E > 500 eV

 MAIN : The energy grid covers the range from : 0.001 [eV] up to :   287.9 [eV].

 MAIN : The total energy input from the precipitation source is : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]
                                  and from photoelectron source : 1.4071E+10 [eV/cm2/s]
                                                             or : 2.2545E-02 [erg/cm2/s]
 That variable "errorgaupin" is:           82

 MAIN : Total energy deposition in [CO2] is 5.177E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 9.325E+08 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 6.572E+08 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 2.543E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 1.491E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 1.189E+00 [eV.cm-2.s-1] ("shsum").
  2.25468192E+08           2          21
  2.39326384E+08           2          23

 Total Heating :  3.616E+04 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  3.6015690E-04
 entot depart   36164.781       36164.781    
 shsum :  5.64472384E+08  5.17700966E+09  5.17697331E+09  5.17697331E+09
 shsum :  5.78111616E+08  6.10948608E+09  9.32476160E+08  6.10944922E+09
 shsum :  5.86284736E+08  6.76665088E+09  6.57164672E+08  6.76661402E+09
 shsum :  6.62797696E+08  9.30997862E+09  2.54332800E+09  9.30994176E+09
 shsum :  6.62797696E+08  9.30997862E+09   14.908104      9.30994176E+09
 shsum :  6.62797696E+08  9.30997862E+09   1.1891539      9.30994176E+09
 fin  9.30997862E+09  6.62797696E+08   21.229683    
   14.046486    
 -9.98543456E+14   21.229683    
 ezero   0.0000000    
  9.30997862E+09
  4.70352499E+15

Total energy input of :1.407E+10 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 9.310E+09 is absorbed (entot) 
                         through inelastic collisions (shsum =9.310E+09)
                                           + heating (elhsum =3.616E+04)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  21.23 eV (from qtoteV)
                                  or :  14.05 eV (from (entot))
                                  or :******* eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  50.0, longitude 260.0.

 REED : The energy degradation is computed from the center energies of the grid.
 REED : The energy degradation source term is interpolated linearly with tau.
 REED : The albedo at  80. km is set to 1.00
 REED : The low energy phase function is taken from Porter
 REED : Secondary distribution from Rees et al., PSS 17, 1997, 1969           
 REED : Wiscombe's delta-M method IS applied

 MAIN : The screening parameter for the Rutherford phase function is calculated
        from the Bethe/Moliere formula for E > 500 eV

 MAIN : The energy grid covers the range from : 0.001 [eV] up to :   287.9 [eV].

 MAIN : The total energy input from the precipitation source is : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]
                                  and from photoelectron source : 1.6648E+10 [eV/cm2/s]
                                                             or : 2.6673E-02 [erg/cm2/s]
 That variable "errorgaupin" is:           67

 MAIN : Total energy deposition in [CO2] is 6.420E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 1.134E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 8.025E+08 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 3.016E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 1.708E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 1.322E+00 [eV.cm-2.s-1] ("shsum").
  2.73261376E+08           2          21
  2.90787104E+08           2          23

 Total Heating :  4.487E+04 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  4.2715095E-04
 entot depart   44873.180       44873.180    
 shsum :  6.78572224E+08  6.41992397E+09  6.41987891E+09  6.41987891E+09
 shsum :  6.94748480E+08  7.55416781E+09  1.13424358E+09  7.55412275E+09
 shsum :  7.04397440E+08  8.35665203E+09  8.02484352E+08  8.35660698E+09
 shsum :  7.93855744E+08  1.13727898E+10  3.01613722E+09  1.13727447E+10
 shsum :  7.93855744E+08  1.13727898E+10   17.078648      1.13727447E+10
 shsum :  7.93855744E+08  1.13727898E+10   1.3221314      1.13727447E+10
 fin  1.13727898E+10  7.93855744E+08   20.970495    
   14.326015    
 -8.33693417E+14   20.970495    
 ezero   0.0000000    
  1.13727898E+10
  3.97555434E+15

Total energy input of :1.665E+10 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 1.137E+10 is absorbed (entot) 
                         through inelastic collisions (shsum =1.137E+10)
                                           + heating (elhsum =4.487E+04)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  20.97 eV (from qtoteV)
                                  or :  14.33 eV (from (entot))
                                  or :******* eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  55.0, longitude 260.0.

 REED : The energy degradation is computed from the center energies of the grid.
 REED : The energy degradation source term is interpolated linearly with tau.
 REED : The albedo at  80. km is set to 1.00
 REED : The low energy phase function is taken from Porter
 REED : Secondary distribution from Rees et al., PSS 17, 1997, 1969           
 REED : Wiscombe's delta-M method IS applied

 MAIN : The screening parameter for the Rutherford phase function is calculated
        from the Bethe/Moliere formula for E > 500 eV

 MAIN : The energy grid covers the range from : 0.001 [eV] up to :   287.9 [eV].

 MAIN : The total energy input from the precipitation source is : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]
                                  and from photoelectron source : 1.9745E+10 [eV/cm2/s]
                                                             or : 3.1636E-02 [erg/cm2/s]
 That variable "errorgaupin" is:           84

 MAIN : Total energy deposition in [CO2] is 8.002E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 1.381E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 9.801E+08 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 3.568E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 1.948E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 1.463E+00 [eV.cm-2.s-1] ("shsum").
  3.30275680E+08           2          21
  3.52345888E+08           2          23

 Total Heating :  5.564E+04 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  5.0647464E-04
 entot depart   55643.277       55643.277    
 shsum :  8.16825472E+08  8.00158976E+09  8.00153395E+09  8.00153395E+09
 shsum :  8.36005760E+08  9.38280243E+09  1.38121267E+09  9.38274611E+09
 shsum :  8.47378688E+08  1.03628943E+10  9.80092160E+08  1.03628380E+10
 shsum :  9.51615232E+08  1.39306025E+10  3.56770816E+09  1.39305462E+10
 shsum :  9.51615232E+08  1.39306025E+10   19.479937      1.39305462E+10
 shsum :  9.51615232E+08  1.39306025E+10   1.4628808      1.39305462E+10
 fin  1.39306025E+10  9.51615232E+08   20.749081    
   14.638903    
 -6.95483048E+14   20.749081    
 ezero   0.0000000    
  1.39306025E+10
  3.35187435E+15

Total energy input of :1.975E+10 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 1.393E+10 is absorbed (entot) 
                         through inelastic collisions (shsum =1.393E+10)
                                           + heating (elhsum =5.564E+04)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  20.75 eV (from qtoteV)
                                  or :  14.64 eV (from (entot))
                                  or :******* eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  60.0, longitude 260.0.

 REED : The energy degradation is computed from the center energies of the grid.
 REED : The energy degradation source term is interpolated linearly with tau.
 REED : The albedo at  80. km is set to 1.00
 REED : The low energy phase function is taken from Porter
 REED : Secondary distribution from Rees et al., PSS 17, 1997, 1969           
 REED : Wiscombe's delta-M method IS applied

 MAIN : The screening parameter for the Rutherford phase function is calculated
        from the Bethe/Moliere formula for E > 500 eV

 MAIN : The energy grid covers the range from : 0.001 [eV] up to :   287.9 [eV].

 MAIN : The total energy input from the precipitation source is : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]
                                  and from photoelectron source : 2.3420E+10 [eV/cm2/s]
                                                             or : 3.7524E-02 [erg/cm2/s]
 That variable "errorgaupin" is:           90

 MAIN : Total energy deposition in [CO2] is 9.984E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 1.678E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 1.193E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 4.197E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 2.208E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 1.608E+00 [eV.cm-2.s-1] ("shsum").
  3.96961920E+08           2          21
  4.24508448E+08           2          23

 Total Heating :  6.868E+04 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  5.9848407E-04
 entot depart   68681.156       68681.156    
 shsum :  9.82120192E+08  9.98387098E+09  9.98380237E+09  9.98380237E+09
 shsum :  1.00478490E+09  1.16618025E+10  1.67793178E+09  1.16617339E+10
 shsum :  1.01812902E+09  1.28547830E+10  1.19298022E+09  1.28547144E+10
 shsum :  1.13885632E+09  1.70522563E+10  4.19747354E+09  1.70521876E+10
 shsum :  1.13885632E+09  1.70522563E+10   22.078043      1.70521876E+10
 shsum :  1.13885632E+09  1.70522563E+10   1.6082848      1.70521876E+10
 fin  1.70522563E+10  1.13885632E+09   20.564737    
   14.973141    
 -5.81137664E+14   20.564737    
 ezero   0.0000000    
  1.70522563E+10
  2.82589387E+15

Total energy input of :2.342E+10 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 1.705E+10 is absorbed (entot) 
                         through inelastic collisions (shsum =1.705E+10)
                                           + heating (elhsum =6.868E+04)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  20.56 eV (from qtoteV)
                                  or :  14.97 eV (from (entot))
                                  or :******* eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  45.0, longitude 265.0.

 REED : The energy degradation is computed from the center energies of the grid.
 REED : The energy degradation source term is interpolated linearly with tau.
 REED : The albedo at  80. km is set to 1.00
 REED : The low energy phase function is taken from Porter
 REED : Secondary distribution from Rees et al., PSS 17, 1997, 1969           
 REED : Wiscombe's delta-M method IS applied

 MAIN : The screening parameter for the Rutherford phase function is calculated
        from the Bethe/Moliere formula for E > 500 eV

 MAIN : The energy grid covers the range from : 0.001 [eV] up to :   287.9 [eV].

 MAIN : The total energy input from the precipitation source is : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]
                                  and from photoelectron source : 3.1662E+10 [eV/cm2/s]
                                                             or : 5.0728E-02 [erg/cm2/s]
 That variable "errorgaupin" is:           90

 MAIN : Total energy deposition in [CO2] is 1.478E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 2.347E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 1.669E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 5.521E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 2.683E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 1.855E+00 [eV.cm-2.s-1] ("shsum").
  5.42145024E+08           2          21
  5.82326592E+08           2          23

 Total Heating :  9.679E+04 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  7.9637684E-04
 entot depart   96785.813       96785.813    
 shsum :  1.35424755E+09  1.47824609E+10  1.47823636E+10  1.47823636E+10
 shsum :  1.38440653E+09  1.71294157E+10  2.34695475E+09  1.71293184E+10
 shsum :  1.40188160E+09  1.87986760E+10  1.66926054E+09  1.87985797E+10
 shsum :  1.55619994E+09  2.43196498E+10  5.52097331E+09  2.43195535E+10
 shsum :  1.55619994E+09  2.43196498E+10   26.833755      2.43195535E+10
 shsum :  1.55619994E+09  2.43196498E+10   1.8548195      2.43195535E+10
 fin  2.43196498E+10  1.55619994E+09   20.345421    
   15.627587    
 -4.25287427E+14   20.345421    
 ezero   0.0000000    
  2.43196498E+10
  2.09033481E+15

Total energy input of :3.166E+10 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 2.432E+10 is absorbed (entot) 
                         through inelastic collisions (shsum =2.432E+10)
                                           + heating (elhsum =9.679E+04)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  20.35 eV (from qtoteV)
                                  or :  15.63 eV (from (entot))
                                  or :******* eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  50.0, longitude 265.0.

 REED : The energy degradation is computed from the center energies of the grid.
 REED : The energy degradation source term is interpolated linearly with tau.
 REED : The albedo at  80. km is set to 1.00
 REED : The low energy phase function is taken from Porter
 REED : Secondary distribution from Rees et al., PSS 17, 1997, 1969           
 REED : Wiscombe's delta-M method IS applied

 MAIN : The screening parameter for the Rutherford phase function is calculated
        from the Bethe/Moliere formula for E > 500 eV

 MAIN : The energy grid covers the range from : 0.001 [eV] up to :   287.9 [eV].

 MAIN : The total energy input from the precipitation source is : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]
                                  and from photoelectron source : 3.3689E+10 [eV/cm2/s]
                                                             or : 5.3977E-02 [erg/cm2/s]
 That variable "errorgaupin" is:           92

 MAIN : Total energy deposition in [CO2] is 1.599E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 2.512E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 1.787E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 5.840E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 2.804E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 1.916E+00 [eV.cm-2.s-1] ("shsum").
  5.73538304E+08           2          21
  6.16500096E+08           2          23

 Total Heating :  1.043E+05 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  8.4315625E-04
 entot depart   104288.40       104288.40    
 shsum :  1.44774976E+09  1.59936594E+10  1.59935549E+10  1.59935549E+10
 shsum :  1.47968026E+09  1.85058959E+10  2.51223654E+09  1.85057915E+10
 shsum :  1.49812480E+09  2.02928701E+10  1.78697434E+09  2.02927657E+10
 shsum :  1.66037453E+09  2.61330166E+10  5.84014643E+09  2.61329121E+10
 shsum :  1.66037453E+09  2.61330166E+10   28.037174      2.61329121E+10
 shsum :  1.66037453E+09  2.61330166E+10   1.9159473      2.61329121E+10
 fin  2.61330166E+10  1.66037453E+09   20.290287    
   15.739230    
 -3.98604204E+14   20.290287    
 ezero   0.0000000    
  2.61330166E+10
  1.96450757E+15

Total energy input of :3.369E+10 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 2.613E+10 is absorbed (entot) 
                         through inelastic collisions (shsum =2.613E+10)
                                           + heating (elhsum =1.043E+05)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  20.29 eV (from qtoteV)
                                  or :  15.74 eV (from (entot))
                                  or :******* eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  55.0, longitude 265.0.

 REED : The energy degradation is computed from the center energies of the grid.
 REED : The energy degradation source term is interpolated linearly with tau.
 REED : The albedo at  80. km is set to 1.00
 REED : The low energy phase function is taken from Porter
 REED : Secondary distribution from Rees et al., PSS 17, 1997, 1969           
 REED : Wiscombe's delta-M method IS applied

 MAIN : The screening parameter for the Rutherford phase function is calculated
        from the Bethe/Moliere formula for E > 500 eV

 MAIN : The energy grid covers the range from : 0.001 [eV] up to :   287.9 [eV].

 MAIN : The total energy input from the precipitation source is : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]
                                  and from photoelectron source : 3.5982E+10 [eV/cm2/s]
                                                             or : 5.7651E-02 [erg/cm2/s]
 That variable "errorgaupin" is:          102

 MAIN : Total energy deposition in [CO2] is 1.739E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 2.699E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 1.919E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 6.189E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 2.932E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 1.980E+00 [eV.cm-2.s-1] ("shsum").
  6.09217472E+08           2          21
  6.55313664E+08           2          23

 Total Heating :  1.127E+05 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  8.9529925E-04
 entot depart   112727.53       112727.53    
 shsum :  1.55359270E+09  1.73943665E+10  1.73942538E+10  1.73942538E+10
 shsum :  1.58749786E+09  2.00934277E+10  2.69906176E+09  2.00933151E+10
 shsum :  1.60701030E+09  2.20126085E+10  1.91918106E+09  2.20124959E+10
 shsum :  1.77782234E+09  2.82013655E+10  6.18875597E+09  2.82012508E+10
 shsum :  1.77782234E+09  2.82013655E+10   29.324543      2.82012508E+10
 shsum :  1.77782234E+09  2.82013655E+10   1.9799932      2.82012508E+10
 fin  2.82013655E+10  1.77782234E+09   20.239626    
   15.862870    
 -3.72271324E+14   20.239626    
 ezero   0.0000000    
  2.82013655E+10
  1.83931934E+15

Total energy input of :3.598E+10 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 2.820E+10 is absorbed (entot) 
                         through inelastic collisions (shsum =2.820E+10)
                                           + heating (elhsum =1.127E+05)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  20.24 eV (from qtoteV)
                                  or :  15.86 eV (from (entot))
                                  or :******* eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  60.0, longitude 265.0.

 REED : The energy degradation is computed from the center energies of the grid.
 REED : The energy degradation source term is interpolated linearly with tau.
 REED : The albedo at  80. km is set to 1.00
 REED : The low energy phase function is taken from Porter
 REED : Secondary distribution from Rees et al., PSS 17, 1997, 1969           
 REED : Wiscombe's delta-M method IS applied

 MAIN : The screening parameter for the Rutherford phase function is calculated
        from the Bethe/Moliere formula for E > 500 eV

 MAIN : The energy grid covers the range from : 0.001 [eV] up to :   287.9 [eV].

 MAIN : The total energy input from the precipitation source is : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]
                                  and from photoelectron source : 3.8542E+10 [eV/cm2/s]
                                                             or : 6.1752E-02 [erg/cm2/s]
 That variable "errorgaupin" is:           90

 MAIN : Total energy deposition in [CO2] is 1.899E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 2.907E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 2.066E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 6.564E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 3.068E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 2.046E+00 [eV.cm-2.s-1] ("shsum").
  6.49341696E+08           2          21
  6.98946816E+08           2          23

 Total Heating :  1.221E+05 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  9.5247960E-04
 entot depart   122073.59       122073.59    
 shsum :  1.67188890E+09  1.89931069E+10  1.89929841E+10  1.89929841E+10
 shsum :  1.70795942E+09  2.19001405E+10  2.90703258E+09  2.19000177E+10
 shsum :  1.72863219E+09  2.39658209E+10  2.06568064E+09  2.39656980E+10
 shsum :  1.90854630E+09  3.05296978E+10  6.56387738E+09  3.05295749E+10
 shsum :  1.90854630E+09  3.05296978E+10   30.679245      3.05295749E+10
 shsum :  1.90854630E+09  3.05296978E+10   2.0458937      3.05295749E+10
 fin  3.05296978E+10  1.90854630E+09   20.194340    
   15.996309    
 -3.46772975E+14   20.194340    
 ezero   0.0000000    
  3.05296978E+10
  1.71717906E+15

Total energy input of :3.854E+10 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 3.053E+10 is absorbed (entot) 
                         through inelastic collisions (shsum =3.053E+10)
                                           + heating (elhsum =1.221E+05)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  20.19 eV (from qtoteV)
                                  or :  16.00 eV (from (entot))
                                  or :******* eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  45.0, longitude 270.0.

 REED : The energy degradation is computed from the center energies of the grid.
 REED : The energy degradation source term is interpolated linearly with tau.
 REED : The albedo at  80. km is set to 1.00
 REED : The low energy phase function is taken from Porter
 REED : Secondary distribution from Rees et al., PSS 17, 1997, 1969           
 REED : Wiscombe's delta-M method IS applied

 MAIN : The screening parameter for the Rutherford phase function is calculated
        from the Bethe/Moliere formula for E > 500 eV

 MAIN : The energy grid covers the range from : 0.001 [eV] up to :   287.9 [eV].

 MAIN : The total energy input from the precipitation source is : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]
                                  and from photoelectron source : 5.8272E+10 [eV/cm2/s]
                                                             or : 9.3363E-02 [erg/cm2/s]
 That variable "errorgaupin" is:           92

 MAIN : Total energy deposition in [CO2] is 3.214E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 4.481E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 3.153E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 9.187E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 3.870E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 2.404E+00 [eV.cm-2.s-1] ("shsum").
  9.33372736E+08           2          21
  1.00936115E+09           2          23

 Total Heating :  1.869E+05 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  1.3652854E-03
 entot depart   186872.00       186872.00    
 shsum :  2.58456320E+09  3.21446236E+10  3.21444372E+10  3.21444372E+10
 shsum :  2.63626675E+09  3.66255268E+10  4.48090163E+09  3.66253384E+10
 shsum :  2.66500762E+09  3.97784596E+10  3.15293158E+09  3.97782712E+10
 shsum :  2.90658048E+09  4.89655501E+10  9.18709248E+09  4.89653617E+10
 shsum :  2.90658048E+09  4.89655501E+10   38.696110      4.89653617E+10
 shsum :  2.90658048E+09  4.89655501E+10   2.4040556      4.89653617E+10
 fin  4.89655501E+10  2.90658048E+09   20.048304    
   16.846445    
 -2.27701349E+14   20.048304    
 ezero   0.0000000    
  4.89655501E+10
  1.13576370E+15

Total energy input of :5.827E+10 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 4.897E+10 is absorbed (entot) 
                         through inelastic collisions (shsum =4.897E+10)
                                           + heating (elhsum =1.869E+05)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  20.05 eV (from qtoteV)
                                  or :  16.85 eV (from (entot))
                                  or :******* eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  50.0, longitude 270.0.

 REED : The energy degradation is computed from the center energies of the grid.
 REED : The energy degradation source term is interpolated linearly with tau.
 REED : The albedo at  80. km is set to 1.00
 REED : The low energy phase function is taken from Porter
 REED : Secondary distribution from Rees et al., PSS 17, 1997, 1969           
 REED : Wiscombe's delta-M method IS applied

 MAIN : The screening parameter for the Rutherford phase function is calculated
        from the Bethe/Moliere formula for E > 500 eV

 MAIN : The energy grid covers the range from : 0.001 [eV] up to :   287.9 [eV].

 MAIN : The total energy input from the precipitation source is : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]
                                  and from photoelectron source : 5.8224E+10 [eV/cm2/s]
                                                             or : 9.3286E-02 [erg/cm2/s]
 That variable "errorgaupin" is:           87

 MAIN : Total energy deposition in [CO2] is 3.209E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 4.478E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 3.152E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 9.192E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 3.880E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 2.410E+00 [eV.cm-2.s-1] ("shsum").
  9.28434048E+08           2          21
  1.00386605E+09           2          23

 Total Heating :  1.874E+05 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  1.3644332E-03
 entot depart   187374.73       187374.73    
 shsum :  2.58329395E+09  3.20908923E+10  3.20907059E+10  3.20907059E+10
 shsum :  2.63496525E+09  3.65691863E+10  4.47829299E+09  3.65689979E+10
 shsum :  2.66369843E+09  3.97211156E+10  3.15192806E+09  3.97209272E+10
 shsum :  2.90541824E+09  4.89129984E+10  9.19188070E+09  4.89128100E+10
 shsum :  2.90541824E+09  4.89129984E+10   38.795311      4.89128100E+10
 shsum :  2.90541824E+09  4.89129984E+10   2.4099412      4.89128100E+10
 fin  4.89129984E+10  2.90541824E+09   20.039709    
   16.835096    
 -2.27792432E+14   20.039709    
 ezero   0.0000000    
  4.89129984E+10
  1.13670524E+15

Total energy input of :5.822E+10 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 4.891E+10 is absorbed (entot) 
                         through inelastic collisions (shsum =4.891E+10)
                                           + heating (elhsum =1.874E+05)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  20.04 eV (from qtoteV)
                                  or :  16.84 eV (from (entot))
                                  or :******* eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  55.0, longitude 270.0.

 REED : The energy degradation is computed from the center energies of the grid.
 REED : The energy degradation source term is interpolated linearly with tau.
 REED : The albedo at  80. km is set to 1.00
 REED : The low energy phase function is taken from Porter
 REED : Secondary distribution from Rees et al., PSS 17, 1997, 1969           
 REED : Wiscombe's delta-M method IS applied

 MAIN : The screening parameter for the Rutherford phase function is calculated
        from the Bethe/Moliere formula for E > 500 eV

 MAIN : The energy grid covers the range from : 0.001 [eV] up to :   287.9 [eV].

