 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 : 3.3424E+11 [eV/cm2/s]
                                                             or : 5.3552E-01 [erg/cm2/s]
 That variable "errorgaupin" is:           96

 MAIN : Total energy deposition in [CO2] is 2.693E+11 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 2.166E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 1.312E+10 [eV.cm-2.s-1] ("shsum").

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

 MAIN : Total energy deposition in [O2]  is 5.466E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 2.421E+00 [eV.cm-2.s-1] ("shsum").
  1.21156454E+09           2          21
  1.29162458E+09           2          23

 Total Heating :  5.799E+05 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  4.5836344E-03
 entot depart   579946.75       579946.75    
 shsum :  1.72697682E+10  2.69264830E+11  2.69264257E+11  2.69264257E+11
 shsum :  1.74433505E+10  2.90922660E+11  2.16578150E+10  2.90922070E+11
 shsum :  1.75198044E+10  3.04045621E+11  1.31229686E+10  3.04045031E+11
 shsum :  1.80237537E+10  3.27821623E+11  2.37760102E+10  3.27821033E+11
 shsum :  1.80237537E+10  3.27821623E+11   54.661537      3.27821033E+11
 shsum :  1.80237537E+10  3.27821623E+11   2.4211783      3.27821033E+11
 fin  3.27821623E+11  1.80237537E+10   18.544588    
   18.188311    
   17.924877       18.544588    
 ezero   0.0000000    
  3.27821623E+11
   1.4205381    

Total energy input of :3.342E+11 eV.cm-2.s-1 (qtoteV)
             of which 1.117E+10 is reflected (qsump)
                  and 3.278E+11 is absorbed (entot) 
                         through inelastic collisions (shsum =3.278E+11)
                                           + heating (elhsum =5.799E+05)
 This refers to an energy gain of   1.42 %


 The average E. loss per ion pair is :  18.54 eV (from qtoteV)
                                  or :  18.19 eV (from (entot))
                                  or :  17.92 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 : 3.0440E+11 [eV/cm2/s]
                                                             or : 4.8772E-01 [erg/cm2/s]
 That variable "errorgaupin" is:           73

 MAIN : Total energy deposition in [CO2] is 2.428E+11 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 2.001E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 1.225E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 2.272E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 5.362E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 2.398E+00 [eV.cm-2.s-1] ("shsum").
  1.18172621E+09           2          21
  1.25914406E+09           2          23

 Total Heating :  5.602E+05 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  4.2658495E-03
 entot depart   560202.31       560202.31    
 shsum :  1.56797911E+10  2.42827837E+11  2.42827280E+11  2.42827280E+11
 shsum :  1.58413394E+10  2.62840238E+11  2.00124027E+10  2.62839681E+11
 shsum :  1.59134249E+10  2.75090506E+11  1.22502840E+10  2.75089981E+11
 shsum :  1.63979848E+10  2.97808986E+11  2.27184865E+10  2.97808462E+11
 shsum :  1.63979848E+10  2.97808986E+11   53.623833      2.97808462E+11
 shsum :  1.63979848E+10  2.97808986E+11   2.3979897      2.97808462E+11
 fin  2.97808986E+11  1.63979848E+10   18.563477    
   18.161316    
   17.889080       18.563477    
 ezero   0.0000000    
  2.97808986E+11
   1.4665121    

Total energy input of :3.044E+11 eV.cm-2.s-1 (qtoteV)
             of which 1.106E+10 is reflected (qsump)
                  and 2.978E+11 is absorbed (entot) 
                         through inelastic collisions (shsum =2.978E+11)
                                           + heating (elhsum =5.602E+05)
 This refers to an energy gain of   1.47 %


 The average E. loss per ion pair is :  18.56 eV (from qtoteV)
                                  or :  18.16 eV (from (entot))
                                  or :  17.89 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 : 2.7230E+11 [eV/cm2/s]
                                                             or : 4.3628E-01 [erg/cm2/s]
 That variable "errorgaupin" is:           89