 MAIN : The total energy input from the precipitation source is : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]
                                  and from photoelectron source : 5.8203E+10 [eV/cm2/s]
                                                             or : 9.3253E-02 [erg/cm2/s]
 That variable "errorgaupin" is:           94

 MAIN : Total energy deposition in [CO2] is 3.206E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 4.478E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 3.152E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 9.194E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 3.890E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 2.416E+00 [eV.cm-2.s-1] ("shsum").
  9.25854400E+08           2          21
  1.00091648E+09           2          23

 Total Heating :  1.880E+05 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  1.3640639E-03
 entot depart   187975.14       187975.14    
 shsum :  2.58333850E+09  3.20630047E+10  3.20628163E+10  3.20628163E+10
 shsum :  2.63499597E+09  3.65408543E+10  4.47784960E+09  3.65406659E+10
 shsum :  2.66372557E+09  3.96927181E+10  3.15186253E+09  3.96925297E+10
 shsum :  2.90549786E+09  4.88867717E+10  9.19405363E+09  4.88865833E+10
 shsum :  2.90549786E+09  4.88867717E+10   38.898487      4.88865833E+10
 shsum :  2.90549786E+09  4.88867717E+10   2.4157374      4.88865833E+10
 fin  4.88867717E+10  2.90549786E+09   20.032028    
   16.825609    
 -2.27786191E+14   20.032028    
 ezero   0.0000000    
  4.88867717E+10
  1.13711004E+15

Total energy input of :5.820E+10 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 4.889E+10 is absorbed (entot) 
                         through inelastic collisions (shsum =4.889E+10)
                                           + heating (elhsum =1.880E+05)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  20.03 eV (from qtoteV)
                                  or :  16.83 eV (from (entot))
                                  or :******* eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  60.0, longitude 270.0.

 REED : The energy degradation is computed from the center energies of the grid.
 REED : The energy degradation source term is interpolated linearly with tau.
 REED : The albedo at  80. km is set to 1.00
 REED : The low energy phase function is taken from Porter
 REED : Secondary distribution from Rees et al., PSS 17, 1997, 1969           
 REED : Wiscombe's delta-M method IS applied

 MAIN : The screening parameter for the Rutherford phase function is calculated
        from the Bethe/Moliere formula for E > 500 eV

 MAIN : The energy grid covers the range from : 0.001 [eV] up to :   287.9 [eV].

 MAIN : The total energy input from the precipitation source is : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]
                                  and from photoelectron source : 5.8213E+10 [eV/cm2/s]
                                                             or : 9.3270E-02 [erg/cm2/s]
 That variable "errorgaupin" is:           82

 MAIN : Total energy deposition in [CO2] is 3.206E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 4.479E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 3.153E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 9.193E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 3.900E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 2.421E+00 [eV.cm-2.s-1] ("shsum").
  9.25908736E+08           2          21
  1.00082803E+09           2          23

 Total Heating :  1.886E+05 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  1.3640719E-03
 entot depart   188645.48       188645.48    
 shsum :  2.58480845E+09  3.20651633E+10  3.20649748E+10  3.20649748E+10
 shsum :  2.63646618E+09  3.65444301E+10  4.47926682E+09  3.65442417E+10
 shsum :  2.66519885E+09  3.96974203E+10  3.15298893E+09  3.96972319E+10
 shsum :  2.90692429E+09  4.88908431E+10  9.19342387E+09  4.88906547E+10
 shsum :  2.90692429E+09  4.88908431E+10   38.999283      4.88906547E+10
 shsum :  2.90692429E+09  4.88908431E+10   2.4210739      4.88906547E+10
 fin  4.88908431E+10  2.90692429E+09   20.025795    
   16.818754    
 -2.27674421E+14   20.025795    
 ezero   0.0000000    
  4.88908431E+10
  1.13690576E+15

Total energy input of :5.821E+10 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 4.889E+10 is absorbed (entot) 
                         through inelastic collisions (shsum =4.889E+10)
                                           + heating (elhsum =1.886E+05)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  20.03 eV (from qtoteV)
                                  or :  16.82 eV (from (entot))
                                  or :******* eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  45.0, longitude 275.0.

 REED : The energy degradation is computed from the center energies of the grid.
 REED : The energy degradation source term is interpolated linearly with tau.
 REED : The albedo at  80. km is set to 1.00
 REED : The low energy phase function is taken from Porter
 REED : Secondary distribution from Rees et al., PSS 17, 1997, 1969           
 REED : Wiscombe's delta-M method IS applied

 MAIN : The screening parameter for the Rutherford phase function is calculated
        from the Bethe/Moliere formula for E > 500 eV

 MAIN : The energy grid covers the range from : 0.001 [eV] up to :   287.9 [eV].

 MAIN : The total energy input from the precipitation source is : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]
                                  and from photoelectron source : 9.2669E+10 [eV/cm2/s]
                                                             or : 1.4847E-01 [erg/cm2/s]
 That variable "errorgaupin" is:           79

 MAIN : Total energy deposition in [CO2] is 5.710E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 7.109E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 4.900E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 1.297E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 4.919E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 2.829E+00 [eV.cm-2.s-1] ("shsum").
  1.31624614E+09           2          21
  1.42852058E+09           2          23

 Total Heating :  2.905E+05 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  1.9968213E-03
 entot depart   290509.50       290509.50    
 shsum :  4.20524339E+09  5.70975805E+10  5.70972897E+10  5.70972897E+10
 shsum :  4.28086349E+09  6.42068890E+10  7.10930739E+09  6.42065981E+10
 shsum :  4.32117146E+09  6.91066798E+10  4.89979136E+09  6.91063931E+10
 shsum :  4.64663859E+09  8.20781548E+10  1.29714708E+10  8.20778598E+10
 shsum :  4.64663859E+09  8.20781548E+10   49.193642      8.20778598E+10
 shsum :  4.64663859E+09  8.20781548E+10   2.8285513      8.20778598E+10
 fin  8.20781548E+10  4.64663859E+09   19.943254    
   17.663984    
 -1.42432490E+14   19.943254    
 ezero   0.0000000    
  8.20781548E+10
  7.14188771E+14

Total energy input of :9.267E+10 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 8.208E+10 is absorbed (entot) 
                         through inelastic collisions (shsum =8.208E+10)
                                           + heating (elhsum =2.905E+05)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  19.94 eV (from qtoteV)
                                  or :  17.66 eV (from (entot))
                                  or :******* eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  50.0, longitude 275.0.

 REED : The energy degradation is computed from the center energies of the grid.
 REED : The energy degradation source term is interpolated linearly with tau.
 REED : The albedo at  80. km is set to 1.00
 REED : The low energy phase function is taken from Porter
 REED : Secondary distribution from Rees et al., PSS 17, 1997, 1969           
 REED : Wiscombe's delta-M method IS applied

 MAIN : The screening parameter for the Rutherford phase function is calculated
        from the Bethe/Moliere formula for E > 500 eV

 MAIN : The energy grid covers the range from : 0.001 [eV] up to :   287.9 [eV].

 MAIN : The total energy input from the precipitation source is : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]
                                  and from photoelectron source : 8.9181E+10 [eV/cm2/s]
                                                             or : 1.4289E-01 [erg/cm2/s]
 That variable "errorgaupin" is:           79

 MAIN : Total energy deposition in [CO2] is 5.446E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 6.851E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 4.732E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 1.263E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 4.840E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 2.800E+00 [eV.cm-2.s-1] ("shsum").
  1.27553651E+09           2          21
  1.38371981E+09           2          23

 Total Heating :  2.815E+05 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  1.9367889E-03
 entot depart   281521.25       281521.25    
 shsum :  4.04075162E+09  5.44640246E+10  5.44637420E+10  5.44637420E+10
 shsum :  4.11409818E+09  6.13153178E+10  6.85129318E+09  6.13150351E+10
 shsum :  4.15334784E+09  6.60476477E+10  4.73232896E+09  6.60473651E+10
 shsum :  4.47157862E+09  7.86820137E+10  1.26343700E+10  7.86817352E+10
 shsum :  4.47157862E+09  7.86820137E+10   48.397663      7.86817352E+10
 shsum :  4.47157862E+09  7.86820137E+10   2.7998872      7.86817352E+10
 fin  7.86820137E+10  4.47157862E+09   19.944073    
   17.596025    
 -1.48008650E+14   19.944073    
 ezero   0.0000000    
  7.86820137E+10
  7.42118474E+14

Total energy input of :8.918E+10 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 7.868E+10 is absorbed (entot) 
                         through inelastic collisions (shsum =7.868E+10)
                                           + heating (elhsum =2.815E+05)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  19.94 eV (from qtoteV)
                                  or :  17.60 eV (from (entot))
                                  or :******* eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  55.0, longitude 275.0.

 REED : The energy degradation is computed from the center energies of the grid.
 REED : The energy degradation source term is interpolated linearly with tau.
 REED : The albedo at  80. km is set to 1.00
 REED : The low energy phase function is taken from Porter
 REED : Secondary distribution from Rees et al., PSS 17, 1997, 1969           
 REED : Wiscombe's delta-M method IS applied

 MAIN : The screening parameter for the Rutherford phase function is calculated
        from the Bethe/Moliere formula for E > 500 eV

 MAIN : The energy grid covers the range from : 0.001 [eV] up to :   287.9 [eV].

 MAIN : The total energy input from the precipitation source is : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]
                                  and from photoelectron source : 8.5511E+10 [eV/cm2/s]
                                                             or : 1.3701E-01 [erg/cm2/s]
 That variable "errorgaupin" is:           96

 MAIN : Total energy deposition in [CO2] is 5.172E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 6.578E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 4.554E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 1.226E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 4.753E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 2.768E+00 [eV.cm-2.s-1] ("shsum").
  1.23549568E+09           2          21
  1.33965619E+09           2          23

 Total Heating :  2.719E+05 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  1.8726559E-03
 entot depart   271875.47       271875.47    
 shsum :  3.86793267E+09  5.17172716E+10  5.17170012E+10  5.17170012E+10
 shsum :  3.93885056E+09  5.82950748E+10  6.57780480E+09  5.82948045E+10
 shsum :  3.97695795E+09  6.28486226E+10  4.55354982E+09  6.28483523E+10
 shsum :  4.28716288E+09  7.51130870E+10  1.22644634E+10  7.51128166E+10
 shsum :  4.28716288E+09  7.51130870E+10   47.527164      7.51128166E+10
 shsum :  4.28716288E+09  7.51130870E+10   2.7677844      7.51128166E+10
 fin  7.51130870E+10  4.28716288E+09   19.945812    
   17.520466    
 -1.54375352E+14   19.945812    
 ezero   0.0000000    
  7.51130870E+10
  7.73973776E+14

Total energy input of :8.551E+10 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 7.511E+10 is absorbed (entot) 
                         through inelastic collisions (shsum =7.511E+10)
                                           + heating (elhsum =2.719E+05)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  19.95 eV (from qtoteV)
                                  or :  17.52 eV (from (entot))
                                  or :******* eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  60.0, longitude 275.0.

 REED : The energy degradation is computed from the center energies of the grid.
 REED : The energy degradation source term is interpolated linearly with tau.
 REED : The albedo at  80. km is set to 1.00
 REED : The low energy phase function is taken from Porter
 REED : Secondary distribution from Rees et al., PSS 17, 1997, 1969           
 REED : Wiscombe's delta-M method IS applied

 MAIN : The screening parameter for the Rutherford phase function is calculated
        from the Bethe/Moliere formula for E > 500 eV

 MAIN : The energy grid covers the range from : 0.001 [eV] up to :   287.9 [eV].

 MAIN : The total energy input from the precipitation source is : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]
                                  and from photoelectron source : 8.1709E+10 [eV/cm2/s]
                                                             or : 1.3091E-01 [erg/cm2/s]
 That variable "errorgaupin" is:           87

 MAIN : Total energy deposition in [CO2] is 4.890E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 6.292E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 4.366E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 1.186E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 4.658E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 2.732E+00 [eV.cm-2.s-1] ("shsum").
  1.19636685E+09           2          21
  1.29662285E+09           2          23

 Total Heating :  2.616E+05 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  1.8048978E-03
 entot depart   261617.11       261617.11    
 shsum :  3.68923776E+09  4.89017098E+10  4.89014477E+10  4.89014477E+10
 shsum :  3.75758950E+09  5.51932559E+10  6.29154509E+09  5.51929938E+10
 shsum :  3.79448090E+09  5.95588628E+10  4.36560640E+09  5.95586007E+10
 shsum :  4.09592166E+09  7.14236150E+10  1.18647521E+10  7.14233528E+10
 shsum :  4.09592166E+09  7.14236150E+10   46.578003      7.14233528E+10
 shsum :  4.09592166E+09  7.14236150E+10   2.7318544      7.14233528E+10
 fin  7.14236150E+10  4.09592166E+09   19.948910    
   17.437740    
 -1.61583230E+14   19.948910    
 ezero   0.0000000    
  7.14236150E+10
  8.09985332E+14

Total energy input of :8.171E+10 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 7.142E+10 is absorbed (entot) 
                         through inelastic collisions (shsum =7.142E+10)
                                           + heating (elhsum =2.616E+05)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  19.95 eV (from qtoteV)
                                  or :  17.44 eV (from (entot))
                                  or :******* eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  45.0, longitude 280.0.

 REED : The energy degradation is computed from the center energies of the grid.
 REED : The energy degradation source term is interpolated linearly with tau.
 REED : The albedo at  80. km is set to 1.00
 REED : The low energy phase function is taken from Porter
 REED : Secondary distribution from Rees et al., PSS 17, 1997, 1969           
 REED : Wiscombe's delta-M method IS applied

 MAIN : The screening parameter for the Rutherford phase function is calculated
        from the Bethe/Moliere formula for E > 500 eV

 MAIN : The energy grid covers the range from : 0.001 [eV] up to :   287.9 [eV].

 MAIN : The total energy input from the precipitation source is : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]
                                  and from photoelectron source : 1.3280E+11 [eV/cm2/s]
                                                             or : 2.1278E-01 [erg/cm2/s]
 That variable "errorgaupin" is:           94

 MAIN : Total energy deposition in [CO2] is 8.813E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 9.999E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 6.743E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 1.657E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 5.816E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 3.158E+00 [eV.cm-2.s-1] ("shsum").
  1.65315136E+09           2          21
  1.79789222E+09           2          23

 Total Heating :  3.947E+05 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  2.6447491E-03
 entot depart   394695.75       394695.75    
 shsum :  6.12569037E+09  8.81351885E+10  8.81347953E+10  8.81347953E+10
 shsum :  6.22584730E+09  9.81337211E+10  9.99853363E+09  9.81333279E+10
 shsum :  6.27729664E+09  1.04876622E+11  6.74289971E+09  1.04876229E+11
 shsum :  6.67864166E+09  1.21448718E+11  1.65720965E+10  1.21448325E+11
 shsum :  6.67864166E+09  1.21448718E+11   58.156704      1.21448325E+11
 shsum :  6.67864166E+09  1.21448718E+11   3.1577811      1.21448325E+11
 fin  1.21448718E+11  6.67864166E+09   19.884909    
   18.184643    
 -9.90968409E+13   19.884909    
 ezero   0.0000000    
  1.21448718E+11
  4.98352001E+14

Total energy input of :1.328E+11 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 1.214E+11 is absorbed (entot) 
                         through inelastic collisions (shsum =1.214E+11)
                                           + heating (elhsum =3.947E+05)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  19.88 eV (from qtoteV)
                                  or :  18.18 eV (from (entot))
                                  or :******* eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  50.0, longitude 280.0.

 REED : The energy degradation is computed from the center energies of the grid.
 REED : The energy degradation source term is interpolated linearly with tau.
 REED : The albedo at  80. km is set to 1.00
 REED : The low energy phase function is taken from Porter
 REED : Secondary distribution from Rees et al., PSS 17, 1997, 1969           
 REED : Wiscombe's delta-M method IS applied

 MAIN : The screening parameter for the Rutherford phase function is calculated
        from the Bethe/Moliere formula for E > 500 eV

 MAIN : The energy grid covers the range from : 0.001 [eV] up to :   287.9 [eV].

 MAIN : The total energy input from the precipitation source is : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]
                                  and from photoelectron source : 1.2509E+11 [eV/cm2/s]
                                                             or : 2.0042E-01 [erg/cm2/s]
 That variable "errorgaupin" is:           78

 MAIN : Total energy deposition in [CO2] is 8.204E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 9.458E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 6.404E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 1.594E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 5.673E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 3.109E+00 [eV.cm-2.s-1] ("shsum").
  1.58668774E+09           2          21
  1.72469402E+09           2          23

 Total Heating :  3.769E+05 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  2.5259389E-03
 entot depart   376912.34       376912.34    
 shsum :  5.75560602E+09  8.20402668E+10  8.20398899E+10  8.20398899E+10
 shsum :  5.85126400E+09  9.14986926E+10  9.45842790E+09  9.14983158E+10
 shsum :  5.90071757E+09  9.79023380E+10  6.40364544E+09  9.79019612E+10
 shsum :  6.28904448E+09  1.13844093E+11  1.59417549E+10  1.13843716E+11
 shsum :  6.28904448E+09  1.13844093E+11   56.733009      1.13843716E+11
 shsum :  6.28904448E+09  1.13844093E+11   3.1092720      1.13843716E+11
 fin  1.13844093E+11  6.28904448E+09   19.890299    
   18.101971    
 -1.05235742E+14   19.890299    
 ezero   0.0000000    
  1.13844093E+11
  5.29080714E+14

Total energy input of :1.251E+11 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 1.138E+11 is absorbed (entot) 
                         through inelastic collisions (shsum =1.138E+11)
                                           + heating (elhsum =3.769E+05)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  19.89 eV (from qtoteV)
                                  or :  18.10 eV (from (entot))
                                  or :******* eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  55.0, longitude 280.0.

 REED : The energy degradation is computed from the center energies of the grid.
 REED : The energy degradation source term is interpolated linearly with tau.
 REED : The albedo at  80. km is set to 1.00
 REED : The low energy phase function is taken from Porter
 REED : Secondary distribution from Rees et al., PSS 17, 1997, 1969           
 REED : Wiscombe's delta-M method IS applied

 MAIN : The screening parameter for the Rutherford phase function is calculated
        from the Bethe/Moliere formula for E > 500 eV

 MAIN : The energy grid covers the range from : 0.001 [eV] up to :   287.9 [eV].

 MAIN : The total energy input from the precipitation source is : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]
                                  and from photoelectron source : 1.1695E+11 [eV/cm2/s]
                                                             or : 1.8738E-01 [erg/cm2/s]
 That variable "errorgaupin" is:           80

 MAIN : Total energy deposition in [CO2] is 7.567E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 8.881E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 6.038E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 1.524E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 5.515E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 3.054E+00 [eV.cm-2.s-1] ("shsum").
  1.51842035E+09           2          21
  1.64956928E+09           2          23

 Total Heating :  3.575E+05 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  2.3977559E-03
 entot depart   357527.19       357527.19    
 shsum :  5.36609434E+09  7.56689306E+10  7.56685701E+10  7.56685701E+10
 shsum :  5.45689805E+09  8.45501972E+10  8.88126669E+09  8.45498368E+10
 shsum :  5.50417459E+09  9.05884631E+10  6.03826176E+09  9.05881027E+10
 shsum :  5.87794586E+09  1.05832817E+11  1.52443556E+10  1.05832456E+11
 shsum :  5.87794586E+09  1.05832817E+11   55.153290      1.05832456E+11
 shsum :  5.87794586E+09  1.05832817E+11   3.0542126      1.05832456E+11
 fin  1.05832817E+11  5.87794586E+09   19.896641    
   18.005068    
 -1.12595848E+14   19.896641    
 ezero   0.0000000    
  1.05832817E+11
  5.65903750E+14

Total energy input of :1.170E+11 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 1.058E+11 is absorbed (entot) 
                         through inelastic collisions (shsum =1.058E+11)
                                           + heating (elhsum =3.575E+05)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  19.90 eV (from qtoteV)
                                  or :  18.01 eV (from (entot))
                                  or :******* eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  60.0, longitude 280.0.

 REED : The energy degradation is computed from the center energies of the grid.
 REED : The energy degradation source term is interpolated linearly with tau.
 REED : The albedo at  80. km is set to 1.00
 REED : The low energy phase function is taken from Porter
 REED : Secondary distribution from Rees et al., PSS 17, 1997, 1969           
 REED : Wiscombe's delta-M method IS applied

 MAIN : The screening parameter for the Rutherford phase function is calculated
        from the Bethe/Moliere formula for E > 500 eV

 MAIN : The energy grid covers the range from : 0.001 [eV] up to :   287.9 [eV].

 MAIN : The total energy input from the precipitation source is : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]
                                  and from photoelectron source : 1.0850E+11 [eV/cm2/s]
                                                             or : 1.7385E-01 [erg/cm2/s]
 That variable "errorgaupin" is:           73

 MAIN : Total energy deposition in [CO2] is 6.913E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 8.273E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 5.651E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 1.448E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 5.341E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 2.992E+00 [eV.cm-2.s-1] ("shsum").
  1.44830259E+09           2          21
  1.57249370E+09           2          23

 Total Heating :  3.366E+05 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  2.2611201E-03
 entot depart   336607.63       336607.63    
 shsum :  4.96307661E+09  6.91300188E+10  6.91296829E+10  6.91296829E+10
 shsum :  5.04870554E+09  7.74031360E+10  8.27311411E+09  7.74028001E+10
 shsum :  5.09363866E+09  8.30540349E+10  5.65089894E+09  8.30536991E+10
 shsum :  5.45135770E+09  9.75378186E+10  1.44837837E+10  9.75374828E+10
 shsum :  5.45135770E+09  9.75378186E+10   53.405243      9.75374828E+10
 shsum :  5.45135770E+09  9.75378186E+10   2.9917169      9.75374828E+10
 fin  9.75378186E+10  5.45135770E+09   19.904184    
   17.892389    
 -1.21406872E+14   19.904184    
 ezero   0.0000000    
  9.75378186E+10
  6.09956559E+14

Total energy input of :1.085E+11 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 9.754E+10 is absorbed (entot) 
                         through inelastic collisions (shsum =9.754E+10)
                                           + heating (elhsum =3.366E+05)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  19.90 eV (from qtoteV)
                                  or :  17.89 eV (from (entot))
                                  or :******* eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  45.0, longitude 285.0.

 REED : The energy degradation is computed from the center energies of the grid.
 REED : The energy degradation source term is interpolated linearly with tau.
 REED : The albedo at  80. km is set to 1.00
 REED : The low energy phase function is taken from Porter
 REED : Secondary distribution from Rees et al., PSS 17, 1997, 1969           
 REED : Wiscombe's delta-M method IS applied

 MAIN : The screening parameter for the Rutherford phase function is calculated
        from the Bethe/Moliere formula for E > 500 eV

 MAIN : The energy grid covers the range from : 0.001 [eV] up to :   287.9 [eV].