 MAIN : Total energy deposition in [CO2] is 2.146E+11 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 1.821E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 1.128E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 2.150E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 5.240E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 2.371E+00 [eV.cm-2.s-1] ("shsum").
  1.14267942E+09           2          21
  1.21650739E+09           2          23

 Total Heating :  5.369E+05 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  3.9171083E-03
 entot depart   536871.13       536871.13    
 shsum :  1.39738532E+10  2.14551314E+11  2.14550774E+11  2.14550774E+11
 shsum :  1.41221949E+10  2.32756396E+11  1.82050836E+10  2.32755855E+11
 shsum :  1.41894144E+10  2.44034798E+11  1.12783974E+10  2.44034257E+11
 shsum :  1.46515108E+10  2.65532424E+11  2.14976307E+10  2.65531884E+11
 shsum :  1.46515108E+10  2.65532424E+11   52.403172      2.65531884E+11
 shsum :  1.46515108E+10  2.65532424E+11   2.3713593      2.65531884E+11
 fin  2.65532424E+11  1.46515108E+10   18.585356    
   18.123211    
   17.840229       18.585356    
 ezero   0.0000000    
  2.65532424E+11
   1.5226032    

Total energy input of :2.723E+11 eV.cm-2.s-1 (qtoteV)
             of which 1.092E+10 is reflected (qsump)
                  and 2.655E+11 is absorbed (entot) 
                         through inelastic collisions (shsum =2.655E+11)
                                           + heating (elhsum =5.369E+05)
 This refers to an energy gain of   1.52 %


 The average E. loss per ion pair is :  18.59 eV (from qtoteV)
                                  or :  18.12 eV (from (entot))
                                  or :  17.84 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 : 2.3827E+11 [eV/cm2/s]
                                                             or : 3.8176E-01 [erg/cm2/s]
 That variable "errorgaupin" is:           83

 MAIN : Total energy deposition in [CO2] is 1.847E+11 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 1.628E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 1.022E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 2.011E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 5.093E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 2.339E+00 [eV.cm-2.s-1] ("shsum").
  1.09434726E+09           2          21
  1.16390093E+09           2          23

 Total Heating :  5.089E+05 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  3.5454314E-03
 entot depart   508874.81       508874.81    
 shsum :  1.21712712E+10  1.84728830E+11  1.84728322E+11  1.84728322E+11
 shsum :  1.23055370E+10  2.01004253E+11  1.62754232E+10  2.01003745E+11
 shsum :  1.23674481E+10  2.11219497E+11  1.02152417E+10  2.11218989E+11
 shsum :  1.28040253E+10  2.31333462E+11  2.01139732E+10  2.31332970E+11
 shsum :  1.28040253E+10  2.31333462E+11   50.928429      2.31332970E+11
 shsum :  1.28040253E+10  2.31333462E+11   2.3386006      2.31332970E+11
 fin  2.31333462E+11  1.28040253E+10   18.609339    
   18.067245    
   17.771057       18.609339    
 ezero   0.0000000    
  2.31333462E+11
   1.5916119    

Total energy input of :2.383E+11 eV.cm-2.s-1 (qtoteV)
             of which 1.073E+10 is reflected (qsump)
                  and 2.313E+11 is absorbed (entot) 
                         through inelastic collisions (shsum =2.313E+11)
                                           + heating (elhsum =5.089E+05)
 This refers to an energy gain of   1.59 %


 The average E. loss per ion pair is :  18.61 eV (from qtoteV)
                                  or :  18.07 eV (from (entot))
                                  or :  17.77 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 : 3.3297E+11 [eV/cm2/s]
                                                             or : 5.3348E-01 [erg/cm2/s]
 That variable "errorgaupin" is:           95

 MAIN : Total energy deposition in [CO2] is 2.681E+11 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 2.159E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 1.309E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 2.373E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 5.459E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 2.419E+00 [eV.cm-2.s-1] ("shsum").
  1.21355674E+09           2          21
  1.29394598E+09           2          23

 Total Heating :  5.785E+05 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  4.5696767E-03
 entot depart   578520.94       578520.94    
 shsum :  1.72015657E+10  2.68134433E+11  2.68133859E+11  2.68133859E+11
 shsum :  1.73746196E+10  2.89719976E+11  2.15855452E+10  2.89719419E+11
 shsum :  1.74508851E+10  3.02805451E+11  1.30854758E+10  3.02804894E+11
 shsum :  1.79539395E+10  3.26533579E+11  2.37281157E+10  3.26533022E+11
 shsum :  1.79539395E+10  3.26533579E+11   54.592861      3.26533022E+11
 shsum :  1.79539395E+10  3.26533579E+11   2.4188876      3.26533022E+11
 fin  3.26533579E+11  1.79539395E+10   18.545580    
   18.187294    
   17.923649       18.545580    
 ezero   0.0000000    
  3.26533579E+11
   1.4216063    

Total energy input of :3.330E+11 eV.cm-2.s-1 (qtoteV)
             of which 1.117E+10 is reflected (qsump)
                  and 3.265E+11 is absorbed (entot) 
                         through inelastic collisions (shsum =3.265E+11)
                                           + heating (elhsum =5.785E+05)
 This refers to an energy gain of   1.42 %


 The average E. loss per ion pair is :  18.55 eV (from qtoteV)
                                  or :  18.19 eV (from (entot))
                                  or :  17.92 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 : 3.0326E+11 [eV/cm2/s]
                                                             or : 4.8588E-01 [erg/cm2/s]
 That variable "errorgaupin" is:           88

 MAIN : Total energy deposition in [CO2] is 2.418E+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 1.222E+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 5.356E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 2.396E+00 [eV.cm-2.s-1] ("shsum").
  1.18402342E+09           2          21
  1.26179891E+09           2          23

 Total Heating :  5.588E+05 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  4.2539230E-03
 entot depart   558829.06       558829.06    
 shsum :  1.56180972E+10  2.41818567E+11  2.41818010E+11  2.41818010E+11
 shsum :  1.57791939E+10  2.61768069E+11  1.99495086E+10  2.61767512E+11
 shsum :  1.58511114E+10  2.73983996E+11  1.22159288E+10  2.73983439E+11
 shsum :  1.63348214E+10  2.96657060E+11  2.26730680E+10  2.96656503E+11
 shsum :  1.63348214E+10  2.96657060E+11   53.560040      2.96656503E+11
 shsum :  1.63348214E+10  2.96657060E+11   2.3958504      2.96656503E+11
 fin  2.96657060E+11  1.63348214E+10   18.565149    
   18.161022    
   17.888365       18.565149    
 ezero   0.0000000    
  2.96657060E+11
   1.4686573    

Total energy input of :3.033E+11 eV.cm-2.s-1 (qtoteV)
             of which 1.106E+10 is reflected (qsump)
                  and 2.967E+11 is absorbed (entot) 
                         through inelastic collisions (shsum =2.967E+11)
                                           + heating (elhsum =5.588E+05)
 This refers to an energy gain of   1.47 %


 The average E. loss per ion pair is :  18.57 eV (from qtoteV)
                                  or :  18.16 eV (from (entot))
                                  or :  17.89 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 : 2.7127E+11 [eV/cm2/s]
                                                             or : 4.3462E-01 [erg/cm2/s]
 That variable "errorgaupin" is:           93

 MAIN : Total energy deposition in [CO2] is 2.136E+11 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 1.815E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 1.125E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 2.145E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 5.235E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 2.370E+00 [eV.cm-2.s-1] ("shsum").
  1.14536563E+09           2          21
  1.21961139E+09           2          23