 MAIN : The total energy input from the precipitation source is : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]
                                  and from photoelectron source : 1.7588E+11 [eV/cm2/s]
                                                             or : 2.8179E-01 [erg/cm2/s]
 That variable "errorgaupin" is:           77

 MAIN : Total energy deposition in [CO2] is 1.228E+11 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 1.292E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 8.549E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 1.981E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 6.562E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 3.414E+00 [eV.cm-2.s-1] ("shsum").
  1.93216538E+09           2          21
  2.10409421E+09           2          23

 Total Heating :  4.908E+05 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  3.2727080E-03
 entot depart   490780.09       490780.09    
 shsum :  8.21225984E+09  1.22834305E+11  1.22833814E+11  1.22833814E+11
 shsum :  8.33619763E+09  1.35759192E+11  1.29248870E+10  1.35758701E+11
 shsum :  8.39794893E+09  1.44308486E+11  8.54928947E+09  1.44307995E+11
 shsum :  8.86514176E+09  1.64119134E+11  1.98106481E+10  1.64118643E+11
 shsum :  8.86514176E+09  1.64119134E+11   65.621635      1.64118643E+11
 shsum :  8.86514176E+09  1.64119134E+11   3.4136667      1.64118643E+11
 fin  1.64119134E+11  8.86514176E+09   19.838957    
   18.512861    
 -7.46555745E+13   19.838957    
 ezero   0.0000000    
  1.64119134E+11
  3.76307989E+14

Total energy input of :1.759E+11 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 1.641E+11 is absorbed (entot) 
                         through inelastic collisions (shsum =1.641E+11)
                                           + heating (elhsum =4.908E+05)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  19.84 eV (from qtoteV)
                                  or :  18.51 eV (from (entot))
                                  or :******* eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  50.0, longitude 285.0.

 REED : The energy degradation is computed from the center energies of the grid.
 REED : The energy degradation source term is interpolated linearly with tau.
 REED : The albedo at  80. km is set to 1.00
 REED : The low energy phase function is taken from Porter
 REED : Secondary distribution from Rees et al., PSS 17, 1997, 1969           
 REED : Wiscombe's delta-M method IS applied

 MAIN : The screening parameter for the Rutherford phase function is calculated
        from the Bethe/Moliere formula for E > 500 eV

 MAIN : The energy grid covers the range from : 0.001 [eV] up to :   287.9 [eV].

 MAIN : The total energy input from the precipitation source is : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]
                                  and from photoelectron source : 1.6364E+11 [eV/cm2/s]
                                                             or : 2.6219E-01 [erg/cm2/s]
 That variable "errorgaupin" is:           99

 MAIN : Total energy deposition in [CO2] is 1.129E+11 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 1.211E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 8.052E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 1.895E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 6.378E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 3.354E+00 [eV.cm-2.s-1] ("shsum").
  1.84983501E+09           2          21
  2.01333171E+09           2          23

 Total Heating :  4.661E+05 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  3.0999370E-03
 entot depart   466057.53       466057.53    
 shsum :  7.61837056E+09  1.12855572E+11  1.12855106E+11  1.12855106E+11
 shsum :  7.73576550E+09  1.24967059E+11  1.21114829E+10  1.24966584E+11
 shsum :  7.79472384E+09  1.33019353E+11  8.05229517E+09  1.33018878E+11
 shsum :  8.24466842E+09  1.51970857E+11  1.89515018E+10  1.51970382E+11
 shsum :  8.24466842E+09  1.51970857E+11   63.780079      1.51970382E+11
 shsum :  8.24466842E+09  1.51970857E+11   3.3540282      1.51970382E+11
 fin  1.51970857E+11  8.24466842E+09   19.848183    
   18.432623    
 -8.02739706E+13   19.848183    
 ezero   0.0000000    
  1.51970857E+11
  4.04439890E+14

Total energy input of :1.636E+11 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 1.520E+11 is absorbed (entot) 
                         through inelastic collisions (shsum =1.520E+11)
                                           + heating (elhsum =4.661E+05)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  19.85 eV (from qtoteV)
                                  or :  18.43 eV (from (entot))
                                  or :******* eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  55.0, longitude 285.0.

 REED : The energy degradation is computed from the center energies of the grid.
 REED : The energy degradation source term is interpolated linearly with tau.
 REED : The albedo at  80. km is set to 1.00
 REED : The low energy phase function is taken from Porter
 REED : Secondary distribution from Rees et al., PSS 17, 1997, 1969           
 REED : Wiscombe's delta-M method IS applied

 MAIN : The screening parameter for the Rutherford phase function is calculated
        from the Bethe/Moliere formula for E > 500 eV

 MAIN : The energy grid covers the range from : 0.001 [eV] up to :   287.9 [eV].

 MAIN : The total energy input from the precipitation source is : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]
                                  and from photoelectron source : 1.5070E+11 [eV/cm2/s]
                                                             or : 2.4145E-01 [erg/cm2/s]
 That variable "errorgaupin" is:           86

 MAIN : Total energy deposition in [CO2] is 1.024E+11 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 1.124E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 7.513E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 1.799E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 6.171E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 3.285E+00 [eV.cm-2.s-1] ("shsum").
  1.76310592E+09           2          21
  1.91783514E+09           2          23

 Total Heating :  4.387E+05 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  2.9124452E-03
 entot depart   438711.28       438711.28    
 shsum :  6.99192013E+09  1.02396133E+11  1.02395691E+11  1.02395691E+11
 shsum :  7.10221517E+09  1.13632887E+11  1.12367503E+10  1.13632444E+11
 shsum :  7.15810458E+09  1.21145885E+11  7.51299379E+09  1.21145442E+11
 shsum :  7.58857677E+09  1.39137532E+11  1.79916534E+10  1.39137090E+11
 shsum :  7.58857677E+09  1.39137532E+11   61.710266      1.39137090E+11
 shsum :  7.58857677E+09  1.39137532E+11   3.2854364      1.39137090E+11
 fin  1.39137532E+11  7.58857677E+09   19.858580    
   18.335129    
 -8.72142854E+13   19.858580    
 ezero   0.0000000    
  1.39137532E+11
  4.39176848E+14

Total energy input of :1.507E+11 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 1.391E+11 is absorbed (entot) 
                         through inelastic collisions (shsum =1.391E+11)
                                           + heating (elhsum =4.387E+05)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  19.86 eV (from qtoteV)
                                  or :  18.34 eV (from (entot))
                                  or :******* eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  60.0, longitude 285.0.

 REED : The energy degradation is computed from the center energies of the grid.
 REED : The energy degradation source term is interpolated linearly with tau.
 REED : The albedo at  80. km is set to 1.00
 REED : The low energy phase function is taken from Porter
 REED : Secondary distribution from Rees et al., PSS 17, 1997, 1969           
 REED : Wiscombe's delta-M method IS applied

 MAIN : The screening parameter for the Rutherford phase function is calculated
        from the Bethe/Moliere formula for E > 500 eV

 MAIN : The energy grid covers the range from : 0.001 [eV] up to :   287.9 [eV].

 MAIN : The total energy input from the precipitation source is : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]
                                  and from photoelectron source : 1.3723E+11 [eV/cm2/s]
                                                             or : 2.1988E-01 [erg/cm2/s]
 That variable "errorgaupin" is:           95

 MAIN : Total energy deposition in [CO2] is 9.164E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 1.031E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 6.937E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 1.693E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 5.939E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 3.206E+00 [eV.cm-2.s-1] ("shsum").
  1.67138752E+09           2          21
  1.81697920E+09           2          23

 Total Heating :  4.087E+05 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  2.7112504E-03
 entot depart   408735.44       408735.44    
 shsum :  6.34257510E+09  9.16374487E+10  9.16370391E+10  9.16370391E+10
 shsum :  6.44525056E+09  1.01946319E+11  1.03088691E+10  1.01945909E+11
 shsum :  6.49780992E+09  1.08882829E+11  6.93651149E+09  1.08882420E+11
 shsum :  6.90654976E+09  1.25815464E+11  1.69326346E+10  1.25815054E+11
 shsum :  6.90654976E+09  1.25815464E+11   59.387131      1.25815054E+11
 shsum :  6.90654976E+09  1.25815464E+11   3.2064085      1.25815054E+11
 fin  1.25815464E+11  6.90654976E+09   19.870199    
   18.216833    
 -9.58267602E+13   19.870199    
 ezero   0.0000000    
  1.25815464E+11
  4.82263758E+14

Total energy input of :1.372E+11 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 1.258E+11 is absorbed (entot) 
                         through inelastic collisions (shsum =1.258E+11)
                                           + heating (elhsum =4.087E+05)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  19.87 eV (from qtoteV)
                                  or :  18.22 eV (from (entot))
                                  or :******* eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  45.0, longitude 290.0.

 REED : The energy degradation is computed from the center energies of the grid.
 REED : The energy degradation source term is interpolated linearly with tau.
 REED : The albedo at  80. km is set to 1.00
 REED : The low energy phase function is taken from Porter
 REED : Secondary distribution from Rees et al., PSS 17, 1997, 1969           
 REED : Wiscombe's delta-M method IS applied

 MAIN : The screening parameter for the Rutherford phase function is calculated
        from the Bethe/Moliere formula for E > 500 eV

 MAIN : The energy grid covers the range from : 0.001 [eV] up to :   287.9 [eV].

 MAIN : The total energy input from the precipitation source is : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]
                                  and from photoelectron source : 2.2013E+11 [eV/cm2/s]
                                                             or : 3.5270E-01 [erg/cm2/s]
 That variable "errorgaupin" is:           96

 MAIN : Total energy deposition in [CO2] is 1.595E+11 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 1.578E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 1.027E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 2.267E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 7.186E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 3.617E+00 [eV.cm-2.s-1] ("shsum").
  2.16082637E+09           2          21
  2.35523558E+09           2          23

 Total Heating :  5.765E+05 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  3.8698434E-03
 entot depart   576455.44       576455.44    
 shsum :  1.03765146E+10  1.59485903E+11  1.59485329E+11  1.59485329E+11
 shsum :  1.05230664E+10  1.75269478E+11  1.57835745E+10  1.75268905E+11
 shsum :  1.05942610E+10  1.85535758E+11  1.02662769E+10  1.85535185E+11
 shsum :  1.11181814E+10  2.08208347E+11  2.26725949E+10  2.08207774E+11
 shsum :  1.11181814E+10  2.08208347E+11   71.862892      2.08207774E+11
 shsum :  1.11181814E+10  2.08208347E+11   3.6170104      2.08207774E+11
 fin  2.08208347E+11  1.11181814E+10   19.799261    
   18.726835    
 -5.95270262E+13   19.799261    
 ezero   0.0000000    
  2.08208347E+11
  3.00652777E+14

Total energy input of :2.201E+11 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 2.082E+11 is absorbed (entot) 
                         through inelastic collisions (shsum =2.082E+11)
                                           + heating (elhsum =5.765E+05)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  19.80 eV (from qtoteV)
                                  or :  18.73 eV (from (entot))
                                  or :******* eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  50.0, longitude 290.0.

 REED : The energy degradation is computed from the center energies of the grid.
 REED : The energy degradation source term is interpolated linearly with tau.
 REED : The albedo at  80. km is set to 1.00
 REED : The low energy phase function is taken from Porter
 REED : Secondary distribution from Rees et al., PSS 17, 1997, 1969           
 REED : Wiscombe's delta-M method IS applied

 MAIN : The screening parameter for the Rutherford phase function is calculated
        from the Bethe/Moliere formula for E > 500 eV

 MAIN : The energy grid covers the range from : 0.001 [eV] up to :   287.9 [eV].

 MAIN : The total energy input from the precipitation source is : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]
                                  and from photoelectron source : 2.0332E+11 [eV/cm2/s]
                                                             or : 3.2577E-01 [erg/cm2/s]
 That variable "errorgaupin" is:           71

 MAIN : Total energy deposition in [CO2] is 1.455E+11 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 1.471E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 9.629E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 2.164E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 6.974E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 3.551E+00 [eV.cm-2.s-1] ("shsum").
  2.06934874E+09           2          21
  2.25429555E+09           2          23

 Total Heating :  5.465E+05 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  3.6476073E-03
 entot depart   546527.75       546527.75    
 shsum :  9.55349709E+09  1.45465098E+11  1.45464558E+11  1.45464558E+11
 shsum :  9.69163264E+09  1.60179732E+11  1.47146342E+10  1.60179192E+11
 shsum :  9.75934464E+09  1.69808265E+11  9.62853171E+09  1.69807725E+11
 shsum :  1.02628956E+10  1.91445238E+11  2.16369787E+10  1.91444697E+11
 shsum :  1.02628956E+10  1.91445238E+11   69.739273      1.91444697E+11
 shsum :  1.02628956E+10  1.91445238E+11   3.5509412      1.91444697E+11
 fin  1.91445238E+11  1.02628956E+10   19.811525    
   18.654116    
 -6.44878686E+13   19.811525    
 ezero   0.0000000    
  1.91445238E+11
  3.25506814E+14

Total energy input of :2.033E+11 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 1.914E+11 is absorbed (entot) 
                         through inelastic collisions (shsum =1.914E+11)
                                           + heating (elhsum =5.465E+05)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  19.81 eV (from qtoteV)
                                  or :  18.65 eV (from (entot))
                                  or :******* eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  55.0, longitude 290.0.

 REED : The energy degradation is computed from the center energies of the grid.
 REED : The energy degradation source term is interpolated linearly with tau.
 REED : The albedo at  80. km is set to 1.00
 REED : The low energy phase function is taken from Porter
 REED : Secondary distribution from Rees et al., PSS 17, 1997, 1969           
 REED : Wiscombe's delta-M method IS applied

 MAIN : The screening parameter for the Rutherford phase function is calculated
        from the Bethe/Moliere formula for E > 500 eV

 MAIN : The energy grid covers the range from : 0.001 [eV] up to :   287.9 [eV].

 MAIN : The total energy input from the precipitation source is : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]
                                  and from photoelectron source : 1.8550E+11 [eV/cm2/s]
                                                             or : 2.9720E-01 [erg/cm2/s]
 That variable "errorgaupin" is:           85

 MAIN : Total energy deposition in [CO2] is 1.307E+11 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 1.356E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 8.933E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 2.047E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 6.733E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 3.474E+00 [eV.cm-2.s-1] ("shsum").
  1.97121626E+09           2          21
  2.14616768E+09           2          23

 Total Heating :  5.130E+05 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  3.4057111E-03
 entot depart   513012.38       513012.38    
 shsum :  8.68329370E+09  1.30725585E+11  1.30725069E+11  1.30725069E+11
 shsum :  8.81226854E+09  1.44285467E+11  1.35598899E+10  1.44284959E+11
 shsum :  8.87613952E+09  1.53218040E+11  8.93257728E+09  1.53217532E+11
 shsum :  9.35652762E+09  1.73689029E+11  2.04709827E+10  1.73688521E+11
 shsum :  9.35652762E+09  1.73689029E+11   67.328766      1.73688521E+11
 shsum :  9.35652762E+09  1.73689029E+11   3.4742107      1.73688521E+11
 fin  1.73689029E+11  9.35652762E+09   19.825386    
   18.563406    
 -7.07348146E+13   19.825386    
 ezero   0.0000000    
  1.73689029E+11
  3.56789141E+14

Total energy input of :1.855E+11 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 1.737E+11 is absorbed (entot) 
                         through inelastic collisions (shsum =1.737E+11)
                                           + heating (elhsum =5.130E+05)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  19.83 eV (from qtoteV)
                                  or :  18.56 eV (from (entot))
                                  or :******* eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  60.0, longitude 290.0.

 REED : The energy degradation is computed from the center energies of the grid.
 REED : The energy degradation source term is interpolated linearly with tau.
 REED : The albedo at  80. km is set to 1.00
 REED : The low energy phase function is taken from Porter
 REED : Secondary distribution from Rees et al., PSS 17, 1997, 1969           
 REED : Wiscombe's delta-M method IS applied

 MAIN : The screening parameter for the Rutherford phase function is calculated
        from the Bethe/Moliere formula for E > 500 eV

 MAIN : The energy grid covers the range from : 0.001 [eV] up to :   287.9 [eV].

 MAIN : The total energy input from the precipitation source is : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]
                                  and from photoelectron source : 1.6690E+11 [eV/cm2/s]
                                                             or : 2.6741E-01 [erg/cm2/s]
 That variable "errorgaupin" is:           87

 MAIN : Total energy deposition in [CO2] is 1.155E+11 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 1.233E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 8.183E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 1.917E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 6.459E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 3.385E+00 [eV.cm-2.s-1] ("shsum").
  1.86517734E+09           2          21
  2.02950387E+09           2          23

 Total Heating :  4.758E+05 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  3.1450875E-03
 entot depart   475758.75       475758.75    
 shsum :  7.77906688E+09  1.15518497E+11  1.15518022E+11  1.15518022E+11
 shsum :  7.89817190E+09  1.27846924E+11  1.23284234E+10  1.27846449E+11
 shsum :  7.95785062E+09  1.36030405E+11  8.18347622E+09  1.36029929E+11
 shsum :  8.41213542E+09  1.55202109E+11  1.91717028E+10  1.55201634E+11
 shsum :  8.41213542E+09  1.55202109E+11   64.591782      1.55201634E+11
 shsum :  8.41213542E+09  1.55202109E+11   3.3847570      1.55201634E+11
 fin  1.55202109E+11  8.41213542E+09   19.840750    
   18.449787    
 -7.86758988E+13   19.840750    
 ezero   0.0000000    
  1.55202109E+11
  3.96536916E+14

Total energy input of :1.669E+11 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 1.552E+11 is absorbed (entot) 
                         through inelastic collisions (shsum =1.552E+11)
                                           + heating (elhsum =4.758E+05)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  19.84 eV (from qtoteV)
                                  or :  18.45 eV (from (entot))
                                  or :******* eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  45.0, longitude 295.0.

 REED : The energy degradation is computed from the center energies of the grid.
 REED : The energy degradation source term is interpolated linearly with tau.
 REED : The albedo at  80. km is set to 1.00
 REED : The low energy phase function is taken from Porter
 REED : Secondary distribution from Rees et al., PSS 17, 1997, 1969           
 REED : Wiscombe's delta-M method IS applied

 MAIN : The screening parameter for the Rutherford phase function is calculated
        from the Bethe/Moliere formula for E > 500 eV

 MAIN : The energy grid covers the range from : 0.001 [eV] up to :   287.9 [eV].

 MAIN : The total energy input from the precipitation source is : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]
                                  and from photoelectron source : 2.6439E+11 [eV/cm2/s]
                                                             or : 4.2360E-01 [erg/cm2/s]
 That variable "errorgaupin" is:           90

 MAIN : Total energy deposition in [CO2] is 1.969E+11 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 1.852E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 1.187E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 2.519E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 7.713E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 3.782E+00 [eV.cm-2.s-1] ("shsum").
  2.34927974E+09           2          21
  2.56237491E+09           2          23

 Total Heating :  6.518E+05 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  4.4334205E-03
 entot depart   651812.06       651812.06    
 shsum :  1.25560668E+10  1.96854022E+11  1.96853367E+11  1.96853367E+11
 shsum :  1.27239608E+10  2.15378428E+11  1.85244058E+10  2.15377773E+11
 shsum :  1.28038011E+10  2.27252142E+11  1.18737121E+10  2.27251487E+11
 shsum :  1.33766984E+10  2.52441526E+11  2.51893842E+10  2.52440871E+11
 shsum :  1.33766984E+10  2.52441526E+11   77.128769      2.52440871E+11
 shsum :  1.33766984E+10  2.52441526E+11   3.7820787      2.52440871E+11
 fin  2.52441526E+11  1.33766984E+10   19.764671    
   18.871737    
 -4.94765049E+13   19.764671    
 ezero   0.0000000    
  2.52441526E+11
  2.50327991E+14

Total energy input of :2.644E+11 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 2.524E+11 is absorbed (entot) 
                         through inelastic collisions (shsum =2.524E+11)
                                           + heating (elhsum =6.518E+05)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  19.76 eV (from qtoteV)
                                  or :  18.87 eV (from (entot))
                                  or :******* eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  50.0, longitude 295.0.

 REED : The energy degradation is computed from the center energies of the grid.
 REED : The energy degradation source term is interpolated linearly with tau.
 REED : The albedo at  80. km is set to 1.00
 REED : The low energy phase function is taken from Porter
 REED : Secondary distribution from Rees et al., PSS 17, 1997, 1969           
 REED : Wiscombe's delta-M method IS applied

 MAIN : The screening parameter for the Rutherford phase function is calculated
        from the Bethe/Moliere formula for E > 500 eV

 MAIN : The energy grid covers the range from : 0.001 [eV] up to :   287.9 [eV].

 MAIN : The total energy input from the precipitation source is : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]
                                  and from photoelectron source : 2.4308E+11 [eV/cm2/s]
                                                             or : 3.8946E-01 [erg/cm2/s]
 That variable "errorgaupin" is:           85

 MAIN : Total energy deposition in [CO2] is 1.788E+11 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 1.722E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 1.111E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 2.402E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 7.481E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 3.712E+00 [eV.cm-2.s-1] ("shsum").
  2.25274214E+09           2          21
  2.45576090E+09           2          23

 Total Heating :  6.180E+05 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  4.1652904E-03
 entot depart   618026.19       618026.19    
 shsum :  1.15059753E+10  1.78788450E+11  1.78787828E+11  1.78787828E+11
 shsum :  1.16637153E+10  1.96006822E+11  1.72183716E+10  1.96006199E+11
 shsum :  1.17394637E+10  2.07117664E+11  1.11108444E+10  2.07117042E+11
 shsum :  1.22896241E+10  2.31133643E+11  2.40159744E+10  2.31133020E+11
 shsum :  1.22896241E+10  2.31133643E+11   74.809334      2.31133020E+11
 shsum :  1.22896241E+10  2.31133643E+11   3.7121654      2.31133020E+11
 fin  2.31133643E+11  1.22896241E+10   19.779186    
   18.807219    
 -5.38529298E+13   19.779186    
 ezero   0.0000000    
  2.31133643E+11
  2.72270694E+14

Total energy input of :2.431E+11 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 2.311E+11 is absorbed (entot) 
                         through inelastic collisions (shsum =2.311E+11)
                                           + heating (elhsum =6.180E+05)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  19.78 eV (from qtoteV)
                                  or :  18.81 eV (from (entot))
                                  or :******* eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  55.0, longitude 295.0.

 REED : The energy degradation is computed from the center energies of the grid.
 REED : The energy degradation source term is interpolated linearly with tau.
 REED : The albedo at  80. km is set to 1.00
 REED : The low energy phase function is taken from Porter
 REED : Secondary distribution from Rees et al., PSS 17, 1997, 1969           
 REED : Wiscombe's delta-M method IS applied

 MAIN : The screening parameter for the Rutherford phase function is calculated
        from the Bethe/Moliere formula for E > 500 eV

 MAIN : The energy grid covers the range from : 0.001 [eV] up to :   287.9 [eV].

 MAIN : The total energy input from the precipitation source is : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]
                                  and from photoelectron source : 2.2043E+11 [eV/cm2/s]
                                                             or : 3.5318E-01 [erg/cm2/s]
 That variable "errorgaupin" is:           86

 MAIN : Total energy deposition in [CO2] is 1.597E+11 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 1.580E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 1.027E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 2.269E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 7.216E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 3.630E+00 [eV.cm-2.s-1] ("shsum").
  2.14771917E+09           2          21
  2.33995981E+09           2          23

 Total Heating :  5.798E+05 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  3.8730921E-03
 entot depart   579807.94       579807.94    
 shsum :  1.03932559E+10  1.59745196E+11  1.59744623E+11  1.59744623E+11
 shsum :  1.05399306E+10  1.75548416E+11  1.58032169E+10  1.75547843E+11
 shsum :  1.06111570E+10  1.85823330E+11  1.02749215E+10  1.85822757E+11
 shsum :  1.11353303E+10  2.08510419E+11  2.26870886E+10  2.08509846E+11
 shsum :  1.11353303E+10  2.08510419E+11   72.156448      2.08509846E+11
 shsum :  1.11353303E+10  2.08510419E+11   3.6303811      2.08509846E+11
 fin  2.08510419E+11  1.11353303E+10   19.795734    
   18.725122    
 -5.94353513E+13   19.795734    
 ezero   0.0000000    
  2.08510419E+11
  3.00243212E+14

Total energy input of :2.204E+11 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 2.085E+11 is absorbed (entot) 
                         through inelastic collisions (shsum =2.085E+11)
                                           + heating (elhsum =5.798E+05)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  19.80 eV (from qtoteV)
                                  or :  18.73 eV (from (entot))
                                  or :******* eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  60.0, longitude 295.0.

 REED : The energy degradation is computed from the center energies of the grid.
 REED : The energy degradation source term is interpolated linearly with tau.
 REED : The albedo at  80. km is set to 1.00
 REED : The low energy phase function is taken from Porter
 REED : Secondary distribution from Rees et al., PSS 17, 1997, 1969           
 REED : Wiscombe's delta-M method IS applied

 MAIN : The screening parameter for the Rutherford phase function is calculated
        from the Bethe/Moliere formula for E > 500 eV

 MAIN : The energy grid covers the range from : 0.001 [eV] up to :   287.9 [eV].

 MAIN : The total energy input from the precipitation source is : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]
                                  and from photoelectron source : 1.9675E+11 [eV/cm2/s]
                                                             or : 3.1524E-01 [erg/cm2/s]
 That variable "errorgaupin" is:           74

 MAIN : Total energy deposition in [CO2] is 1.400E+11 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 1.429E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 9.370E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 2.120E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 6.912E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 3.534E+00 [eV.cm-2.s-1] ("shsum").
  2.03237069E+09           2          21
  2.21297894E+09           2          23

 Total Heating :  5.368E+05 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  3.5577379E-03
 entot depart   536832.19       536832.19    
 shsum :  9.23420160E+09  1.40038259E+11  1.40037718E+11  1.40037718E+11
 shsum :  9.36893338E+09  1.54326876E+11  1.42886205E+10  1.54326335E+11
 shsum :  9.43520768E+09  1.63697213E+11  9.37033216E+09  1.63696673E+11
 shsum :  9.92988774E+09  1.84892244E+11  2.11950285E+10  1.84891703E+11
 shsum :  9.92988774E+09  1.84892244E+11   69.117241      1.84891703E+11
 shsum :  9.92988774E+09  1.84892244E+11   3.5342047      1.84891703E+11
 fin  1.84892244E+11  9.92988774E+09   19.814264    
   18.619772    
 -6.66505314E+13   19.814264    
 ezero   0.0000000    
  1.84892244E+11
  3.36376503E+14

Total energy input of :1.968E+11 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 1.849E+11 is absorbed (entot) 
                         through inelastic collisions (shsum =1.849E+11)
                                           + heating (elhsum =5.368E+05)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  19.81 eV (from qtoteV)
                                  or :  18.62 eV (from (entot))
                                  or :******* eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  45.0, longitude 300.0.

 REED : The energy degradation is computed from the center energies of the grid.
 REED : The energy degradation source term is interpolated linearly with tau.
 REED : The albedo at  80. km is set to 1.00
 REED : The low energy phase function is taken from Porter
 REED : Secondary distribution from Rees et al., PSS 17, 1997, 1969           
 REED : Wiscombe's delta-M method IS applied

 MAIN : The screening parameter for the Rutherford phase function is calculated
        from the Bethe/Moliere formula for E > 500 eV

 MAIN : The energy grid covers the range from : 0.001 [eV] up to :   287.9 [eV].

 MAIN : The total energy input from the precipitation source is : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]
                                  and from photoelectron source : 3.0777E+11 [eV/cm2/s]
                                                             or : 4.9311E-01 [erg/cm2/s]
 That variable "errorgaupin" is:           97

 MAIN : Total energy deposition in [CO2] is 2.340E+11 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 2.112E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 1.336E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 2.740E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 8.161E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 3.918E+00 [eV.cm-2.s-1] ("shsum").
  2.50636083E+09           2          21
  2.73524710E+09           2          23

 Total Heating :  7.177E+05 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  4.9627679E-03
 entot depart   717729.00       717729.00    
 shsum :  1.47044536E+10  2.34011066E+11  2.34010345E+11  2.34010345E+11
 shsum :  1.48923945E+10  2.55132156E+11  2.11210875E+10  2.55131435E+11
 shsum :  1.49801472E+10  2.68496994E+11  1.33648374E+10  2.68496273E+11
 shsum :  1.55955016E+10  2.95897793E+11  2.74007962E+10  2.95897072E+11
 shsum :  1.55955016E+10  2.95897793E+11   81.610641      2.95897072E+11
 shsum :  1.55955016E+10  2.95897793E+11   3.9183857      2.95897072E+11
 fin  2.95897793E+11  1.55955016E+10   19.734734    
   18.973278    
 -4.24373849E+13   19.734734    
 ezero   0.0000000    
  2.95897793E+11
  2.15039047E+14

Total energy input of :3.078E+11 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 2.959E+11 is absorbed (entot) 
                         through inelastic collisions (shsum =2.959E+11)
                                           + heating (elhsum =7.177E+05)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  19.73 eV (from qtoteV)
                                  or :  18.97 eV (from (entot))
                                  or :******* eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  50.0, longitude 300.0.

 REED : The energy degradation is computed from the center energies of the grid.
 REED : The energy degradation source term is interpolated linearly with tau.
 REED : The albedo at  80. km is set to 1.00
 REED : The low energy phase function is taken from Porter
 REED : Secondary distribution from Rees et al., PSS 17, 1997, 1969           
 REED : Wiscombe's delta-M method IS applied

 MAIN : The screening parameter for the Rutherford phase function is calculated
        from the Bethe/Moliere formula for E > 500 eV

 MAIN : The energy grid covers the range from : 0.001 [eV] up to :   287.9 [eV].

 MAIN : The total energy input from the precipitation source is : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]
                                  and from photoelectron source : 2.8212E+11 [eV/cm2/s]
                                                             or : 4.5201E-01 [erg/cm2/s]
 That variable "errorgaupin" is:           76

 MAIN : Total energy deposition in [CO2] is 2.120E+11 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 1.960E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 1.249E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 2.612E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 7.915E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 3.846E+00 [eV.cm-2.s-1] ("shsum").
  2.40702234E+09           2          21
  2.62537267E+09           2          23

 Total Heating :  6.811E+05 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  4.6516829E-03
 entot depart   681064.50       681064.50    
 shsum :  1.34339052E+10  2.11995181E+11  2.11994493E+11  2.11994493E+11
 shsum :  1.36100649E+10  2.31590396E+11  1.95952108E+10  2.31589708E+11
 shsum :  1.36931779E+10  2.44080624E+11  1.24902277E+10  2.44079935E+11
 shsum :  1.42839368E+10  2.70198063E+11  2.61174415E+10  2.70197375E+11
 shsum :  1.42839368E+10  2.70198063E+11   79.150742      2.70197375E+11
 shsum :  1.42839368E+10  2.70198063E+11   3.8460910      2.70197375E+11
 fin  2.70198063E+11  1.42839368E+10   19.750826    
   18.916218    
 -4.63340233E+13   19.750826    
 ezero   0.0000000    
  2.70198063E+11
  2.34592842E+14

Total energy input of :2.821E+11 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 2.702E+11 is absorbed (entot) 
                         through inelastic collisions (shsum =2.702E+11)
                                           + heating (elhsum =6.811E+05)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  19.75 eV (from qtoteV)
                                  or :  18.92 eV (from (entot))
                                  or :******* eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  55.0, longitude 300.0.

 REED : The energy degradation is computed from the center energies of the grid.
 REED : The energy degradation source term is interpolated linearly with tau.
 REED : The albedo at  80. km is set to 1.00
 REED : The low energy phase function is taken from Porter
 REED : Secondary distribution from Rees et al., PSS 17, 1997, 1969           
 REED : Wiscombe's delta-M method IS applied

 MAIN : The screening parameter for the Rutherford phase function is calculated
        from the Bethe/Moliere formula for E > 500 eV

 MAIN : The energy grid covers the range from : 0.001 [eV] up to :   287.9 [eV].

 MAIN : The total energy input from the precipitation source is : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]
                                  and from photoelectron source : 2.5481E+11 [eV/cm2/s]
                                                             or : 4.0825E-01 [erg/cm2/s]
 That variable "errorgaupin" is:           84

 MAIN : Total energy deposition in [CO2] is 1.887E+11 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 1.794E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 1.153E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 2.466E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 7.632E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 3.761E+00 [eV.cm-2.s-1] ("shsum").
  2.29789926E+09           2          21
  2.50496589E+09           2          23

 Total Heating :  6.393E+05 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  4.3126415E-03
 entot depart   639265.19       639265.19    
 shsum :  1.20850606E+10  1.88733309E+11  1.88732670E+11  1.88732670E+11
 shsum :  1.22483814E+10  2.06672069E+11  1.79387597E+10  2.06671430E+11
 shsum :  1.23263621E+10  2.18201260E+11  1.15291935E+10  2.18200621E+11
 shsum :  1.28889190E+10  2.42859311E+11  2.46580531E+10  2.42858672E+11
 shsum :  1.28889190E+10  2.42859311E+11   76.321106      2.42858672E+11
 shsum :  1.28889190E+10  2.42859311E+11   3.7610826      2.42858672E+11
 fin  2.42859311E+11  1.28889190E+10   19.769381    
   18.842489    
 -5.13489345E+13   19.769381    
 ezero   0.0000000    
  2.42859311E+11
  2.59739724E+14

Total energy input of :2.548E+11 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 2.429E+11 is absorbed (entot) 
                         through inelastic collisions (shsum =2.429E+11)
                                           + heating (elhsum =6.393E+05)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  19.77 eV (from qtoteV)
                                  or :  18.84 eV (from (entot))
                                  or :******* eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  60.0, longitude 300.0.

 REED : The energy degradation is computed from the center energies of the grid.
 REED : The energy degradation source term is interpolated linearly with tau.
 REED : The albedo at  80. km is set to 1.00
 REED : The low energy phase function is taken from Porter
 REED : Secondary distribution from Rees et al., PSS 17, 1997, 1969           
 REED : Wiscombe's delta-M method IS applied

 MAIN : The screening parameter for the Rutherford phase function is calculated
        from the Bethe/Moliere formula for E > 500 eV

 MAIN : The energy grid covers the range from : 0.001 [eV] up to :   287.9 [eV].

 MAIN : The total energy input from the precipitation source is : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]
                                  and from photoelectron source : 2.2619E+11 [eV/cm2/s]
                                                             or : 3.6240E-01 [erg/cm2/s]
 That variable "errorgaupin" is:           86

 MAIN : Total energy deposition in [CO2] is 1.646E+11 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 1.616E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 1.049E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 2.301E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 7.306E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 3.660E+00 [eV.cm-2.s-1] ("shsum").
  2.17653683E+09           2          21
  2.37128422E+09           2          23

 Total Heating :  5.918E+05 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  3.9466592E-03
 entot depart   591819.81       591819.81    
 shsum :  1.06769684E+10  1.64594483E+11  1.64593893E+11  1.64593893E+11
 shsum :  1.08264294E+10  1.80756464E+11  1.61619763E+10  1.80755874E+11
 shsum :  1.08987802E+10  1.91241519E+11  1.04850637E+10  1.91240929E+11
 shsum :  1.14291722E+10  2.14251799E+11  2.30102712E+10  2.14251209E+11
 shsum :  1.14291722E+10  2.14251799E+11   73.056938      2.14251209E+11
 shsum :  1.14291722E+10  2.14251799E+11   3.6604681      2.14251209E+11
 fin  2.14251799E+11  1.14291722E+10   19.790398    
   18.746046    
 -5.79072824E+13   19.790398    
 ezero   0.0000000    
  2.14251799E+11
  2.92602935E+14

Total energy input of :2.262E+11 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 2.143E+11 is absorbed (entot) 
                         through inelastic collisions (shsum =2.143E+11)
                                           + heating (elhsum =5.918E+05)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  19.79 eV (from qtoteV)
                                  or :  18.75 eV (from (entot))
                                  or :******* eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  45.0, longitude 305.0.

 REED : The energy degradation is computed from the center energies of the grid.
 REED : The energy degradation source term is interpolated linearly with tau.
 REED : The albedo at  80. km is set to 1.00
 REED : The low energy phase function is taken from Porter
 REED : Secondary distribution from Rees et al., PSS 17, 1997, 1969           
 REED : Wiscombe's delta-M method IS applied

 MAIN : The screening parameter for the Rutherford phase function is calculated
        from the Bethe/Moliere formula for E > 500 eV

 MAIN : The energy grid covers the range from : 0.001 [eV] up to :   287.9 [eV].

 MAIN : The total energy input from the precipitation source is : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]
                                  and from photoelectron source : 3.4962E+11 [eV/cm2/s]
                                                             or : 5.6016E-01 [erg/cm2/s]
 That variable "errorgaupin" is:           91

 MAIN : Total energy deposition in [CO2] is 2.702E+11 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 2.356E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 1.474E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 2.934E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 8.545E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 4.032E+00 [eV.cm-2.s-1] ("shsum").
  2.63871053E+09           2          21
  2.88103808E+09           2          23

 Total Heating :  7.752E+05 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  5.4572625E-03
 entot depart   775225.94       775225.94    
 shsum :  1.67852585E+10  2.70231634E+11  2.70230864E+11  2.70230864E+11
 shsum :  1.69919263E+10  2.93788844E+11  2.35571999E+10  2.93788058E+11
 shsum :  1.70869084E+10  3.08526678E+11  1.47378432E+10  3.08525892E+11
 shsum :  1.77391698E+10  3.37869308E+11  2.93426319E+10  3.37868521E+11
 shsum :  1.77391698E+10  3.37869308E+11   85.450317      3.37868521E+11
 shsum :  1.77391698E+10  3.37869308E+11   4.0323572      3.37868521E+11
 fin  3.37869308E+11  1.77391698E+10   19.709023    
   19.046513    
 -3.73090891E+13   19.709023    
 ezero   0.0000000    
  3.37869308E+11
  1.89299559E+14

Total energy input of :3.496E+11 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 3.379E+11 is absorbed (entot) 
                         through inelastic collisions (shsum =3.379E+11)
                                           + heating (elhsum =7.752E+05)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  19.71 eV (from qtoteV)
                                  or :  19.05 eV (from (entot))
                                  or :******* eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  50.0, longitude 305.0.

 REED : The energy degradation is computed from the center energies of the grid.
 REED : The energy degradation source term is interpolated linearly with tau.
 REED : The albedo at  80. km is set to 1.00
 REED : The low energy phase function is taken from Porter
 REED : Secondary distribution from Rees et al., PSS 17, 1997, 1969           
 REED : Wiscombe's delta-M method IS applied

 MAIN : The screening parameter for the Rutherford phase function is calculated
        from the Bethe/Moliere formula for E > 500 eV

 MAIN : The energy grid covers the range from : 0.001 [eV] up to :   287.9 [eV].

 MAIN : The total energy input from the precipitation source is : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]
                                  and from photoelectron source : 3.1983E+11 [eV/cm2/s]
                                                             or : 5.1243E-01 [erg/cm2/s]
 That variable "errorgaupin" is:           82

 MAIN : Total energy deposition in [CO2] is 2.444E+11 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 2.183E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 1.376E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 2.797E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 8.289E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 3.959E+00 [eV.cm-2.s-1] ("shsum").
  2.53805389E+09           2          21
  2.76961280E+09           2          23

 Total Heating :  7.364E+05 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  5.1059350E-03
 entot depart   736404.81       736404.81    
 shsum :  1.53039585E+10  2.44424655E+11  2.44423918E+11  2.44423918E+11
 shsum :  1.54973215E+10  2.66252501E+11  2.18278502E+10  2.66251764E+11
 shsum :  1.55871662E+10  2.80015602E+11  1.37631058E+10  2.80014881E+11
 shsum :  1.62133371E+10  3.07985646E+11  2.79700357E+10  3.07984925E+11
 shsum :  1.62133371E+10  3.07985646E+11   82.887558      3.07984925E+11
 shsum :  1.62133371E+10  3.07985646E+11   3.9585729      3.07984925E+11
 fin  3.07985646E+11  1.62133371E+10   19.726191    
   18.995821    
 -4.08202374E+13   19.726191    
 ezero   0.0000000    
  3.07985646E+11
  2.06934225E+14

Total energy input of :3.198E+11 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 3.080E+11 is absorbed (entot) 
                         through inelastic collisions (shsum =3.080E+11)
                                           + heating (elhsum =7.364E+05)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  19.73 eV (from qtoteV)
                                  or :  19.00 eV (from (entot))
                                  or :******* eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  55.0, longitude 305.0.

 REED : The energy degradation is computed from the center energies of the grid.
 REED : The energy degradation source term is interpolated linearly with tau.
 REED : The albedo at  80. km is set to 1.00
 REED : The low energy phase function is taken from Porter
 REED : Secondary distribution from Rees et al., PSS 17, 1997, 1969           
 REED : Wiscombe's delta-M method IS applied

 MAIN : The screening parameter for the Rutherford phase function is calculated
        from the Bethe/Moliere formula for E > 500 eV

 MAIN : The energy grid covers the range from : 0.001 [eV] up to :   287.9 [eV].

 MAIN : The total energy input from the precipitation source is : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]
                                  and from photoelectron source : 2.8806E+11 [eV/cm2/s]
                                                             or : 4.6153E-01 [erg/cm2/s]
 That variable "errorgaupin" is:           89

 MAIN : Total energy deposition in [CO2] is 2.171E+11 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 1.995E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 1.269E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 2.640E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 7.993E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 3.871E+00 [eV.cm-2.s-1] ("shsum").
  2.42643482E+09           2          21
  2.64630118E+09           2          23

 Total Heating :  6.919E+05 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  4.7231801E-03
 entot depart   691859.38       691859.38    
 shsum :  1.37289810E+10  2.17104581E+11  2.17103892E+11  2.17103892E+11
 shsum :  1.39078482E+10  2.37052969E+11  1.99483904E+10  2.37052281E+11
 shsum :  1.39920087E+10  2.49742950E+11  1.26899743E+10  2.49742262E+11
 shsum :  1.45881938E+10  2.76147241E+11  2.64043008E+10  2.76146553E+11
 shsum :  1.45881938E+10  2.76147241E+11   79.925842      2.76146553E+11
 shsum :  1.45881938E+10  2.76147241E+11   3.8714547      2.76146553E+11
 fin  2.76147241E+11  1.45881938E+10   19.746162    
   18.929502    
 -4.53676641E+13   19.746162    
 ezero   0.0000000    
  2.76147241E+11
  2.29754360E+14

Total energy input of :2.881E+11 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 2.761E+11 is absorbed (entot) 
                         through inelastic collisions (shsum =2.761E+11)
                                           + heating (elhsum =6.919E+05)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  19.75 eV (from qtoteV)
                                  or :  18.93 eV (from (entot))
                                  or :******* eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  60.0, longitude 305.0.

 REED : The energy degradation is computed from the center energies of the grid.
 REED : The energy degradation source term is interpolated linearly with tau.
 REED : The albedo at  80. km is set to 1.00
 REED : The low energy phase function is taken from Porter
 REED : Secondary distribution from Rees et al., PSS 17, 1997, 1969           
 REED : Wiscombe's delta-M method IS applied

 MAIN : The screening parameter for the Rutherford phase function is calculated
        from the Bethe/Moliere formula for E > 500 eV

 MAIN : The energy grid covers the range from : 0.001 [eV] up to :   287.9 [eV].

 MAIN : The total energy input from the precipitation source is : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]
                                  and from photoelectron source : 2.5472E+11 [eV/cm2/s]
                                                             or : 4.0811E-01 [erg/cm2/s]
 That variable "errorgaupin" is:           70

 MAIN : Total energy deposition in [CO2] is 1.887E+11 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 1.793E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 1.152E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 2.463E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 7.649E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 3.768E+00 [eV.cm-2.s-1] ("shsum").
  2.30116019E+09           2          21
  2.50821453E+09           2          23

 Total Heating :  6.409E+05 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  4.3102773E-03
 entot depart   640918.94       640918.94    
 shsum :  1.20817254E+10  1.88687155E+11  1.88686516E+11  1.88686516E+11
 shsum :  1.22449562E+10  2.06617084E+11  1.79299267E+10  2.06616445E+11
 shsum :  1.23228774E+10  2.18137838E+11  1.15207526E+10  2.18137199E+11
 shsum :  1.28847596E+10  2.42767430E+11  2.46295859E+10  2.42766791E+11
 shsum :  1.28847596E+10  2.42767430E+11   76.490891      2.42766791E+11
 shsum :  1.28847596E+10  2.42767430E+11   3.7678442      2.42766791E+11
 fin  2.42767430E+11  1.28847596E+10   19.769077    
   18.841440    
 -5.13655146E+13   19.769077    
 ezero   0.0000000    
  2.42767430E+11
  2.59827570E+14

Total energy input of :2.547E+11 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 2.428E+11 is absorbed (entot) 
                         through inelastic collisions (shsum =2.428E+11)
                                           + heating (elhsum =6.409E+05)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  19.77 eV (from qtoteV)
                                  or :  18.84 eV (from (entot))
                                  or :******* eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  45.0, longitude 310.0.

 REED : The energy degradation is computed from the center energies of the grid.
 REED : The energy degradation source term is interpolated linearly with tau.
 REED : The albedo at  80. km is set to 1.00
 REED : The low energy phase function is taken from Porter
 REED : Secondary distribution from Rees et al., PSS 17, 1997, 1969           
 REED : Wiscombe's delta-M method IS applied

 MAIN : The screening parameter for the Rutherford phase function is calculated
        from the Bethe/Moliere formula for E > 500 eV

 MAIN : The energy grid covers the range from : 0.001 [eV] up to :   287.9 [eV].