 Total Heating :  5.357E+05 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  3.9061799E-03
 entot depart   535662.06       535662.06    
 shsum :  1.39184507E+10  2.13643330E+11  2.13642789E+11  2.13642789E+11
 shsum :  1.40663788E+10  2.31791542E+11  1.81482127E+10  2.31791002E+11
 shsum :  1.41334354E+10  2.43037340E+11  1.12458004E+10  2.43036799E+11
 shsum :  1.45946900E+10  2.64490549E+11  2.14532055E+10  2.64490009E+11
 shsum :  1.45946900E+10  2.64490549E+11   52.351669      2.64490009E+11
 shsum :  1.45946900E+10  2.64490549E+11   2.3695359      2.64490009E+11
 fin  2.64490549E+11  1.45946900E+10   18.586620    
   18.122381    
   17.838848       18.586620    
 ezero   0.0000000    
  2.64490549E+11
   1.5254736    

Total energy input of :2.713E+11 eV.cm-2.s-1 (qtoteV)
             of which 1.091E+10 is reflected (qsump)
                  and 2.645E+11 is absorbed (entot) 
                         through inelastic collisions (shsum =2.645E+11)
                                           + heating (elhsum =5.357E+05)
 This refers to an energy gain of   1.53 %


 The average E. loss per ion pair is :  18.59 eV (from qtoteV)
                                  or :  18.12 eV (from (entot))
                                  or :  17.84 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 : 2.3737E+11 [eV/cm2/s]
                                                             or : 3.8031E-01 [erg/cm2/s]
 That variable "errorgaupin" is:           97

 MAIN : Total energy deposition in [CO2] is 1.839E+11 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 1.622E+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 2.007E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 5.089E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 2.337E+00 [eV.cm-2.s-1] ("shsum").
  1.09713907E+09           2          21
  1.16714419E+09           2          23

 Total Heating :  5.079E+05 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  3.5353012E-03
 entot depart   507879.00       507879.00    
 shsum :  1.21232865E+10  1.83948100E+11  1.83947592E+11  1.83947592E+11
 shsum :  1.22571694E+10  2.00170488E+11  1.62223831E+10  2.00169980E+11
 shsum :  1.23189340E+10  2.10356568E+11  1.01860731E+10  2.10356060E+11
 shsum :  1.27546675E+10  2.30426477E+11  2.00699105E+10  2.30425969E+11
 shsum :  1.27546675E+10  2.30426477E+11   50.890781      2.30425969E+11
 shsum :  1.27546675E+10  2.30426477E+11   2.3371680      2.30425969E+11
 fin  2.30426477E+11  1.27546675E+10   18.610439    
   18.066051    
   17.769234       18.610439    
 ezero   0.0000000    
  2.30426477E+11
   1.5948949    

Total energy input of :2.374E+11 eV.cm-2.s-1 (qtoteV)
             of which 1.073E+10 is reflected (qsump)
                  and 2.304E+11 is absorbed (entot) 
                         through inelastic collisions (shsum =2.304E+11)
                                           + heating (elhsum =5.079E+05)
 This refers to an energy gain of   1.59 %


 The average E. loss per ion pair is :  18.61 eV (from qtoteV)
                                  or :  18.07 eV (from (entot))
                                  or :  17.77 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 : 3.2921E+11 [eV/cm2/s]
                                                             or : 5.2746E-01 [erg/cm2/s]
 That variable "errorgaupin" is:           95

 MAIN : Total energy deposition in [CO2] is 2.648E+11 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 2.138E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 1.298E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 2.359E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 5.448E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 2.416E+00 [eV.cm-2.s-1] ("shsum").
  1.21508659E+09           2          21
  1.29585946E+09           2          23

 Total Heating :  5.759E+05 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  4.5294254E-03
 entot depart   575949.44       575949.44    
 shsum :  1.70011730E+10  2.64809660E+11  2.64809087E+11  2.64809087E+11
 shsum :  1.71727032E+10  2.86187028E+11  2.13773558E+10  2.86186439E+11
 shsum :  1.72484219E+10  2.99163288E+11  1.29762673E+10  2.99162698E+11
 shsum :  1.77489674E+10  3.22756018E+11  2.35927388E+10  3.22755428E+11
 shsum :  1.77489674E+10  3.22756018E+11   54.476460      3.22755428E+11
 shsum :  1.77489674E+10  3.22756018E+11   2.4157677      3.22755428E+11
 fin  3.22756018E+11  1.77489674E+10   18.548140    
   18.184496    
   17.919678       18.548140    
 ezero   0.0000000    
  3.22756018E+11
   1.4277322    

Total energy input of :3.292E+11 eV.cm-2.s-1 (qtoteV)
             of which 1.115E+10 is reflected (qsump)
                  and 3.228E+11 is absorbed (entot) 
                         through inelastic collisions (shsum =3.228E+11)
                                           + heating (elhsum =5.759E+05)
 This refers to an energy gain of   1.43 %


 The average E. loss per ion pair is :  18.55 eV (from qtoteV)
                                  or :  18.18 eV (from (entot))
                                  or :  17.92 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 : 2.9981E+11 [eV/cm2/s]
                                                             or : 4.8036E-01 [erg/cm2/s]
 That variable "errorgaupin" is:           79

 MAIN : Total energy deposition in [CO2] is 2.388E+11 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 1.976E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 1.211E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 2.254E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 5.344E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 2.393E+00 [eV.cm-2.s-1] ("shsum").
  1.18554291E+09           2          21
  1.26369779E+09           2          23

 Total Heating :  5.562E+05 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  4.2172368E-03
 entot depart   556194.00       556194.00    
 shsum :  1.54347899E+10  2.38781759E+11  2.38781202E+11  2.38781202E+11
 shsum :  1.55944970E+10  2.58540962E+11  1.97592084E+10  2.58540405E+11
 shsum :  1.56659036E+10  2.70654439E+11  1.21134838E+10  2.70653882E+11
 shsum :  1.61471959E+10  2.93197251E+11  2.25427948E+10  2.93196661E+11
 shsum :  1.61471959E+10  2.93197251E+11   53.439686      2.93196661E+11
 shsum :  1.61471959E+10  2.93197251E+11   2.3925724      2.93196661E+11
 fin  2.93197251E+11  1.61471959E+10   18.567617    
   18.157782    
   17.883743       18.567617    
 ezero   0.0000000    
  2.93197251E+11
   1.4758964    

Total energy input of :2.998E+11 eV.cm-2.s-1 (qtoteV)
             of which 1.104E+10 is reflected (qsump)
                  and 2.932E+11 is absorbed (entot) 
                         through inelastic collisions (shsum =2.932E+11)
                                           + heating (elhsum =5.562E+05)
 This refers to an energy gain of   1.48 %


 The average E. loss per ion pair is :  18.57 eV (from qtoteV)
                                  or :  18.16 eV (from (entot))
                                  or :  17.88 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 : 2.6820E+11 [eV/cm2/s]
                                                             or : 4.2971E-01 [erg/cm2/s]
 That variable "errorgaupin" is:           88

 MAIN : Total energy deposition in [CO2] is 2.110E+11 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 1.798E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 1.115E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 2.133E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 5.224E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 2.366E+00 [eV.cm-2.s-1] ("shsum").
  1.14709427E+09           2          21
  1.22177408E+09           2          23

 Total Heating :  5.331E+05 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  3.8730742E-03
 entot depart   533114.38       533114.38    
 shsum :  1.37556500E+10  2.10956763E+11  2.10956222E+11  2.10956222E+11
 shsum :  1.39023237E+10  2.28933272E+11  1.79765023E+10  2.28932731E+11
 shsum :  1.39689114E+10  2.40085041E+11  1.11517665E+10  2.40084500E+11
 shsum :  1.44278323E+10  2.61413208E+11  2.13281731E+10  2.61412667E+11
 shsum :  1.44278323E+10  2.61413208E+11   52.236946      2.61412667E+11
 shsum :  1.44278323E+10  2.61413208E+11   2.3662860      2.61412667E+11
 fin  2.61413208E+11  1.44278323E+10   18.589106    
   18.118675    
   17.833616       18.589106    
 ezero   0.0000000    
  2.61413208E+11
   1.5334773    