 MAIN : The total energy input from the precipitation source is : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]
                                  and from photoelectron source : 3.8939E+11 [eV/cm2/s]
                                                             or : 6.2387E-01 [erg/cm2/s]
 That variable "errorgaupin" is:           99

 MAIN : Total energy deposition in [CO2] is 3.049E+11 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 2.582E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 1.599E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 3.104E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 8.875E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 4.128E+00 [eV.cm-2.s-1] ("shsum").
  2.75141862E+09           2          21
  3.00530022E+09           2          23

 Total Heating :  8.253E+05 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  5.9159198E-03
 entot depart   825265.63       825265.63    
 shsum :  1.87687936E+10  3.04927932E+11  3.04927113E+11  3.04927113E+11
 shsum :  1.89928305E+10  3.30748396E+11  2.58204795E+10  3.30747609E+11
 shsum :  1.90943928E+10  3.46741047E+11  1.59926559E+10  3.46740261E+11
 shsum :  1.97787587E+10  3.77785745E+11  3.10447063E+10  3.77784959E+11
 shsum :  1.97787587E+10  3.77785745E+11   88.753647      3.77784959E+11
 shsum :  1.97787587E+10  3.77785745E+11   4.1284819      3.77784959E+11
 fin  3.77785745E+11  1.97787587E+10   19.687080    
   19.100578    
 -3.34617714E+13   19.687080    
 ezero   0.0000000    
  3.77785745E+11
  1.69968163E+14

Total energy input of :3.894E+11 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 3.778E+11 is absorbed (entot) 
                         through inelastic collisions (shsum =3.778E+11)
                                           + heating (elhsum =8.253E+05)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  19.69 eV (from qtoteV)
                                  or :  19.10 eV (from (entot))
                                  or :******* eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  50.0, longitude 310.0.

 REED : The energy degradation is computed from the center energies of the grid.
 REED : The energy degradation source term is interpolated linearly with tau.
 REED : The albedo at  80. km is set to 1.00
 REED : The low energy phase function is taken from Porter
 REED : Secondary distribution from Rees et al., PSS 17, 1997, 1969           
 REED : Wiscombe's delta-M method IS applied

 MAIN : The screening parameter for the Rutherford phase function is calculated
        from the Bethe/Moliere formula for E > 500 eV

 MAIN : The energy grid covers the range from : 0.001 [eV] up to :   287.9 [eV].

 MAIN : The total energy input from the precipitation source is : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]
                                  and from photoelectron source : 3.5570E+11 [eV/cm2/s]
                                                             or : 5.6990E-01 [erg/cm2/s]
 That variable "errorgaupin" is:           81

 MAIN : Total energy deposition in [CO2] is 2.755E+11 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 2.390E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 1.493E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 2.960E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 8.611E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 4.054E+00 [eV.cm-2.s-1] ("shsum").
  2.65019776E+09           2          21
  2.89317427E+09           2          23

 Total Heating :  7.848E+05 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  5.5270330E-03
 entot depart   784809.00       784809.00    
 shsum :  1.70887803E+10  2.75537232E+11  2.75536445E+11  2.75536445E+11
 shsum :  1.72980900E+10  2.99440800E+11  2.39035802E+10  2.99440013E+11
 shsum :  1.73940593E+10  3.14368754E+11  1.49279672E+10  3.14367967E+11
 shsum :  1.80511007E+10  3.43967105E+11  2.95983452E+10  3.43966319E+11
 shsum :  1.80511007E+10  3.43967105E+11   86.113754      3.43966319E+11
 shsum :  1.80511007E+10  3.43967105E+11   4.0537472      3.43966319E+11
 fin  3.43967105E+11  1.80511007E+10   19.704960    
   19.055187    
 -3.66643742E+13   19.704960    
 ezero   0.0000000    
  3.43967105E+11
  1.86066724E+14

Total energy input of :3.557E+11 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 3.440E+11 is absorbed (entot) 
                         through inelastic collisions (shsum =3.440E+11)
                                           + heating (elhsum =7.848E+05)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  19.70 eV (from qtoteV)
                                  or :  19.06 eV (from (entot))
                                  or :******* eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  55.0, longitude 310.0.

 REED : The energy degradation is computed from the center energies of the grid.
 REED : The energy degradation source term is interpolated linearly with tau.
 REED : The albedo at  80. km is set to 1.00
 REED : The low energy phase function is taken from Porter
 REED : Secondary distribution from Rees et al., PSS 17, 1997, 1969           
 REED : Wiscombe's delta-M method IS applied

 MAIN : The screening parameter for the Rutherford phase function is calculated
        from the Bethe/Moliere formula for E > 500 eV

 MAIN : The energy grid covers the range from : 0.001 [eV] up to :   287.9 [eV].

 MAIN : The total energy input from the precipitation source is : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]
                                  and from photoelectron source : 3.1974E+11 [eV/cm2/s]
                                                             or : 5.1228E-01 [erg/cm2/s]
 That variable "errorgaupin" is:           80

 MAIN : Total energy deposition in [CO2] is 2.444E+11 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 2.182E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 1.375E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 2.795E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 8.305E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 3.965E+00 [eV.cm-2.s-1] ("shsum").
  2.53720448E+09           2          21
  2.76825318E+09           2          23

 Total Heating :  7.382E+05 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  5.1036305E-03
 entot depart   738153.63       738153.63    
 shsum :  1.53003090E+10  2.44374028E+11  2.44373291E+11  2.44373291E+11
 shsum :  1.54935849E+10  2.66193027E+11  2.18189947E+10  2.66192290E+11
 shsum :  1.55833713E+10  2.79947510E+11  1.37544868E+10  2.79946789E+11
 shsum :  1.62089677E+10  3.07892650E+11  2.79451361E+10  3.07891929E+11
 shsum :  1.62089677E+10  3.07892650E+11   83.051796      3.07891929E+11
 shsum :  1.62089677E+10  3.07892650E+11   3.9652357      3.07891929E+11
 fin  3.07892650E+11  1.62089677E+10   19.725935    
   18.995205    
 -4.08312433E+13   19.725935    
 ezero   0.0000000    
  3.07892650E+11
  2.06992694E+14

Total energy input of :3.197E+11 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 3.079E+11 is absorbed (entot) 
                         through inelastic collisions (shsum =3.079E+11)
                                           + heating (elhsum =7.382E+05)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  19.73 eV (from qtoteV)
                                  or :  19.00 eV (from (entot))
                                  or :******* eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  60.0, longitude 310.0.

 REED : The energy degradation is computed from the center energies of the grid.
 REED : The energy degradation source term is interpolated linearly with tau.
 REED : The albedo at  80. km is set to 1.00
 REED : The low energy phase function is taken from Porter
 REED : Secondary distribution from Rees et al., PSS 17, 1997, 1969           
 REED : Wiscombe's delta-M method IS applied

 MAIN : The screening parameter for the Rutherford phase function is calculated
        from the Bethe/Moliere formula for E > 500 eV

 MAIN : The energy grid covers the range from : 0.001 [eV] up to :   287.9 [eV].

 MAIN : The total energy input from the precipitation source is : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]
                                  and from photoelectron source : 2.8194E+11 [eV/cm2/s]
                                                             or : 4.5173E-01 [erg/cm2/s]
 That variable "errorgaupin" is:           79

 MAIN : Total energy deposition in [CO2] is 2.119E+11 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 1.958E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 1.247E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 2.607E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 7.948E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 3.860E+00 [eV.cm-2.s-1] ("shsum").
  2.40931942E+09           2          21
  2.62717466E+09           2          23

 Total Heating :  6.845E+05 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  4.6470831E-03
 entot depart   684464.69       684464.69    
 shsum :  1.34268908E+10  2.11896386E+11  2.11895697E+11  2.11895697E+11
 shsum :  1.36028764E+10  2.31474201E+11  1.95778150E+10  2.31473512E+11
 shsum :  1.36858737E+10  2.43947618E+11  1.24734106E+10  2.43946930E+11
 shsum :  1.42754099E+10  2.70012826E+11  2.60652114E+10  2.70012137E+11
 shsum :  1.42754099E+10  2.70012826E+11   79.484818      2.70012137E+11
 shsum :  1.42754099E+10  2.70012826E+11   3.8595519      2.70012137E+11
 fin  2.70012826E+11  1.42754099E+10   19.750233    
   18.914541    
 -4.63617015E+13   19.750233    
 ezero   0.0000000    
  2.70012826E+11
  2.34740045E+14

Total energy input of :2.819E+11 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 2.700E+11 is absorbed (entot) 
                         through inelastic collisions (shsum =2.700E+11)
                                           + heating (elhsum =6.845E+05)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  19.75 eV (from qtoteV)
                                  or :  18.91 eV (from (entot))
                                  or :******* eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  45.0, longitude 315.0.

 REED : The energy degradation is computed from the center energies of the grid.
 REED : The energy degradation source term is interpolated linearly with tau.
 REED : The albedo at  80. km is set to 1.00
 REED : The low energy phase function is taken from Porter
 REED : Secondary distribution from Rees et al., PSS 17, 1997, 1969           
 REED : Wiscombe's delta-M method IS applied

 MAIN : The screening parameter for the Rutherford phase function is calculated
        from the Bethe/Moliere formula for E > 500 eV

 MAIN : The energy grid covers the range from : 0.001 [eV] up to :   287.9 [eV].

 MAIN : The total energy input from the precipitation source is : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]
                                  and from photoelectron source : 4.2660E+11 [eV/cm2/s]
                                                             or : 6.8351E-01 [erg/cm2/s]
 That variable "errorgaupin" is:           85

 MAIN : Total energy deposition in [CO2] is 3.376E+11 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 2.790E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 1.713E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 3.253E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 9.160E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 4.210E+00 [eV.cm-2.s-1] ("shsum").
  2.84827264E+09           2          21
  3.11215565E+09           2          23

 Total Heating :  8.687E+05 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  6.3373819E-03
 entot depart   868679.44       868679.44    
 shsum :  2.06299341E+10  3.37608442E+11  3.37607557E+11  3.37607557E+11
 shsum :  2.08699310E+10  3.65508887E+11  2.79004406E+10  3.65508002E+11
 shsum :  2.09774428E+10  3.82638359E+11  1.71294679E+10  3.82637474E+11
 shsum :  2.16896758E+10  4.15169315E+11  3.25309399E+10  4.15168397E+11
 shsum :  2.16896758E+10  4.15169315E+11   91.599594      4.15168397E+11
 shsum :  2.16896758E+10  4.15169315E+11   4.2099476      4.15168397E+11
 fin  4.15169315E+11  2.16896758E+10   19.668535    
   19.141333    
 -3.05137021E+13   19.668535    
 ezero   0.0000000    
  4.15169315E+11
  1.55139671E+14

Total energy input of :4.266E+11 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 4.152E+11 is absorbed (entot) 
                         through inelastic collisions (shsum =4.152E+11)
                                           + heating (elhsum =8.687E+05)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  19.67 eV (from qtoteV)
                                  or :  19.14 eV (from (entot))
                                  or :******* eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  50.0, longitude 315.0.

 REED : The energy degradation is computed from the center energies of the grid.
 REED : The energy degradation source term is interpolated linearly with tau.
 REED : The albedo at  80. km is set to 1.00
 REED : The low energy phase function is taken from Porter
 REED : Secondary distribution from Rees et al., PSS 17, 1997, 1969           
 REED : Wiscombe's delta-M method IS applied

 MAIN : The screening parameter for the Rutherford phase function is calculated
        from the Bethe/Moliere formula for E > 500 eV

 MAIN : The energy grid covers the range from : 0.001 [eV] up to :   287.9 [eV].

 MAIN : The total energy input from the precipitation source is : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]
                                  and from photoelectron source : 3.8930E+11 [eV/cm2/s]
                                                             or : 6.2374E-01 [erg/cm2/s]
 That variable "errorgaupin" is:           87

 MAIN : Total energy deposition in [CO2] is 3.049E+11 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 2.581E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 1.598E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 3.102E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 8.890E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 4.135E+00 [eV.cm-2.s-1] ("shsum").
  2.74690381E+09           2          21
  2.99980851E+09           2          23

 Total Heating :  8.270E+05 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  5.9137614E-03
 entot depart   826976.75       826976.75    
 shsum :  1.87653693E+10  3.04881762E+11  3.04880943E+11  3.04880943E+11
 shsum :  1.89893243E+10  3.30693837E+11  2.58120745E+10  3.30693018E+11
 shsum :  1.90908293E+10  3.46678067E+11  1.59842458E+10  3.46677248E+11
 shsum :  1.97747057E+10  3.77701073E+11  3.10230180E+10  3.77700254E+11
 shsum :  1.97747057E+10  3.77701073E+11   88.901390      3.77700254E+11
 shsum :  1.97747057E+10  3.77701073E+11   4.1346183      3.77700254E+11
 fin  3.77701073E+11  1.97747057E+10   19.686810    
   19.100212    
 -3.34686291E+13   19.686810    
 ezero   0.0000000    
  3.77701073E+11
  1.70005358E+14

Total energy input of :3.893E+11 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 3.777E+11 is absorbed (entot) 
                         through inelastic collisions (shsum =3.777E+11)
                                           + heating (elhsum =8.270E+05)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  19.69 eV (from qtoteV)
                                  or :  19.10 eV (from (entot))
                                  or :******* eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  55.0, longitude 315.0.

 REED : The energy degradation is computed from the center energies of the grid.
 REED : The energy degradation source term is interpolated linearly with tau.
 REED : The albedo at  80. km is set to 1.00
 REED : The low energy phase function is taken from Porter
 REED : Secondary distribution from Rees et al., PSS 17, 1997, 1969           
 REED : Wiscombe's delta-M method IS applied

 MAIN : The screening parameter for the Rutherford phase function is calculated
        from the Bethe/Moliere formula for E > 500 eV

 MAIN : The energy grid covers the range from : 0.001 [eV] up to :   287.9 [eV].

 MAIN : The total energy input from the precipitation source is : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]
                                  and from photoelectron source : 3.4945E+11 [eV/cm2/s]
                                                             or : 5.5988E-01 [erg/cm2/s]
 That variable "errorgaupin" is:           91

 MAIN : Total energy deposition in [CO2] is 2.701E+11 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 2.354E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 1.472E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 2.930E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 8.576E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 4.045E+00 [eV.cm-2.s-1] ("shsum").
  2.63307264E+09           2          21
  2.87388698E+09           2          23

 Total Heating :  7.787E+05 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  5.4528341E-03
 entot depart   778680.31       778680.31    
 shsum :  1.67782042E+10  2.70134051E+11  2.70133264E+11  2.70133264E+11
 shsum :  1.69847040E+10  2.93674156E+11  2.35400970E+10  2.93673370E+11
 shsum :  1.70795735E+10  3.08395213E+11  1.47210476E+10  3.08394426E+11
 shsum :  1.77307935E+10  3.37692230E+11  2.92970045E+10  3.37691443E+11
 shsum :  1.77307935E+10  3.37692230E+11   85.761536      3.37691443E+11
 shsum :  1.77307935E+10  3.37692230E+11   4.0451560      3.37691443E+11
 fin  3.37692230E+11  1.77307935E+10   19.708458    
   19.045523    
 -3.73267135E+13   19.708458    
 ezero   0.0000000    
  3.37692230E+11
  1.89394401E+14

Total energy input of :3.494E+11 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 3.377E+11 is absorbed (entot) 
                         through inelastic collisions (shsum =3.377E+11)
                                           + heating (elhsum =7.787E+05)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  19.71 eV (from qtoteV)
                                  or :  19.05 eV (from (entot))
                                  or :******* eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  60.0, longitude 315.0.

 REED : The energy degradation is computed from the center energies of the grid.
 REED : The energy degradation source term is interpolated linearly with tau.
 REED : The albedo at  80. km is set to 1.00
 REED : The low energy phase function is taken from Porter
 REED : Secondary distribution from Rees et al., PSS 17, 1997, 1969           
 REED : Wiscombe's delta-M method IS applied

 MAIN : The screening parameter for the Rutherford phase function is calculated
        from the Bethe/Moliere formula for E > 500 eV

 MAIN : The energy grid covers the range from : 0.001 [eV] up to :   287.9 [eV].

 MAIN : The total energy input from the precipitation source is : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]
                                  and from photoelectron source : 3.0751E+11 [eV/cm2/s]
                                                             or : 4.9269E-01 [erg/cm2/s]
 That variable "errorgaupin" is:           74

 MAIN : Total energy deposition in [CO2] is 2.339E+11 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 2.110E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 1.334E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 2.733E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 8.209E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 3.938E+00 [eV.cm-2.s-1] ("shsum").
  2.50342067E+09           2          21
  2.73077222E+09           2          23

 Total Heating :  7.228E+05 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  4.9561067E-03
 entot depart   722821.06       722821.06    
 shsum :  1.46940027E+10  2.33862169E+11  2.33861448E+11  2.33861448E+11
 shsum :  1.48816916E+10  2.54957945E+11  2.10957722E+10  2.54957224E+11
 shsum :  1.49692764E+10  2.68298224E+11  1.33402737E+10  2.68297503E+11
 shsum :  1.55829873E+10  2.95628014E+11  2.73297777E+10  2.95627293E+11
 shsum :  1.55829873E+10  2.95628014E+11   82.090591      2.95627293E+11
 shsum :  1.55829873E+10  2.95628014E+11   3.9380000      2.95627293E+11
 fin  2.95628014E+11  1.55829873E+10   19.733749    
   18.971203    
 -4.24714636E+13   19.733749    
 ezero   0.0000000    
  2.95628014E+11
  2.15222472E+14

Total energy input of :3.075E+11 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 2.956E+11 is absorbed (entot) 
                         through inelastic collisions (shsum =2.956E+11)
                                           + heating (elhsum =7.228E+05)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  19.73 eV (from qtoteV)
                                  or :  18.97 eV (from (entot))
                                  or :******* eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  45.0, longitude 320.0.

 REED : The energy degradation is computed from the center energies of the grid.
 REED : The energy degradation source term is interpolated linearly with tau.
 REED : The albedo at  80. km is set to 1.00
 REED : The low energy phase function is taken from Porter
 REED : Secondary distribution from Rees et al., PSS 17, 1997, 1969           
 REED : Wiscombe's delta-M method IS applied

 MAIN : The screening parameter for the Rutherford phase function is calculated
        from the Bethe/Moliere formula for E > 500 eV

 MAIN : The energy grid covers the range from : 0.001 [eV] up to :   287.9 [eV].

 MAIN : The total energy input from the precipitation source is : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]
                                  and from photoelectron source : 4.6089E+11 [eV/cm2/s]
                                                             or : 7.3843E-01 [erg/cm2/s]
 That variable "errorgaupin" is:           94

 MAIN : Total energy deposition in [CO2] is 3.679E+11 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 2.979E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 1.815E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 3.382E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 9.405E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 4.279E+00 [eV.cm-2.s-1] ("shsum").
  2.93190298E+09           2          21
  3.20449229E+09           2          23

 Total Heating :  9.062E+05 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  6.7201294E-03
 entot depart   906153.44       906153.44    
 shsum :  2.23476367E+10  3.67861170E+11  3.67860253E+11  3.67860253E+11
 shsum :  2.26021294E+10  3.97649215E+11  2.97880392E+10  3.97648298E+11
 shsum :  2.27149701E+10  4.15797641E+11  1.81484339E+10  4.15796724E+11
 shsum :  2.34512609E+10  4.49617723E+11  3.38200945E+10  4.49616806E+11
 shsum :  2.34512609E+10  4.49617723E+11   94.047737      4.49616806E+11
 shsum :  2.34512609E+10  4.49617723E+11   4.2790585      4.49616806E+11
 fin  4.49617723E+11  2.34512609E+10   19.652946    
   19.172432    
 -2.82216072E+13   19.652946    
 ezero   0.0000000    
  4.49617723E+11
  1.43599883E+14

Total energy input of :4.609E+11 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 4.496E+11 is absorbed (entot) 
                         through inelastic collisions (shsum =4.496E+11)
                                           + heating (elhsum =9.062E+05)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  19.65 eV (from qtoteV)
                                  or :  19.17 eV (from (entot))
                                  or :******* eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  50.0, longitude 320.0.

 REED : The energy degradation is computed from the center energies of the grid.
 REED : The energy degradation source term is interpolated linearly with tau.
 REED : The albedo at  80. km is set to 1.00
 REED : The low energy phase function is taken from Porter
 REED : Secondary distribution from Rees et al., PSS 17, 1997, 1969           
 REED : Wiscombe's delta-M method IS applied

 MAIN : The screening parameter for the Rutherford phase function is calculated
        from the Bethe/Moliere formula for E > 500 eV

 MAIN : The energy grid covers the range from : 0.001 [eV] up to :   287.9 [eV].

 MAIN : The total energy input from the precipitation source is : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]
                                  and from photoelectron source : 4.2027E+11 [eV/cm2/s]
                                                             or : 6.7336E-01 [erg/cm2/s]
 That variable "errorgaupin" is:           80

 MAIN : Total energy deposition in [CO2] is 3.321E+11 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 2.754E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 1.693E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 3.226E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 9.130E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 4.203E+00 [eV.cm-2.s-1] ("shsum").
  2.83073382E+09           2          21
  3.09230106E+09           2          23

 Total Heating :  8.635E+05 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  6.2646978E-03
 entot depart   863497.88       863497.88    
 shsum :  2.03137761E+10  3.32072026E+11  3.32071174E+11  3.32071174E+11
 shsum :  2.05510205E+10  3.59616053E+11  2.75440210E+10  3.59615201E+11
 shsum :  2.06574817E+10  3.76547377E+11  1.69313085E+10  3.76546525E+11
 shsum :  2.13645476E+10  4.08807899E+11  3.22605158E+10  4.08807047E+11
 shsum :  2.13645476E+10  4.08807899E+11   91.304688      4.08807047E+11
 shsum :  2.13645476E+10  4.08807899E+11   4.2033701      4.08807047E+11
 fin  4.08807899E+11  2.13645476E+10   19.671507    
   19.134872    
 -3.09780619E+13   19.671507    
 ezero   0.0000000    
  4.08807899E+11
  1.57476821E+14

Total energy input of :4.203E+11 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 4.088E+11 is absorbed (entot) 
                         through inelastic collisions (shsum =4.088E+11)
                                           + heating (elhsum =8.635E+05)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  19.67 eV (from qtoteV)
                                  or :  19.13 eV (from (entot))
                                  or :******* eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  55.0, longitude 320.0.

 REED : The energy degradation is computed from the center energies of the grid.
 REED : The energy degradation source term is interpolated linearly with tau.
 REED : The albedo at  80. km is set to 1.00
 REED : The low energy phase function is taken from Porter
 REED : Secondary distribution from Rees et al., PSS 17, 1997, 1969           
 REED : Wiscombe's delta-M method IS applied

 MAIN : The screening parameter for the Rutherford phase function is calculated
        from the Bethe/Moliere formula for E > 500 eV

 MAIN : The energy grid covers the range from : 0.001 [eV] up to :   287.9 [eV].

 MAIN : The total energy input from the precipitation source is : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]
                                  and from photoelectron source : 3.7686E+11 [eV/cm2/s]
                                                             or : 6.0380E-01 [erg/cm2/s]
 That variable "errorgaupin" is:           95

 MAIN : Total energy deposition in [CO2] is 2.940E+11 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 2.510E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 1.559E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 3.047E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 8.810E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 4.113E+00 [eV.cm-2.s-1] ("shsum").
  2.71640192E+09           2          21
  2.96576538E+09           2          23

 Total Heating :  8.139E+05 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  5.7695461E-03
 entot depart   813922.44       813922.44    
 shsum :  1.81446656E+10  2.94035358E+11  2.94034538E+11  2.94034538E+11
 shsum :  1.83631585E+10  3.19138169E+11  2.51027968E+10  3.19137350E+11
 shsum :  1.84625766E+10  3.34726660E+11  1.55884841E+10  3.34725841E+11
 shsum :  1.91359754E+10  3.65200474E+11  3.04738161E+10  3.65199655E+11
 shsum :  1.91359754E+10  3.65200474E+11   88.103836      3.65199655E+11
 shsum :  1.91359754E+10  3.65200474E+11   4.1132565      3.65199655E+11
 fin  3.65200474E+11  1.91359754E+10   19.693562    
   19.084497    
 -3.45857610E+13   19.693562    
 ezero   0.0000000    
  3.65200474E+11
  1.75619619E+14

Total energy input of :3.769E+11 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 3.652E+11 is absorbed (entot) 
                         through inelastic collisions (shsum =3.652E+11)
                                           + heating (elhsum =8.139E+05)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  19.69 eV (from qtoteV)
                                  or :  19.08 eV (from (entot))
                                  or :******* eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  60.0, longitude 320.0.

 REED : The energy degradation is computed from the center energies of the grid.
 REED : The energy degradation source term is interpolated linearly with tau.
 REED : The albedo at  80. km is set to 1.00
 REED : The low energy phase function is taken from Porter
 REED : Secondary distribution from Rees et al., PSS 17, 1997, 1969           
 REED : Wiscombe's delta-M method IS applied

 MAIN : The screening parameter for the Rutherford phase function is calculated
        from the Bethe/Moliere formula for E > 500 eV

 MAIN : The energy grid covers the range from : 0.001 [eV] up to :   287.9 [eV].

 MAIN : The total energy input from the precipitation source is : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]
                                  and from photoelectron source : 3.3113E+11 [eV/cm2/s]
                                                             or : 5.3053E-01 [erg/cm2/s]
 That variable "errorgaupin" is:           90

 MAIN : Total energy deposition in [CO2] is 2.543E+11 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 2.248E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 1.412E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 2.843E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 8.435E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 4.005E+00 [eV.cm-2.s-1] ("shsum").
  2.58536781E+09           2          21
  2.82105933E+09           2          23

 Total Heating :  7.563E+05 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  5.2362620E-03
 entot depart   756337.31       756337.31    
 shsum :  1.58671770E+10  2.54276698E+11  2.54275944E+11  2.54275944E+11
 shsum :  1.60654756E+10  2.76751942E+11  2.24752292E+10  2.76751188E+11
 shsum :  1.61571666E+10  2.90871443E+11  1.41194947E+10  2.90870690E+11
 shsum :  1.67918572E+10  3.19305548E+11  2.84341043E+10  3.19304794E+11
 shsum :  1.67918572E+10  3.19305548E+11   84.349472      3.19304794E+11
 shsum :  1.67918572E+10  3.19305548E+11   4.0050144      3.19304794E+11
 fin  3.19305548E+11  1.67918572E+10   19.719528    
   19.015499    
 -3.94138831E+13   19.719528    
 ezero   0.0000000    
  3.19305548E+11
  1.99872343E+14

Total energy input of :3.311E+11 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 3.193E+11 is absorbed (entot) 
                         through inelastic collisions (shsum =3.193E+11)
                                           + heating (elhsum =7.563E+05)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  19.72 eV (from qtoteV)
                                  or :  19.02 eV (from (entot))
                                  or :******* eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  45.0, longitude 325.0.

 REED : The energy degradation is computed from the center energies of the grid.
 REED : The energy degradation source term is interpolated linearly with tau.
 REED : The albedo at  80. km is set to 1.00
 REED : The low energy phase function is taken from Porter
 REED : Secondary distribution from Rees et al., PSS 17, 1997, 1969           
 REED : Wiscombe's delta-M method IS applied

 MAIN : The screening parameter for the Rutherford phase function is calculated
        from the Bethe/Moliere formula for E > 500 eV

 MAIN : The energy grid covers the range from : 0.001 [eV] up to :   287.9 [eV].

 MAIN : The total energy input from the precipitation source is : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]
                                  and from photoelectron source : 4.9189E+11 [eV/cm2/s]
                                                             or : 7.8811E-01 [erg/cm2/s]
 That variable "errorgaupin" is:          100

 MAIN : Total energy deposition in [CO2] is 3.953E+11 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 3.147E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 1.905E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 3.493E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 9.614E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 4.338E+00 [eV.cm-2.s-1] ("shsum").
  3.00425702E+09           2          21
  3.28443418E+09           2          23

 Total Heating :  9.383E+05 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  7.0624598E-03
 entot depart   938260.44       938260.44    
 shsum :  2.39036088E+10  3.95329503E+11  3.95328553E+11  3.95328553E+11
 shsum :  2.41710653E+10  4.26804150E+11  3.14746388E+10  4.26803200E+11
 shsum :  2.42886144E+10  4.45853073E+11  1.90489211E+10  4.45852123E+11
 shsum :  2.50454794E+10  4.80780026E+11  3.49269443E+10  4.80779076E+11
 shsum :  2.50454794E+10  4.80780026E+11   96.144547      4.80779076E+11
 shsum :  2.50454794E+10  4.80780026E+11   4.3375478      4.80779076E+11
 fin  4.80780026E+11  2.50454794E+10   19.639875    
   19.196280    
 -2.64252183E+13   19.639875    
 ezero   0.0000000    
  4.80780026E+11
  1.34548801E+14

Total energy input of :4.919E+11 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 4.808E+11 is absorbed (entot) 
                         through inelastic collisions (shsum =4.808E+11)
                                           + heating (elhsum =9.383E+05)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  19.64 eV (from qtoteV)
                                  or :  19.20 eV (from (entot))
                                  or :******* eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  50.0, longitude 325.0.

 REED : The energy degradation is computed from the center energies of the grid.
 REED : The energy degradation source term is interpolated linearly with tau.
 REED : The albedo at  80. km is set to 1.00
 REED : The low energy phase function is taken from Porter
 REED : Secondary distribution from Rees et al., PSS 17, 1997, 1969           
 REED : Wiscombe's delta-M method IS applied

 MAIN : The screening parameter for the Rutherford phase function is calculated
        from the Bethe/Moliere formula for E > 500 eV

 MAIN : The energy grid covers the range from : 0.001 [eV] up to :   287.9 [eV].

 MAIN : The total energy input from the precipitation source is : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]
                                  and from photoelectron source : 4.4830E+11 [eV/cm2/s]
                                                             or : 7.1827E-01 [erg/cm2/s]
 That variable "errorgaupin" is:           81

 MAIN : Total energy deposition in [CO2] is 3.568E+11 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 2.909E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 1.777E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 3.332E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 9.337E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 4.262E+00 [eV.cm-2.s-1] ("shsum").
  2.90348877E+09           2          21
  3.17263411E+09           2          23

 Total Heating :  8.949E+05 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  6.5784296E-03
 entot depart   894873.13       894873.13    
 shsum :  2.17173832E+10  3.56783653E+11  3.56782768E+11  3.56782768E+11
 shsum :  2.19665101E+10  3.85875247E+11  2.90915901E+10  3.85874362E+11
 shsum :  2.20773519E+10  4.03644056E+11  1.77688105E+10  4.03643171E+11
 shsum :  2.28042670E+10  4.36968489E+11  3.33244211E+10  4.36967604E+11
 shsum :  2.28042670E+10  4.36968489E+11   93.365898      4.36967604E+11
 shsum :  2.28042670E+10  4.36968489E+11   4.2616310      4.36967604E+11
 fin  4.36968489E+11  2.28042670E+10   19.658686    
   19.161699    
 -2.90222999E+13   19.658686    
 ezero   0.0000000    
  4.36968489E+11
  1.47630928E+14

Total energy input of :4.483E+11 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 4.370E+11 is absorbed (entot) 
                         through inelastic collisions (shsum =4.370E+11)
                                           + heating (elhsum =8.949E+05)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  19.66 eV (from qtoteV)
                                  or :  19.16 eV (from (entot))
                                  or :******* eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  55.0, longitude 325.0.

 REED : The energy degradation is computed from the center energies of the grid.
 REED : The energy degradation source term is interpolated linearly with tau.
 REED : The albedo at  80. km is set to 1.00
 REED : The low energy phase function is taken from Porter
 REED : Secondary distribution from Rees et al., PSS 17, 1997, 1969           
 REED : Wiscombe's delta-M method IS applied

 MAIN : The screening parameter for the Rutherford phase function is calculated
        from the Bethe/Moliere formula for E > 500 eV

 MAIN : The energy grid covers the range from : 0.001 [eV] up to :   287.9 [eV].

 MAIN : The total energy input from the precipitation source is : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]
                                  and from photoelectron source : 4.0168E+11 [eV/cm2/s]
                                                             or : 6.4356E-01 [erg/cm2/s]
 That variable "errorgaupin" is:           93

 MAIN : Total energy deposition in [CO2] is 3.158E+11 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 2.650E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 1.636E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 3.149E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 9.012E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 4.171E+00 [eV.cm-2.s-1] ("shsum").
  2.78887552E+09           2          21
  3.04572570E+09           2          23

 Total Heating :  8.443E+05 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  6.0524866E-03
 entot depart   844288.94       844288.94    
 shsum :  1.93842196E+10  3.15779056E+11  3.15778204E+11  3.15778204E+11
 shsum :  1.96134277E+10  3.42278308E+11  2.64992461E+10  3.42277456E+11
 shsum :  1.97168640E+10  3.58634160E+11  1.63558646E+10  3.58633308E+11
 shsum :  2.04092662E+10  3.90121161E+11  3.14869985E+10  3.90120309E+11
 shsum :  2.04092662E+10  3.90121161E+11   90.116058      3.90120309E+11
 shsum :  2.04092662E+10  3.90121161E+11   4.1710496      3.90120309E+11
 fin  3.90121161E+11  2.04092662E+10   19.681036    
   19.114904    
 -3.24280286E+13   19.681036    
 ezero   0.0000000    
  3.90121161E+11
  1.64767914E+14

Total energy input of :4.017E+11 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 3.901E+11 is absorbed (entot) 
                         through inelastic collisions (shsum =3.901E+11)
                                           + heating (elhsum =8.443E+05)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  19.68 eV (from qtoteV)
                                  or :  19.11 eV (from (entot))
                                  or :******* eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  60.0, longitude 325.0.

 REED : The energy degradation is computed from the center energies of the grid.
 REED : The energy degradation source term is interpolated linearly with tau.
 REED : The albedo at  80. km is set to 1.00
 REED : The low energy phase function is taken from Porter
 REED : Secondary distribution from Rees et al., PSS 17, 1997, 1969           
 REED : Wiscombe's delta-M method IS applied

 MAIN : The screening parameter for the Rutherford phase function is calculated
        from the Bethe/Moliere formula for E > 500 eV

 MAIN : The energy grid covers the range from : 0.001 [eV] up to :   287.9 [eV].

 MAIN : The total energy input from the precipitation source is : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]
                                  and from photoelectron source : 3.5253E+11 [eV/cm2/s]
                                                             or : 5.6483E-01 [erg/cm2/s]
 That variable "errorgaupin" is:           83

 MAIN : Total energy deposition in [CO2] is 2.729E+11 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 2.371E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 1.481E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 2.939E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 8.629E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 4.062E+00 [eV.cm-2.s-1] ("shsum").
  2.65677133E+09           2          21
  2.89977062E+09           2          23

 Total Heating :  7.853E+05 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  5.4864017E-03
 entot depart   785321.19       785321.19    
 shsum :  1.69325138E+10  2.72872800E+11  2.72872014E+11  2.72872014E+11
 shsum :  1.71402844E+10  2.96581333E+11  2.37085327E+10  2.96580547E+11
 shsum :  1.72355994E+10  3.11390798E+11  1.48094740E+10  3.11390011E+11
 shsum :  1.78882990E+10  3.40777828E+11  2.93870264E+10  3.40777042E+11
 shsum :  1.78882990E+10  3.40777828E+11   86.293808      3.40777042E+11
 shsum :  1.78882990E+10  3.40777828E+11   4.0619869      3.40777042E+11
 fin  3.40777828E+11  1.78882990E+10   19.707481    
   19.050320    
 -3.69980562E+13   19.707481    
 ezero   0.0000000    
  3.40777828E+11
  1.87736091E+14

Total energy input of :3.525E+11 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 3.408E+11 is absorbed (entot) 
                         through inelastic collisions (shsum =3.408E+11)
                                           + heating (elhsum =7.853E+05)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  19.71 eV (from qtoteV)
                                  or :  19.05 eV (from (entot))
                                  or :******* eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  45.0, longitude 330.0.

 REED : The energy degradation is computed from the center energies of the grid.
 REED : The energy degradation source term is interpolated linearly with tau.
 REED : The albedo at  80. km is set to 1.00
 REED : The low energy phase function is taken from Porter
 REED : Secondary distribution from Rees et al., PSS 17, 1997, 1969           
 REED : Wiscombe's delta-M method IS applied

 MAIN : The screening parameter for the Rutherford phase function is calculated
        from the Bethe/Moliere formula for E > 500 eV

 MAIN : The energy grid covers the range from : 0.001 [eV] up to :   287.9 [eV].

 MAIN : The total energy input from the precipitation source is : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]
                                  and from photoelectron source : 5.1931E+11 [eV/cm2/s]
                                                             or : 8.3204E-01 [erg/cm2/s]
 That variable "errorgaupin" is:           99

 MAIN : Total energy deposition in [CO2] is 4.197E+11 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 3.295E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 1.983E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 3.586E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 9.792E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 4.387E+00 [eV.cm-2.s-1] ("shsum").
  3.06679475E+09           2          21
  3.35357440E+09           2          23

 Total Heating :  9.655E+05 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  7.3626512E-03
 entot depart   965451.88       965451.88    
 shsum :  2.52818452E+10  4.19699589E+11  4.19698639E+11  4.19698639E+11
 shsum :  2.55606702E+10  4.52651975E+11  3.29524019E+10  4.52651057E+11
 shsum :  2.56823009E+10  4.72481694E+11  1.98297149E+10  4.72480776E+11
 shsum :  2.64565023E+10  5.08344664E+11  3.58629786E+10  5.08343747E+11
 shsum :  2.64565023E+10  5.08344664E+11   97.924614      5.08343747E+11
 shsum :  2.64565023E+10  5.08344664E+11   4.3866773      5.08343747E+11
 fin  5.08344664E+11  2.64565023E+10   19.628838    
   19.214355    
 -2.50158650E+13   19.628838    
 ezero   0.0000000    
  5.08344664E+11
  1.27444447E+14

Total energy input of :5.193E+11 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 5.083E+11 is absorbed (entot) 
                         through inelastic collisions (shsum =5.083E+11)
                                           + heating (elhsum =9.655E+05)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  19.63 eV (from qtoteV)
                                  or :  19.21 eV (from (entot))
                                  or :******* eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  50.0, longitude 330.0.

 REED : The energy degradation is computed from the center energies of the grid.
 REED : The energy degradation source term is interpolated linearly with tau.
 REED : The albedo at  80. km is set to 1.00
 REED : The low energy phase function is taken from Porter
 REED : Secondary distribution from Rees et al., PSS 17, 1997, 1969           
 REED : Wiscombe's delta-M method IS applied

 MAIN : The screening parameter for the Rutherford phase function is calculated
        from the Bethe/Moliere formula for E > 500 eV

 MAIN : The energy grid covers the range from : 0.001 [eV] up to :   287.9 [eV].

 MAIN : The total energy input from the precipitation source is : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]
                                  and from photoelectron source : 4.7312E+11 [eV/cm2/s]
                                                             or : 7.5803E-01 [erg/cm2/s]
 That variable "errorgaupin" is:           69

 MAIN : Total energy deposition in [CO2] is 3.787E+11 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 3.045E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 1.850E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 3.422E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 9.512E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 4.311E+00 [eV.cm-2.s-1] ("shsum").
  2.96653696E+09           2          21
  3.24229837E+09           2          23

 Total Heating :  9.215E+05 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  6.8535279E-03
 entot depart   921496.56       921496.56    
 shsum :  2.29616845E+10  3.78736869E+11  3.78735952E+11  3.78735952E+11
 shsum :  2.32212296E+10  4.09184436E+11  3.04475709E+10  4.09183519E+11
 shsum :  2.33358725E+10  4.27680301E+11  1.84958566E+10  4.27679384E+11
 shsum :  2.40795279E+10  4.61905265E+11  3.42249636E+10  4.61904347E+11
 shsum :  2.40795279E+10  4.61905265E+11   95.117073      4.61904347E+11
 shsum :  2.40795279E+10  4.61905265E+11   4.3106079      4.61904347E+11
 fin  4.61905265E+11  2.40795279E+10   19.648108    
   19.182487    
 -2.74852678E+13   19.648108    
 ezero   0.0000000    
  4.61905265E+11
  1.39887613E+14

Total energy input of :4.731E+11 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 4.619E+11 is absorbed (entot) 
                         through inelastic collisions (shsum =4.619E+11)
                                           + heating (elhsum =9.215E+05)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  19.65 eV (from qtoteV)
                                  or :  19.18 eV (from (entot))
                                  or :******* eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  55.0, longitude 330.0.

 REED : The energy degradation is computed from the center energies of the grid.
 REED : The energy degradation source term is interpolated linearly with tau.
 REED : The albedo at  80. km is set to 1.00
 REED : The low energy phase function is taken from Porter
 REED : Secondary distribution from Rees et al., PSS 17, 1997, 1969           
 REED : Wiscombe's delta-M method IS applied

 MAIN : The screening parameter for the Rutherford phase function is calculated
        from the Bethe/Moliere formula for E > 500 eV

 MAIN : The energy grid covers the range from : 0.001 [eV] up to :   287.9 [eV].

 MAIN : The total energy input from the precipitation source is : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]
                                  and from photoelectron source : 4.2366E+11 [eV/cm2/s]
                                                             or : 6.7879E-01 [erg/cm2/s]
 That variable "errorgaupin" is:           92

 MAIN : Total energy deposition in [CO2] is 3.351E+11 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 2.772E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 1.702E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 3.235E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 9.183E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 4.220E+00 [eV.cm-2.s-1] ("shsum").
  2.85173786E+09           2          21
  3.11513395E+09           2          23

 Total Heating :  8.701E+05 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  6.3004382E-03
 entot depart   870125.19       870125.19    
 shsum :  2.04838298E+10  3.35112372E+11  3.35111487E+11  3.35111487E+11
 shsum :  2.07224279E+10  3.62835149E+11  2.77227786E+10  3.62834264E+11
 shsum :  2.08293499E+10  3.79857568E+11  1.70224159E+10  3.79856683E+11
 shsum :  2.15377981E+10  4.12203516E+11  3.23459502E+10  4.12202631E+11
 shsum :  2.15377981E+10  4.12203516E+11   91.827492      4.12202631E+11
 shsum :  2.15377981E+10  4.12203516E+11   4.2196865      4.12202631E+11
 fin  4.12203516E+11  2.15377981E+10   19.670645    
   19.138609    
 -3.07288741E+13   19.670645    
 ezero   0.0000000    
  4.12203516E+11
  1.56216903E+14

Total energy input of :4.237E+11 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 4.122E+11 is absorbed (entot) 
                         through inelastic collisions (shsum =4.122E+11)
                                           + heating (elhsum =8.701E+05)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  19.67 eV (from qtoteV)
                                  or :  19.14 eV (from (entot))
                                  or :******* eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  60.0, longitude 330.0.

 REED : The energy degradation is computed from the center energies of the grid.
 REED : The energy degradation source term is interpolated linearly with tau.
 REED : The albedo at  80. km is set to 1.00
 REED : The low energy phase function is taken from Porter
 REED : Secondary distribution from Rees et al., PSS 17, 1997, 1969           
 REED : Wiscombe's delta-M method IS applied

 MAIN : The screening parameter for the Rutherford phase function is calculated
        from the Bethe/Moliere formula for E > 500 eV

 MAIN : The energy grid covers the range from : 0.001 [eV] up to :   287.9 [eV].

 MAIN : The total energy input from the precipitation source is : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]
                                  and from photoelectron source : 3.7151E+11 [eV/cm2/s]
                                                             or : 5.9523E-01 [erg/cm2/s]
 That variable "errorgaupin" is:           99

 MAIN : Total energy deposition in [CO2] is 2.894E+11 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 2.479E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 1.541E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 3.020E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 8.795E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 4.110E+00 [eV.cm-2.s-1] ("shsum").
  2.71867802E+09           2          21
  2.96806426E+09           2          23

 Total Heating :  8.100E+05 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  5.7054898E-03
 entot depart   810045.81       810045.81    
 shsum :  1.78783642E+10  2.89425392E+11  2.89424572E+11  2.89424572E+11
 shsum :  1.80944323E+10  3.14214875E+11  2.47894835E+10  3.14214056E+11
 shsum :  1.81928919E+10  3.29624093E+11  1.54092145E+10  3.29623273E+11
 shsum :  1.88608184E+10  3.59820526E+11  3.01964186E+10  3.59819706E+11
 shsum :  1.88608184E+10  3.59820526E+11   87.949112      3.59819706E+11
 shsum :  1.88608184E+10  3.59820526E+11   4.1099648      3.59819706E+11
 fin  3.59820526E+11  1.88608184E+10   19.697432    
   19.077673    
 -3.50903274E+13   19.697432    
 ezero   0.0000000    
  3.59820526E+11
  1.78146704E+14

Total energy input of :3.715E+11 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 3.598E+11 is absorbed (entot) 
                         through inelastic collisions (shsum =3.598E+11)
                                           + heating (elhsum =8.100E+05)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  19.70 eV (from qtoteV)
                                  or :  19.08 eV (from (entot))
                                  or :******* eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  45.0, longitude 335.0.