Total energy input of :2.682E+11 eV.cm-2.s-1 (qtoteV)
             of which 1.090E+10 is reflected (qsump)
                  and 2.614E+11 is absorbed (entot) 
                         through inelastic collisions (shsum =2.614E+11)
                                           + heating (elhsum =5.331E+05)
 This refers to an energy gain of   1.53 %


 The average E. loss per ion pair is :  18.59 eV (from qtoteV)
                                  or :  18.12 eV (from (entot))
                                  or :  17.83 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 : 2.3471E+11 [eV/cm2/s]
                                                             or : 3.7606E-01 [erg/cm2/s]
 That variable "errorgaupin" is:           86

 MAIN : Total energy deposition in [CO2] is 1.816E+11 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 1.607E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 1.010E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 1.995E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 5.079E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 2.334E+00 [eV.cm-2.s-1] ("shsum").
  1.09865254E+09           2          21
  1.16909760E+09           2          23

 Total Heating :  5.055E+05 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  3.5054171E-03
 entot depart   505507.44       505507.44    
 shsum :  1.19828101E+10  1.81644116E+11  1.81643608E+11  1.81643608E+11
 shsum :  1.21155604E+10  1.97711610E+11  1.60674888E+10  1.97711102E+11
 shsum :  1.21768960E+10  2.07812133E+11  1.01005148E+10  2.07811609E+11
 shsum :  1.26103695E+10  2.27761865E+11  1.99497339E+10  2.27761340E+11
 shsum :  1.26103695E+10  2.27761865E+11   50.785358      2.27761340E+11
 shsum :  1.26103695E+10  2.27761865E+11   2.3341024      2.27761340E+11
 fin  2.27761865E+11  1.26103695E+10   18.612772    
   18.061474    
   17.763100       18.612772    
 ezero   0.0000000    
  2.27761865E+11
   1.6030656    

Total energy input of :2.347E+11 eV.cm-2.s-1 (qtoteV)
             of which 1.071E+10 is reflected (qsump)
                  and 2.278E+11 is absorbed (entot) 
                         through inelastic collisions (shsum =2.278E+11)
                                           + heating (elhsum =5.055E+05)
 This refers to an energy gain of   1.60 %


 The average E. loss per ion pair is :  18.61 eV (from qtoteV)
                                  or :  18.06 eV (from (entot))
                                  or :  17.76 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 : 3.2299E+11 [eV/cm2/s]
                                                             or : 5.1750E-01 [erg/cm2/s]
 That variable "errorgaupin" is:           92

 MAIN : Total energy deposition in [CO2] is 2.593E+11 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 2.103E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 1.280E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 2.337E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 5.431E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 2.412E+00 [eV.cm-2.s-1] ("shsum").
  1.21645171E+09           2          21
  1.29777024E+09           2          23

 Total Heating :  5.722E+05 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  4.4632722E-03
 entot depart   572202.06       572202.06    
 shsum :  1.66693089E+10  2.59308536E+11  2.59307962E+11  2.59307962E+11
 shsum :  1.68383334E+10  2.80343183E+11  2.10346557E+10  2.80342626E+11
 shsum :  1.69131469E+10  2.93138465E+11  1.27952947E+10  2.93137908E+11
 shsum :  1.74095729E+10  3.16508176E+11  2.33697239E+10  3.16507619E+11
 shsum :  1.74095729E+10  3.16508176E+11   54.310204      3.16507619E+11
 shsum :  1.74095729E+10  3.16508176E+11   2.4116924      3.16507619E+11
 fin  3.16508176E+11  1.74095729E+10   18.552691    
   18.180122    
   17.913141       18.552691    
 ezero   0.0000000    
  3.16508176E+11
   1.4390473    

Total energy input of :3.230E+11 eV.cm-2.s-1 (qtoteV)
             of which 1.113E+10 is reflected (qsump)
                  and 3.165E+11 is absorbed (entot) 
                         through inelastic collisions (shsum =3.165E+11)
                                           + heating (elhsum =5.722E+05)
 This refers to an energy gain of   1.44 %