 REED : The energy degradation is computed from the center energies of the grid.
 REED : The energy degradation source term is interpolated linearly with tau.
 REED : The albedo at  80. km is set to 1.00
 REED : The low energy phase function is taken from Porter
 REED : Secondary distribution from Rees et al., PSS 17, 1997, 1969           
 REED : Wiscombe's delta-M method IS applied

 MAIN : The screening parameter for the Rutherford phase function is calculated
        from the Bethe/Moliere formula for E > 500 eV

 MAIN : The energy grid covers the range from : 0.001 [eV] up to :   287.9 [eV].

 MAIN : The total energy input from the precipitation source is : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]
                                  and from photoelectron source : 5.4288E+11 [eV/cm2/s]
                                                             or : 8.6980E-01 [erg/cm2/s]
 That variable "errorgaupin" is:           87

 MAIN : Total energy deposition in [CO2] is 4.407E+11 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 3.421E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 2.049E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 3.664E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 9.941E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 4.427E+00 [eV.cm-2.s-1] ("shsum").
  3.12074266E+09           2          21
  3.41324954E+09           2          23

 Total Heating :  9.881E+05 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  7.6186983E-03
 entot depart   988094.25       988094.25    
 shsum :  2.64684749E+10  4.40698536E+11  4.40697553E+11  4.40697553E+11
 shsum :  2.67569971E+10  4.74911244E+11  3.42126981E+10  4.74910261E+11
 shsum :  2.68820828E+10  4.95401894E+11  2.04906394E+10  4.95400911E+11
 shsum :  2.76705853E+10  5.32039565E+11  3.66376632E+10  5.32038582E+11
 shsum :  2.76705853E+10  5.32039565E+11   99.413055      5.32038582E+11
 shsum :  2.76705853E+10  5.32039565E+11   4.4273915      5.32038582E+11
 fin  5.32039565E+11  2.76705853E+10   19.619366    
   19.227623    
 -2.39182618E+13   19.619366    
 ezero   0.0000000    
  5.32039565E+11
  1.21911497E+14

Total energy input of :5.429E+11 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 5.320E+11 is absorbed (entot) 
                         through inelastic collisions (shsum =5.320E+11)
                                           + heating (elhsum =9.881E+05)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  19.62 eV (from qtoteV)
                                  or :  19.23 eV (from (entot))
                                  or :******* eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  50.0, longitude 335.0.

 REED : The energy degradation is computed from the center energies of the grid.
 REED : The energy degradation source term is interpolated linearly with tau.
 REED : The albedo at  80. km is set to 1.00
 REED : The low energy phase function is taken from Porter
 REED : Secondary distribution from Rees et al., PSS 17, 1997, 1969           
 REED : Wiscombe's delta-M method IS applied

 MAIN : The screening parameter for the Rutherford phase function is calculated
        from the Bethe/Moliere formula for E > 500 eV

 MAIN : The energy grid covers the range from : 0.001 [eV] up to :   287.9 [eV].

 MAIN : The total energy input from the precipitation source is : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]
                                  and from photoelectron source : 4.9448E+11 [eV/cm2/s]
                                                             or : 7.9226E-01 [erg/cm2/s]
 That variable "errorgaupin" is:           91

 MAIN : Total energy deposition in [CO2] is 3.977E+11 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 3.161E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 1.911E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 3.497E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 9.658E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 4.351E+00 [eV.cm-2.s-1] ("shsum").
  3.02081306E+09           2          21
  3.30231117E+09           2          23

 Total Heating :  9.437E+05 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  7.0886463E-03
 entot depart   943693.69       943693.69    
 shsum :  2.40342589E+10  3.97691879E+11  3.97690929E+11  3.97690929E+11
 shsum :  2.43027067E+10  4.29297467E+11  3.16055941E+10  4.29296517E+11
 shsum :  2.44205650E+10  4.48408584E+11  1.91111209E+10  4.48407634E+11
 shsum :  2.51780219E+10  4.83378889E+11  3.49703004E+10  4.83377938E+11
 shsum :  2.51780219E+10  4.83378889E+11   96.583527      4.83377938E+11
 shsum :  2.51780219E+10  4.83378889E+11   4.3512306      4.83377938E+11
 fin  4.83378889E+11  2.51780219E+10   19.639500    
   19.198446    
 -2.62861121E+13   19.639500    
 ezero   0.0000000    
  4.83378889E+11
  1.33843076E+14

Total energy input of :4.945E+11 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 4.834E+11 is absorbed (entot) 
                         through inelastic collisions (shsum =4.834E+11)
                                           + heating (elhsum =9.437E+05)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  19.64 eV (from qtoteV)
                                  or :  19.20 eV (from (entot))
                                  or :******* eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  55.0, longitude 335.0.

 REED : The energy degradation is computed from the center energies of the grid.
 REED : The energy degradation source term is interpolated linearly with tau.
 REED : The albedo at  80. km is set to 1.00
 REED : The low energy phase function is taken from Porter
 REED : Secondary distribution from Rees et al., PSS 17, 1997, 1969           
 REED : Wiscombe's delta-M method IS applied

 MAIN : The screening parameter for the Rutherford phase function is calculated
        from the Bethe/Moliere formula for E > 500 eV

 MAIN : The energy grid covers the range from : 0.001 [eV] up to :   287.9 [eV].

 MAIN : The total energy input from the precipitation source is : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]
                                  and from photoelectron source : 4.4261E+11 [eV/cm2/s]
                                                             or : 7.0914E-01 [erg/cm2/s]
 That variable "errorgaupin" is:           81

 MAIN : Total energy deposition in [CO2] is 3.518E+11 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 2.877E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 1.759E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 3.306E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 9.326E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 4.260E+00 [eV.cm-2.s-1] ("shsum").
  2.90593971E+09           2          21
  3.17502669E+09           2          23

 Total Heating :  8.917E+05 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  6.5122098E-03
 entot depart   891700.06       891700.06    
 shsum :  2.14322668E+10  3.51819891E+11  3.51819006E+11  3.51819006E+11
 shsum :  2.16788849E+10  3.80587311E+11  2.87674184E+10  3.80586426E+11
 shsum :  2.17887601E+10  3.98174585E+11  1.75872573E+10  3.98173667E+11
 shsum :  2.25104589E+10  4.31232549E+11  3.30579681E+10  4.31231631E+11
 shsum :  2.25104589E+10  4.31232549E+11   93.260025      4.31231631E+11
 shsum :  2.25104589E+10  4.31232549E+11   4.2600145      4.31231631E+11
 fin  4.31232549E+11  2.25104589E+10   19.662231    
   19.156986    
 -2.94011022E+13   19.662231    
 ezero   0.0000000    
  4.31232549E+11
  1.49530847E+14

Total energy input of :4.426E+11 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 4.312E+11 is absorbed (entot) 
                         through inelastic collisions (shsum =4.312E+11)
                                           + heating (elhsum =8.917E+05)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  19.66 eV (from qtoteV)
                                  or :  19.16 eV (from (entot))
                                  or :******* eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  60.0, longitude 335.0.

 REED : The energy degradation is computed from the center energies of the grid.
 REED : The energy degradation source term is interpolated linearly with tau.
 REED : The albedo at  80. km is set to 1.00
 REED : The low energy phase function is taken from Porter
 REED : Secondary distribution from Rees et al., PSS 17, 1997, 1969           
 REED : Wiscombe's delta-M method IS applied

 MAIN : The screening parameter for the Rutherford phase function is calculated
        from the Bethe/Moliere formula for E > 500 eV

 MAIN : The energy grid covers the range from : 0.001 [eV] up to :   287.9 [eV].

 MAIN : The total energy input from the precipitation source is : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]
                                  and from photoelectron source : 3.8787E+11 [eV/cm2/s]
                                                             or : 6.2144E-01 [erg/cm2/s]
 That variable "errorgaupin" is:           87

 MAIN : Total energy deposition in [CO2] is 3.037E+11 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 2.571E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 1.592E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 3.087E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 8.934E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 4.150E+00 [eV.cm-2.s-1] ("shsum").
  2.77194342E+09           2          21
  3.02687027E+09           2          23

 Total Heating :  8.307E+05 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  5.8925180E-03
 entot depart   830731.88       830731.88    
 shsum :  1.86947564E+10  3.03742222E+11  3.03741403E+11  3.03741403E+11
 shsum :  1.89179064E+10  3.29454715E+11  2.57125048E+10  3.29453896E+11
 shsum :  1.90190285E+10  3.45372426E+11  1.59177083E+10  3.45371607E+11
 shsum :  1.96995461E+10  3.76240833E+11  3.08684186E+10  3.76240013E+11
 shsum :  1.96995461E+10  3.76240833E+11   89.335075      3.76240013E+11
 shsum :  1.96995461E+10  3.76240833E+11   4.1497540      3.76240013E+11
 fin  3.76240833E+11  1.96995461E+10   19.689243    
   19.098959    
 -3.35963205E+13   19.689243    
 ezero   0.0000000    
  3.76240833E+11
  1.70632877E+14

Total energy input of :3.879E+11 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 3.762E+11 is absorbed (entot) 
                         through inelastic collisions (shsum =3.762E+11)
                                           + heating (elhsum =8.307E+05)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  19.69 eV (from qtoteV)
                                  or :  19.10 eV (from (entot))
                                  or :******* eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  45.0, longitude 340.0.

 REED : The energy degradation is computed from the center energies of the grid.
 REED : The energy degradation source term is interpolated linearly with tau.
 REED : The albedo at  80. km is set to 1.00
 REED : The low energy phase function is taken from Porter
 REED : Secondary distribution from Rees et al., PSS 17, 1997, 1969           
 REED : Wiscombe's delta-M method IS applied

 MAIN : The screening parameter for the Rutherford phase function is calculated
        from the Bethe/Moliere formula for E > 500 eV

 MAIN : The energy grid covers the range from : 0.001 [eV] up to :   287.9 [eV].

 MAIN : The total energy input from the precipitation source is : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]
                                  and from photoelectron source : 5.6243E+11 [eV/cm2/s]
                                                             or : 9.0113E-01 [erg/cm2/s]
 That variable "errorgaupin" is:           80

 MAIN : Total energy deposition in [CO2] is 4.582E+11 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 3.525E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 2.103E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 3.726E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 1.006E+02 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 4.460E+00 [eV.cm-2.s-1] ("shsum").
  3.16698675E+09           2          21
  3.46440934E+09           2          23

 Total Heating :  1.006E+06 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  7.8299670E-03
 entot depart   1006468.5       1006468.5    
 shsum :  2.74535199E+10  4.58155459E+11  4.58154443E+11  4.58154443E+11
 shsum :  2.77500416E+10  4.93406749E+11  3.52512860E+10  4.93405733E+11
 shsum :  2.78779576E+10  5.14438365E+11  2.10316268E+10  5.14437349E+11
 shsum :  2.86778860E+10  5.51696859E+11  3.72585144E+10  5.51695876E+11
 shsum :  2.86778860E+10  5.51696859E+11   100.62951      5.51695876E+11
 shsum :  2.86778860E+10  5.51696859E+11   4.4604025      5.51695876E+11
 fin  5.51696859E+11  2.86778860E+10   19.612028    
   19.237711    
 -2.30781406E+13   19.612028    
 ezero   0.0000000    
  5.51696859E+11
  1.17673397E+14

Total energy input of :5.624E+11 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 5.517E+11 is absorbed (entot) 
                         through inelastic collisions (shsum =5.517E+11)
                                           + heating (elhsum =1.006E+06)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  19.61 eV (from qtoteV)
                                  or :  19.24 eV (from (entot))
                                  or :******* eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  50.0, longitude 340.0.

 REED : The energy degradation is computed from the center energies of the grid.
 REED : The energy degradation source term is interpolated linearly with tau.
 REED : The albedo at  80. km is set to 1.00
 REED : The low energy phase function is taken from Porter
 REED : Secondary distribution from Rees et al., PSS 17, 1997, 1969           
 REED : Wiscombe's delta-M method IS applied

 MAIN : The screening parameter for the Rutherford phase function is calculated
        from the Bethe/Moliere formula for E > 500 eV

 MAIN : The energy grid covers the range from : 0.001 [eV] up to :   287.9 [eV].

 MAIN : The total energy input from the precipitation source is : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]
                                  and from photoelectron source : 5.1220E+11 [eV/cm2/s]
                                                             or : 8.2064E-01 [erg/cm2/s]
 That variable "errorgaupin" is:           82

 MAIN : Total energy deposition in [CO2] is 4.134E+11 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 3.256E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 1.961E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 3.557E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 9.778E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 4.384E+00 [eV.cm-2.s-1] ("shsum").
  3.06716698E+09           2          21
  3.35359923E+09           2          23

 Total Heating :  9.617E+05 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  7.2823307E-03
 entot depart   961717.69       961717.69    
 shsum :  2.49244467E+10  4.13439590E+11  4.13438640E+11  4.13438640E+11
 shsum :  2.52002304E+10  4.45998891E+11  3.25592924E+10  4.45997941E+11
 shsum :  2.53207163E+10  4.65612931E+11  1.96140462E+10  4.65611981E+11
 shsum :  2.60891914E+10  5.01180334E+11  3.55673907E+10  5.01179384E+11
 shsum :  2.60891914E+10  5.01180334E+11   97.782333      5.01179384E+11
 shsum :  2.60891914E+10  5.01180334E+11   4.3841558      5.01179384E+11
 fin  5.01180334E+11  2.60891914E+10   19.632496    
   19.210266    
 -2.53680650E+13   19.632496    
 ezero   0.0000000    
  5.01180334E+11
  1.29214670E+14

Total energy input of :5.122E+11 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 5.012E+11 is absorbed (entot) 
                         through inelastic collisions (shsum =5.012E+11)
                                           + heating (elhsum =9.617E+05)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  19.63 eV (from qtoteV)
                                  or :  19.21 eV (from (entot))
                                  or :******* eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  55.0, longitude 340.0.

 REED : The energy degradation is computed from the center energies of the grid.
 REED : The energy degradation source term is interpolated linearly with tau.
 REED : The albedo at  80. km is set to 1.00
 REED : The low energy phase function is taken from Porter
 REED : Secondary distribution from Rees et al., PSS 17, 1997, 1969           
 REED : Wiscombe's delta-M method IS applied

 MAIN : The screening parameter for the Rutherford phase function is calculated
        from the Bethe/Moliere formula for E > 500 eV

 MAIN : The energy grid covers the range from : 0.001 [eV] up to :   287.9 [eV].

 MAIN : The total energy input from the precipitation source is : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]
                                  and from photoelectron source : 4.5833E+11 [eV/cm2/s]
                                                             or : 7.3434E-01 [erg/cm2/s]
 That variable "errorgaupin" is:           80

 MAIN : Total energy deposition in [CO2] is 3.657E+11 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 2.963E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 1.805E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 3.363E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 9.443E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 4.293E+00 [eV.cm-2.s-1] ("shsum").
  2.95202995E+09           2          21
  3.22599552E+09           2          23

 Total Heating :  9.092E+05 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  6.6867936E-03
 entot depart   909224.69       909224.69    
 shsum :  2.22201651E+10  3.65722272E+11  3.65721354E+11  3.65721354E+11
 shsum :  2.24733962E+10  3.95350475E+11  2.96282071E+10  3.95349557E+11
 shsum :  2.25856840E+10  4.13399515E+11  1.80490383E+10  4.13398598E+11
 shsum :  2.33179525E+10  4.47027806E+11  3.36282747E+10  4.47026889E+11
 shsum :  2.33179525E+10  4.47027806E+11   94.431419      4.47026889E+11
 shsum :  2.33179525E+10  4.47027806E+11   4.2926922      4.47026889E+11
 fin  4.47027806E+11  2.33179525E+10   19.655645    
   19.170971    
 -2.83829495E+13   19.655645    
 ezero   0.0000000    
  4.47027806E+11
  1.44401012E+14

Total energy input of :4.583E+11 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 4.470E+11 is absorbed (entot) 
                         through inelastic collisions (shsum =4.470E+11)
                                           + heating (elhsum =9.092E+05)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  19.66 eV (from qtoteV)
                                  or :  19.17 eV (from (entot))
                                  or :******* eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  60.0, longitude 340.0.

 REED : The energy degradation is computed from the center energies of the grid.
 REED : The energy degradation source term is interpolated linearly with tau.
 REED : The albedo at  80. km is set to 1.00
 REED : The low energy phase function is taken from Porter
 REED : Secondary distribution from Rees et al., PSS 17, 1997, 1969           
 REED : Wiscombe's delta-M method IS applied

 MAIN : The screening parameter for the Rutherford phase function is calculated
        from the Bethe/Moliere formula for E > 500 eV

 MAIN : The energy grid covers the range from : 0.001 [eV] up to :   287.9 [eV].

 MAIN : The total energy input from the precipitation source is : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]
                                  and from photoelectron source : 4.0145E+11 [eV/cm2/s]
                                                             or : 6.4321E-01 [erg/cm2/s]
 That variable "errorgaupin" is:           93

 MAIN : Total energy deposition in [CO2] is 3.157E+11 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 2.647E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 1.633E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 3.141E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 9.047E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 4.182E+00 [eV.cm-2.s-1] ("shsum").
  2.81719014E+09           2          21
  3.07686579E+09           2          23

 Total Heating :  8.476E+05 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  6.0465774E-03
 entot depart   847555.25       847555.25    
 shsum :  1.93733468E+10  3.15664007E+11  3.15663155E+11  3.15663155E+11
 shsum :  1.96023316E+10  3.42136881E+11  2.64728863E+10  3.42136029E+11
 shsum :  1.97056328E+10  3.58470943E+11  1.63340605E+10  3.58470091E+11
 shsum :  2.03962204E+10  3.89878940E+11  3.14079928E+10  3.89878088E+11
 shsum :  2.03962204E+10  3.89878940E+11   90.466446      3.89878088E+11
 shsum :  2.03962204E+10  3.89878940E+11   4.1819525      3.89878088E+11
 fin  3.89878940E+11  2.03962204E+10   19.682793    
   19.115253    
 -3.24487715E+13   19.682793    
 ezero   0.0000000    
  3.89878940E+11
  1.64858578E+14

Total energy input of :4.015E+11 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 3.899E+11 is absorbed (entot) 
                         through inelastic collisions (shsum =3.899E+11)
                                           + heating (elhsum =8.476E+05)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  19.68 eV (from qtoteV)
                                  or :  19.12 eV (from (entot))
                                  or :******* eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  45.0, longitude 345.0.

 REED : The energy degradation is computed from the center energies of the grid.
 REED : The energy degradation source term is interpolated linearly with tau.
 REED : The albedo at  80. km is set to 1.00
 REED : The low energy phase function is taken from Porter
 REED : Secondary distribution from Rees et al., PSS 17, 1997, 1969           
 REED : Wiscombe's delta-M method IS applied

 MAIN : The screening parameter for the Rutherford phase function is calculated
        from the Bethe/Moliere formula for E > 500 eV

 MAIN : The energy grid covers the range from : 0.001 [eV] up to :   287.9 [eV].

 MAIN : The total energy input from the precipitation source is : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]
                                  and from photoelectron source : 5.7774E+11 [eV/cm2/s]
                                                             or : 9.2565E-01 [erg/cm2/s]
 That variable "errorgaupin" is:           95

 MAIN : Total energy deposition in [CO2] is 4.718E+11 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 3.606E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 2.145E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 3.773E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 1.016E+02 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 4.486E+00 [eV.cm-2.s-1] ("shsum").
  3.20585498E+09           2          21
  3.50743526E+09           2          23

 Total Heating :  1.021E+06 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  7.9944758E-03
 entot depart   1020769.6       1020769.6    
 shsum :  2.82262938E+10  4.71843111E+11  4.71842095E+11  4.71842095E+11
 shsum :  2.85290455E+10  5.07903771E+11  3.60606556E+10  5.07902755E+11
 shsum :  2.86591508E+10  5.29354621E+11  2.14508421E+10  5.29353605E+11
 shsum :  2.94677238E+10  5.67084712E+11  3.77300869E+10  5.67083663E+11
 shsum :  2.94677238E+10  5.67084712E+11   101.58715      5.67083663E+11
 shsum :  2.94677238E+10  5.67084712E+11   4.4861760      5.67083663E+11
 fin  5.67084712E+11  2.94677238E+10   19.605820    
   19.244267    
 -2.24595668E+13   19.605820    
 ezero   0.0000000    
  5.67084712E+11
  1.14555603E+14

Total energy input of :5.777E+11 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 5.671E+11 is absorbed (entot) 
                         through inelastic collisions (shsum =5.671E+11)
                                           + heating (elhsum =1.021E+06)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  19.61 eV (from qtoteV)
                                  or :  19.24 eV (from (entot))
                                  or :******* eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  50.0, longitude 345.0.

 REED : The energy degradation is computed from the center energies of the grid.
 REED : The energy degradation source term is interpolated linearly with tau.
 REED : The albedo at  80. km is set to 1.00
 REED : The low energy phase function is taken from Porter
 REED : Secondary distribution from Rees et al., PSS 17, 1997, 1969           
 REED : Wiscombe's delta-M method IS applied

 MAIN : The screening parameter for the Rutherford phase function is calculated
        from the Bethe/Moliere formula for E > 500 eV

 MAIN : The energy grid covers the range from : 0.001 [eV] up to :   287.9 [eV].

 MAIN : The total energy input from the precipitation source is : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]
                                  and from photoelectron source : 5.2611E+11 [eV/cm2/s]
                                                             or : 8.4293E-01 [erg/cm2/s]
 That variable "errorgaupin" is:           83

 MAIN : Total energy deposition in [CO2] is 4.258E+11 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 3.330E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 2.000E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 3.602E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 9.873E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 4.410E+00 [eV.cm-2.s-1] ("shsum").
  3.10625203E+09           2          21
  3.39685120E+09           2          23

 Total Heating :  9.758E+05 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  7.4336492E-03
 entot depart   975761.88       975761.88    
 shsum :  2.56241910E+10  4.25832088E+11  4.25831105E+11  4.25831105E+11
 shsum :  2.59057050E+10  4.59136172E+11  3.33040988E+10  4.59135189E+11
 shsum :  2.60282286E+10  4.79140643E+11  2.00044605E+10  4.79139660E+11
 shsum :  2.68050493E+10  5.15162178E+11  3.60215511E+10  5.15161194E+11
 shsum :  2.68050493E+10  5.15162178E+11   98.726707      5.15161194E+11
 shsum :  2.68050493E+10  5.15162178E+11   4.4098845      5.15161194E+11
 fin  5.15162178E+11  2.68050493E+10   19.627220    
   19.218849    
 -2.46905821E+13   19.627220    
 ezero   0.0000000    
  5.15162178E+11
  1.25797663E+14

Total energy input of :5.261E+11 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 5.152E+11 is absorbed (entot) 
                         through inelastic collisions (shsum =5.152E+11)
                                           + heating (elhsum =9.758E+05)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  19.63 eV (from qtoteV)
                                  or :  19.22 eV (from (entot))
                                  or :******* eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  55.0, longitude 345.0.

 REED : The energy degradation is computed from the center energies of the grid.
 REED : The energy degradation source term is interpolated linearly with tau.
 REED : The albedo at  80. km is set to 1.00
 REED : The low energy phase function is taken from Porter
 REED : Secondary distribution from Rees et al., PSS 17, 1997, 1969           
 REED : Wiscombe's delta-M method IS applied

 MAIN : The screening parameter for the Rutherford phase function is calculated
        from the Bethe/Moliere formula for E > 500 eV

 MAIN : The energy grid covers the range from : 0.001 [eV] up to :   287.9 [eV].

 MAIN : The total energy input from the precipitation source is : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]
                                  and from photoelectron source : 4.7069E+11 [eV/cm2/s]
                                                             or : 7.5414E-01 [erg/cm2/s]
 That variable "errorgaupin" is:           92

 MAIN : Total energy deposition in [CO2] is 3.767E+11 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 3.030E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 1.841E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 3.406E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 9.535E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 4.318E+00 [eV.cm-2.s-1] ("shsum").
  2.99055616E+09           2          21
  3.26863642E+09           2          23

 Total Heating :  9.229E+05 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  6.8233185E-03
 entot depart   922868.00       922868.00    
 shsum :  2.28398756E+10  3.76673272E+11  3.76672354E+11  3.76672354E+11
 shsum :  2.30982758E+10  4.06974333E+11  3.03010509E+10  4.06973415E+11
 shsum :  2.32124314E+10  4.25381462E+11  1.84071148E+10  4.25380545E+11
 shsum :  2.39527014E+10  4.59443438E+11  3.40619715E+10  4.59442520E+11
 shsum :  2.39527014E+10  4.59443438E+11   95.352905      4.59442520E+11
 shsum :  2.39527014E+10  4.59443438E+11   4.3181705      4.59442520E+11
 fin  4.59443438E+11  2.39527014E+10   19.650774    
   19.181278    
 -2.76307997E+13   19.650774    
 ezero   0.0000000    
  4.59443438E+11
  1.40609218E+14

Total energy input of :4.707E+11 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 4.594E+11 is absorbed (entot) 
                         through inelastic collisions (shsum =4.594E+11)
                                           + heating (elhsum =9.229E+05)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  19.65 eV (from qtoteV)
                                  or :  19.18 eV (from (entot))
                                  or :******* eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  60.0, longitude 345.0.

 REED : The energy degradation is computed from the center energies of the grid.
 REED : The energy degradation source term is interpolated linearly with tau.
 REED : The albedo at  80. km is set to 1.00
 REED : The low energy phase function is taken from Porter
 REED : Secondary distribution from Rees et al., PSS 17, 1997, 1969           
 REED : Wiscombe's delta-M method IS applied

 MAIN : The screening parameter for the Rutherford phase function is calculated
        from the Bethe/Moliere formula for E > 500 eV

 MAIN : The energy grid covers the range from : 0.001 [eV] up to :   287.9 [eV].

 MAIN : The total energy input from the precipitation source is : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]
                                  and from photoelectron source : 4.1214E+11 [eV/cm2/s]
                                                             or : 6.6033E-01 [erg/cm2/s]
 That variable "errorgaupin" is:           84

 MAIN : Total energy deposition in [CO2] is 3.251E+11 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 2.707E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 1.666E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 3.182E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 9.135E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 4.207E+00 [eV.cm-2.s-1] ("shsum").
  2.85475994E+09           2          21
  3.11841741E+09           2          23

 Total Heating :  8.606E+05 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  6.1669447E-03
 entot depart   860641.44       860641.44    
 shsum :  1.99073526E+10  3.25060952E+11  3.25060100E+11  3.25060100E+11
 shsum :  2.01408963E+10  3.52127877E+11  2.70669414E+10  3.52127025E+11
 shsum :  2.02458849E+10  3.68785031E+11  1.66571500E+10  3.68784179E+11
 shsum :  2.09440973E+10  4.00603578E+11  3.18185472E+10  4.00602726E+11
 shsum :  2.09440973E+10  4.00603578E+11   91.354584      4.00602726E+11
 shsum :  2.09440973E+10  4.00603578E+11   4.2070031      4.00602726E+11
 fin  4.00603578E+11  2.09440973E+10   19.678030    
   19.127279    
 -3.15999430E+13   19.678030    
 ezero   0.0000000    
  4.00603578E+11
  1.60584885E+14

Total energy input of :4.121E+11 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 4.006E+11 is absorbed (entot) 
                         through inelastic collisions (shsum =4.006E+11)
                                           + heating (elhsum =8.606E+05)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  19.68 eV (from qtoteV)
                                  or :  19.13 eV (from (entot))
                                  or :******* eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  45.0, longitude 350.0.

 REED : The energy degradation is computed from the center energies of the grid.
 REED : The energy degradation source term is interpolated linearly with tau.
 REED : The albedo at  80. km is set to 1.00
 REED : The low energy phase function is taken from Porter
 REED : Secondary distribution from Rees et al., PSS 17, 1997, 1969           
 REED : Wiscombe's delta-M method IS applied

 MAIN : The screening parameter for the Rutherford phase function is calculated
        from the Bethe/Moliere formula for E > 500 eV

 MAIN : The energy grid covers the range from : 0.001 [eV] up to :   287.9 [eV].

 MAIN : The total energy input from the precipitation source is : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]
                                  and from photoelectron source : 5.8880E+11 [eV/cm2/s]
                                                             or : 9.4337E-01 [erg/cm2/s]
 That variable "errorgaupin" is:           83

 MAIN : Total energy deposition in [CO2] is 4.818E+11 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 3.664E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 2.175E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 3.806E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 1.023E+02 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 4.505E+00 [eV.cm-2.s-1] ("shsum").
  3.23777203E+09           2          21
  3.54277325E+09           2          23

 Total Heating :  1.031E+06 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  8.1129186E-03
 entot depart   1031157.4       1031157.4    
 shsum :  2.87834419E+10  4.81751630E+11  4.81750614E+11  4.81750614E+11
 shsum :  2.90906788E+10  5.18393037E+11  3.66414111E+10  5.18392021E+11
 shsum :  2.92223508E+10  5.40142731E+11  2.17497088E+10  5.40141715E+11
 shsum :  3.00368978E+10  5.78200535E+11  3.80577792E+10  5.78199486E+11
 shsum :  3.00368978E+10  5.78200535E+11   102.29672      5.78199486E+11
 shsum :  3.00368978E+10  5.78200535E+11   4.5051317      5.78199486E+11
 fin  5.78200535E+11  3.00368978E+10   19.602493    
   19.249676    
 -2.20339750E+13   19.602493    
 ezero   0.0000000    
  5.78200535E+11
  1.12403941E+14

Total energy input of :5.888E+11 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 5.782E+11 is absorbed (entot) 
                         through inelastic collisions (shsum =5.782E+11)
                                           + heating (elhsum =1.031E+06)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  19.60 eV (from qtoteV)
                                  or :  19.25 eV (from (entot))
                                  or :******* eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  50.0, longitude 350.0.

 REED : The energy degradation is computed from the center energies of the grid.
 REED : The energy degradation source term is interpolated linearly with tau.
 REED : The albedo at  80. km is set to 1.00
 REED : The low energy phase function is taken from Porter
 REED : Secondary distribution from Rees et al., PSS 17, 1997, 1969           
 REED : Wiscombe's delta-M method IS applied

 MAIN : The screening parameter for the Rutherford phase function is calculated
        from the Bethe/Moliere formula for E > 500 eV

 MAIN : The energy grid covers the range from : 0.001 [eV] up to :   287.9 [eV].

 MAIN : The total energy input from the precipitation source is : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]
                                  and from photoelectron source : 5.3612E+11 [eV/cm2/s]
                                                             or : 8.5898E-01 [erg/cm2/s]
 That variable "errorgaupin" is:           78

 MAIN : Total energy deposition in [CO2] is 4.348E+11 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 3.384E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 2.028E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 3.634E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 9.943E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 4.429E+00 [eV.cm-2.s-1] ("shsum").
  3.13816858E+09           2          21
  3.43220070E+09           2          23

 Total Heating :  9.860E+05 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  7.5421049E-03
 entot depart   985952.13       985952.13    
 shsum :  2.61276754E+10  4.34768904E+11  4.34767921E+11  4.34767921E+11
 shsum :  2.64132956E+10  4.68606026E+11  3.38371338E+10  4.68605043E+11
 shsum :  2.65372713E+10  4.88888041E+11  2.02820055E+10  4.88887058E+11
 shsum :  2.73198449E+10  5.25224608E+11  3.63365704E+10  5.25223625E+11
 shsum :  2.73198449E+10  5.25224608E+11   99.425079      5.25223625E+11
 shsum :  2.73198449E+10  5.25224608E+11   4.4287419      5.25223625E+11
 fin  5.25224608E+11  2.73198449E+10   19.623938    
   19.225021    
 -2.42253310E+13   19.623938    
 ezero   0.0000000    
  5.25224608E+11
  1.23447854E+14

Total energy input of :5.361E+11 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 5.252E+11 is absorbed (entot) 
                         through inelastic collisions (shsum =5.252E+11)
                                           + heating (elhsum =9.860E+05)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  19.62 eV (from qtoteV)
                                  or :  19.23 eV (from (entot))
                                  or :******* eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  55.0, longitude 350.0.

 REED : The energy degradation is computed from the center energies of the grid.
 REED : The energy degradation source term is interpolated linearly with tau.
 REED : The albedo at  80. km is set to 1.00
 REED : The low energy phase function is taken from Porter
 REED : Secondary distribution from Rees et al., PSS 17, 1997, 1969           
 REED : Wiscombe's delta-M method IS applied

 MAIN : The screening parameter for the Rutherford phase function is calculated
        from the Bethe/Moliere formula for E > 500 eV

 MAIN : The energy grid covers the range from : 0.001 [eV] up to :   287.9 [eV].

 MAIN : The total energy input from the precipitation source is : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]
                                  and from photoelectron source : 4.7957E+11 [eV/cm2/s]
                                                             or : 7.6837E-01 [erg/cm2/s]
 That variable "errorgaupin" is:           99

 MAIN : Total energy deposition in [CO2] is 3.846E+11 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 3.078E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 1.866E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 3.436E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 9.603E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 4.337E+00 [eV.cm-2.s-1] ("shsum").
  3.02200550E+09           2          21
  3.30345472E+09           2          23

 Total Heating :  9.328E+05 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  6.9209533E-03
 entot depart   932755.69       932755.69    
 shsum :  2.32855265E+10  3.84560824E+11  3.84559907E+11  3.84559907E+11
 shsum :  2.35476234E+10  4.15342887E+11  3.07820626E+10  4.15341969E+11
 shsum :  2.36631060E+10  4.34004296E+11  1.86613985E+10  4.34003378E+11
 shsum :  2.44088893E+10  4.68367081E+11  3.43627776E+10  4.68366164E+11
 shsum :  2.44088893E+10  4.68367081E+11   96.032791      4.68366164E+11
 shsum :  2.44088893E+10  4.68367081E+11   4.3367925      4.68366164E+11
 fin  4.68367081E+11  2.44088893E+10   19.647535    
   19.188381    
 -2.71143949E+13   19.647535    
 ezero   0.0000000    
  4.68367081E+11
  1.38004060E+14

Total energy input of :4.796E+11 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 4.684E+11 is absorbed (entot) 
                         through inelastic collisions (shsum =4.684E+11)
                                           + heating (elhsum =9.328E+05)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  19.65 eV (from qtoteV)
                                  or :  19.19 eV (from (entot))
                                  or :******* eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  60.0, longitude 350.0.

 REED : The energy degradation is computed from the center energies of the grid.
 REED : The energy degradation source term is interpolated linearly with tau.
 REED : The albedo at  80. km is set to 1.00
 REED : The low energy phase function is taken from Porter
 REED : Secondary distribution from Rees et al., PSS 17, 1997, 1969           
 REED : Wiscombe's delta-M method IS applied

 MAIN : The screening parameter for the Rutherford phase function is calculated
        from the Bethe/Moliere formula for E > 500 eV

 MAIN : The energy grid covers the range from : 0.001 [eV] up to :   287.9 [eV].

 MAIN : The total energy input from the precipitation source is : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]
                                  and from photoelectron source : 4.1982E+11 [eV/cm2/s]
                                                             or : 6.7264E-01 [erg/cm2/s]
 That variable "errorgaupin" is:           84

 MAIN : Total energy deposition in [CO2] is 3.318E+11 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 2.749E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 1.689E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 3.210E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 9.201E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 4.225E+00 [eV.cm-2.s-1] ("shsum").
  2.88494592E+09           2          21
  3.15183898E+09           2          23

 Total Heating :  8.701E+05 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  6.2530031E-03
 entot depart   870092.88       870092.88    
 shsum :  2.02915471E+10  3.31833508E+11  3.31832623E+11  3.31832623E+11
 shsum :  2.05283492E+10  3.59325204E+11  2.74917007E+10  3.59324320E+11
 shsum :  2.06345339E+10  3.76211702E+11  1.68864932E+10  3.76210817E+11
 shsum :  2.13379953E+10  4.08314905E+11  3.21031987E+10  4.08314020E+11
 shsum :  2.13379953E+10  4.08314905E+11   92.006706      4.08314020E+11
 shsum :  2.13379953E+10  4.08314905E+11   4.2252088      4.08314020E+11
 fin  4.08314905E+11  2.13379953E+10   19.674862    
   19.135580    
 -3.10166096E+13   19.674862    
 ezero   0.0000000    
  4.08314905E+11
  1.57645885E+14

Total energy input of :4.198E+11 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 4.083E+11 is absorbed (entot) 
                         through inelastic collisions (shsum =4.083E+11)
                                           + heating (elhsum =8.701E+05)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  19.67 eV (from qtoteV)
                                  or :  19.14 eV (from (entot))
                                  or :******* eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  45.0, longitude 355.0.

 REED : The energy degradation is computed from the center energies of the grid.
 REED : The energy degradation source term is interpolated linearly with tau.
 REED : The albedo at  80. km is set to 1.00
 REED : The low energy phase function is taken from Porter
 REED : Secondary distribution from Rees et al., PSS 17, 1997, 1969           
 REED : Wiscombe's delta-M method IS applied

 MAIN : The screening parameter for the Rutherford phase function is calculated
        from the Bethe/Moliere formula for E > 500 eV

 MAIN : The energy grid covers the range from : 0.001 [eV] up to :   287.9 [eV].

 MAIN : The total energy input from the precipitation source is : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]
                                  and from photoelectron source : 5.9539E+11 [eV/cm2/s]
                                                             or : 9.5394E-01 [erg/cm2/s]
 That variable "errorgaupin" is:           80

 MAIN : Total energy deposition in [CO2] is 4.877E+11 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 3.699E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 2.193E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 3.824E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 1.028E+02 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 4.517E+00 [eV.cm-2.s-1] ("shsum").
  3.26273664E+09           2          21
  3.57043610E+09           2          23

 Total Heating :  1.038E+06 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  8.1831245E-03
 entot depart   1037715.0       1037715.0    
 shsum :  2.91164426E+10  4.87668318E+11  4.87667270E+11  4.87667270E+11
 shsum :  2.94263398E+10  5.24654641E+11  3.69863352E+10  5.24653593E+11
 shsum :  2.95589294E+10  5.46580365E+11  2.19257180E+10  5.46579317E+11
 shsum :  3.03768125E+10  5.84823669E+11  3.82432870E+10  5.84822620E+11
 shsum :  3.03768125E+10  5.84823669E+11   102.76276      5.84822620E+11
 shsum :  3.03768125E+10  5.84823669E+11   4.5174217      5.84822620E+11
 fin  5.84823669E+11  3.03768125E+10   19.600199    
   19.252306    
 -2.17874170E+13   19.600199    
 ezero   0.0000000    
  5.84823669E+11
  1.11159164E+14

Total energy input of :5.954E+11 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 5.848E+11 is absorbed (entot) 
                         through inelastic collisions (shsum =5.848E+11)
                                           + heating (elhsum =1.038E+06)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  19.60 eV (from qtoteV)
                                  or :  19.25 eV (from (entot))
                                  or :******* eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  50.0, longitude 355.0.

 REED : The energy degradation is computed from the center energies of the grid.
 REED : The energy degradation source term is interpolated linearly with tau.
 REED : The albedo at  80. km is set to 1.00
 REED : The low energy phase function is taken from Porter
 REED : Secondary distribution from Rees et al., PSS 17, 1997, 1969           
 REED : Wiscombe's delta-M method IS applied

 MAIN : The screening parameter for the Rutherford phase function is calculated
        from the Bethe/Moliere formula for E > 500 eV

 MAIN : The energy grid covers the range from : 0.001 [eV] up to :   287.9 [eV].

 MAIN : The total energy input from the precipitation source is : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]
                                  and from photoelectron source : 5.4210E+11 [eV/cm2/s]
                                                             or : 8.6856E-01 [erg/cm2/s]
 That variable "errorgaupin" is:           84

 MAIN : Total energy deposition in [CO2] is 4.401E+11 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 3.415E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 2.045E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 3.651E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 9.988E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 4.441E+00 [eV.cm-2.s-1] ("shsum").
  3.16314650E+09           2          21
  3.45987866E+09           2          23

 Total Heating :  9.924E+05 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  7.6063555E-03
 entot depart   992376.00       992376.00    
 shsum :  2.64290222E+10  4.40116773E+11  4.40115790E+11  4.40115790E+11
 shsum :  2.67170755E+10  4.74270532E+11  3.41537690E+10  4.74269549E+11
 shsum :  2.68419011E+10  4.94716060E+11  2.04455301E+10  4.94715077E+11
 shsum :  2.76276818E+10  5.31230818E+11  3.65147628E+10  5.31229835E+11
 shsum :  2.76276818E+10  5.31230818E+11   99.883179      5.31229835E+11
 shsum :  2.76276818E+10  5.31230818E+11   4.4409533      5.31229835E+11
 fin  5.31230818E+11  2.76276818E+10   19.621799    
   19.228209    
 -2.39554045E+13   19.621799    
 ezero   0.0000000    
  5.31230818E+11
  1.22085662E+14

Total energy input of :5.421E+11 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 5.312E+11 is absorbed (entot) 
                         through inelastic collisions (shsum =5.312E+11)
                                           + heating (elhsum =9.924E+05)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  19.62 eV (from qtoteV)
                                  or :  19.23 eV (from (entot))
                                  or :******* eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  55.0, longitude 355.0.

 REED : The energy degradation is computed from the center energies of the grid.
 REED : The energy degradation source term is interpolated linearly with tau.
 REED : The albedo at  80. km is set to 1.00
 REED : The low energy phase function is taken from Porter
 REED : Secondary distribution from Rees et al., PSS 17, 1997, 1969           
 REED : Wiscombe's delta-M method IS applied

 MAIN : The screening parameter for the Rutherford phase function is calculated
        from the Bethe/Moliere formula for E > 500 eV

 MAIN : The energy grid covers the range from : 0.001 [eV] up to :   287.9 [eV].

 MAIN : The total energy input from the precipitation source is : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]
                                  and from photoelectron source : 4.8491E+11 [eV/cm2/s]
                                                             or : 7.7692E-01 [erg/cm2/s]
 That variable "errorgaupin" is:           81

 MAIN : Total energy deposition in [CO2] is 3.893E+11 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 3.107E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 1.881E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 3.453E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 9.648E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 4.349E+00 [eV.cm-2.s-1] ("shsum").
  3.04630707E+09           2          21
  3.33039258E+09           2          23

 Total Heating :  9.390E+05 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  6.9791703E-03
 entot depart   938952.69       938952.69    
 shsum :  2.35530076E+10  3.89307204E+11  3.89306253E+11  3.89306253E+11
 shsum :  2.38173102E+10  4.20375986E+11  3.10687867E+10  4.20375036E+11
 shsum :  2.39335752E+10  4.39187505E+11  1.88115169E+10  4.39186555E+11
 shsum :  2.46824305E+10  4.73720422E+11  3.45329091E+10  4.73719472E+11
 shsum :  2.46824305E+10  4.73720422E+11   96.475433      4.73719472E+11
 shsum :  2.46824305E+10  4.73720422E+11   4.3487468      4.73719472E+11
 fin  4.73720422E+11  2.46824305E+10   19.645895    
   19.192617    
 -2.68139024E+13   19.645895    
 ezero   0.0000000    
  4.73720422E+11
  1.36486033E+14

Total energy input of :4.849E+11 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 4.737E+11 is absorbed (entot) 
                         through inelastic collisions (shsum =4.737E+11)
                                           + heating (elhsum =9.390E+05)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  19.65 eV (from qtoteV)
                                  or :  19.19 eV (from (entot))
                                  or :******* eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  60.0, longitude 355.0.

 REED : The energy degradation is computed from the center energies of the grid.
 REED : The energy degradation source term is interpolated linearly with tau.
 REED : The albedo at  80. km is set to 1.00
 REED : The low energy phase function is taken from Porter
 REED : Secondary distribution from Rees et al., PSS 17, 1997, 1969           
 REED : Wiscombe's delta-M method IS applied

 MAIN : The screening parameter for the Rutherford phase function is calculated
        from the Bethe/Moliere formula for E > 500 eV

 MAIN : The energy grid covers the range from : 0.001 [eV] up to :   287.9 [eV].

 MAIN : The total energy input from the precipitation source is : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]
                                  and from photoelectron source : 4.2444E+11 [eV/cm2/s]
                                                             or : 6.8003E-01 [erg/cm2/s]
 That variable "errorgaupin" is:           91

 MAIN : Total energy deposition in [CO2] is 3.359E+11 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 2.775E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 1.702E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 3.226E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 9.243E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 4.237E+00 [eV.cm-2.s-1] ("shsum").
  2.90801459E+09           2          21
  3.17740134E+09           2          23

 Total Heating :  8.760E+05 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  6.3043525E-03
 entot depart   875976.69       875976.69    
 shsum :  2.05222175E+10  3.35910502E+11  3.35909618E+11  3.35909618E+11
 shsum :  2.07609651E+10  3.63655627E+11  2.77451366E+10  3.63654742E+11
 shsum :  2.08678543E+10  3.80677325E+11  1.70216858E+10  3.80676440E+11
 shsum :  2.15742464E+10  4.12941746E+11  3.22644255E+10  4.12940861E+11
 shsum :  2.15742464E+10  4.12941746E+11   92.427361      4.12940861E+11
 shsum :  2.15742464E+10  4.12941746E+11   4.2367730      4.12940861E+11
 fin  4.12941746E+11  2.15742464E+10   19.673252    
   19.140495    
 -3.06769591E+13   19.673252    
 ezero   0.0000000    
  4.12941746E+11
  1.55932328E+14

Total energy input of :4.244E+11 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 4.129E+11 is absorbed (entot) 
                         through inelastic collisions (shsum =4.129E+11)
                                           + heating (elhsum =8.760E+05)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  19.67 eV (from qtoteV)
                                  or :  19.14 eV (from (entot))
                                  or :******* eV (from (qtoteV-qsump))