 The average E. loss per ion pair is :  18.55 eV (from qtoteV)
                                  or :  18.18 eV (from (entot))
                                  or :  17.91 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 : 2.9414E+11 [eV/cm2/s]
                                                             or : 4.7127E-01 [erg/cm2/s]
 That variable "errorgaupin" is:           79

 MAIN : Total energy deposition in [CO2] is 2.338E+11 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 1.944E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 1.194E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 2.233E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 5.326E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 2.388E+00 [eV.cm-2.s-1] ("shsum").
  1.18627213E+09           2          21
  1.26487219E+09           2          23

 Total Heating :  5.523E+05 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  4.1565318E-03
 entot depart   552326.56       552326.56    
 shsum :  1.51325850E+10  2.33781789E+11  2.33781232E+11  2.33781232E+11
 shsum :  1.52899932E+10  2.53225828E+11  1.94440479E+10  2.53225271E+11
 shsum :  1.53605540E+10  2.65169797E+11  1.19439626E+10  2.65169240E+11
 shsum :  1.58378629E+10  2.87497421E+11  2.23276155E+10  2.87496864E+11
 shsum :  1.58378629E+10  2.87497421E+11   53.264511      2.87496864E+11
 shsum :  1.58378629E+10  2.87497421E+11   2.3882239      2.87496864E+11
 fin  2.87497421E+11  1.58378629E+10   18.571991    
   18.152538    
   17.876146       18.571991    
 ezero   0.0000000    
  2.87497421E+11
   1.4882259    

Total energy input of :2.941E+11 eV.cm-2.s-1 (qtoteV)
             of which 1.102E+10 is reflected (qsump)
                  and 2.875E+11 is absorbed (entot) 
                         through inelastic collisions (shsum =2.875E+11)
                                           + heating (elhsum =5.523E+05)
 This refers to an energy gain of   1.49 %


 The average E. loss per ion pair is :  18.57 eV (from qtoteV)
                                  or :  18.15 eV (from (entot))
                                  or :  17.88 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 : 2.6314E+11 [eV/cm2/s]
                                                             or : 4.2160E-01 [erg/cm2/s]
 That variable "errorgaupin" is:          104

 MAIN : Total energy deposition in [CO2] is 2.065E+11 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 1.769E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 1.100E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 2.112E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 5.206E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 2.362E+00 [eV.cm-2.s-1] ("shsum").
  1.14769421E+09           2          21
  1.22282099E+09           2          23

 Total Heating :  5.292E+05 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  3.8180158E-03
 entot depart   529238.81       529238.81    
 shsum :  1.34871583E+10  2.06523531E+11  2.06523007E+11  2.06523007E+11
 shsum :  1.36317471E+10  2.24214499E+11  1.76909701E+10  2.24213975E+11
 shsum :  1.36975585E+10  2.35210637E+11  1.09961359E+10  2.35210113E+11
 shsum :  1.41526395E+10  2.56332464E+11  2.11218248E+10  2.56331940E+11
 shsum :  1.41526395E+10  2.56332464E+11   52.059532      2.56331940E+11
 shsum :  1.41526395E+10  2.56332464E+11   2.3616579      2.56331940E+11
 fin  2.56332464E+11  1.41526395E+10   18.592958    
   18.111990    
   17.824444       18.592958    
 ezero   0.0000000    
  2.56332464E+11
   1.5465274    

Total energy input of :2.631E+11 eV.cm-2.s-1 (qtoteV)
             of which 1.088E+10 is reflected (qsump)
                  and 2.563E+11 is absorbed (entot) 
                         through inelastic collisions (shsum =2.563E+11)
                                           + heating (elhsum =5.292E+05)
 This refers to an energy gain of   1.55 %


 The average E. loss per ion pair is :  18.59 eV (from qtoteV)
                                  or :  18.11 eV (from (entot))
                                  or :  17.82 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 : 2.3033E+11 [eV/cm2/s]
                                                             or : 3.6904E-01 [erg/cm2/s]
 That variable "errorgaupin" is:           81

 MAIN : Total energy deposition in [CO2] is 1.778E+11 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 1.581E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 9.959E+09 [eV.cm-2.s-1] ("shsum").

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

 MAIN : Total energy deposition in [O2]  is 5.061E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 2.329E+00 [eV.cm-2.s-1] ("shsum").
  1.09880755E+09           2          21
  1.16969050E+09           2          23

 Total Heating :  5.017E+05 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  3.4561979E-03
 entot depart   501717.06       501717.06    
 shsum :  1.17511844E+10  1.77839292E+11  1.77838785E+11  1.77838785E+11
 shsum :  1.18820710E+10  1.93651737E+11  1.58124370E+10  1.93651229E+11
 shsum :  1.19426959E+10  2.03610636E+11  9.95890688E+09  2.03610128E+11
 shsum :  1.23724882E+10  2.23363842E+11  1.97532058E+10  2.23363334E+11
 shsum :  1.23724882E+10  2.23363842E+11   50.608665      2.23363334E+11
 shsum :  1.23724882E+10  2.23363842E+11   2.3292642      2.23363334E+11
 fin  2.23363842E+11  1.23724882E+10   18.616354    
   18.053268    
   17.752413       18.616354    
 ezero   0.0000000    
  2.23363842E+11
   1.6160812    

Total energy input of :2.303E+11 eV.cm-2.s-1 (qtoteV)
             of which 1.069E+10 is reflected (qsump)
                  and 2.234E+11 is absorbed (entot) 
                         through inelastic collisions (shsum =2.234E+11)
                                           + heating (elhsum =5.017E+05)
 This refers to an energy gain of   1.62 %


 The average E. loss per ion pair is :  18.62 eV (from qtoteV)
                                  or :  18.05 eV (from (entot))
                                  or :  17.75 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 : 3.1432E+11 [eV/cm2/s]
                                                             or : 5.0360E-01 [erg/cm2/s]
 That variable "errorgaupin" is:           93

 MAIN : Total energy deposition in [CO2] is 2.516E+11 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 2.056E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 1.254E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 2.306E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 5.410E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 2.407E+00 [eV.cm-2.s-1] ("shsum").
  1.21728640E+09           2          21
  1.29924160E+09           2          23

 Total Heating :  5.673E+05 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  4.3711690E-03
 entot depart   567347.94       567347.94    
 shsum :  1.62068552E+10  2.51629666E+11  2.51629093E+11  2.51629093E+11
 shsum :  1.63723919E+10  2.72187343E+11  2.05576704E+10  2.72186769E+11
 shsum :  1.64459397E+10  2.84729311E+11  1.25419807E+10  2.84728754E+11
 shsum :  1.69366016E+10  3.07786711E+11  2.30574141E+10  3.07786154E+11
 shsum :  1.69366016E+10  3.07786711E+11   54.098446      3.07786154E+11
 shsum :  1.69366016E+10  3.07786711E+11   2.4068966      3.07786154E+11
 fin  3.07786711E+11  1.69366016E+10   18.558399    
   18.172873    
   17.902752       18.558399    
 ezero   0.0000000    
  3.07786711E+11
   1.4555205    

Total energy input of :3.143E+11 eV.cm-2.s-1 (qtoteV)
             of which 1.110E+10 is reflected (qsump)
                  and 3.078E+11 is absorbed (entot) 
                         through inelastic collisions (shsum =3.078E+11)
                                           + heating (elhsum =5.673E+05)
 This refers to an energy gain of   1.46 %


 The average E. loss per ion pair is :  18.56 eV (from qtoteV)
                                  or :  18.17 eV (from (entot))
                                  or :  17.90 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 : 2.8626E+11 [eV/cm2/s]
                                                             or : 4.5865E-01 [erg/cm2/s]
 That variable "errorgaupin" is:           86

 MAIN : Total energy deposition in [CO2] is 2.268E+11 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 1.901E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 1.171E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 2.203E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 5.303E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 2.383E+00 [eV.cm-2.s-1] ("shsum").
  1.18620506E+09           2          21
  1.26533466E+09           2          23

 Total Heating :  5.472E+05 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  4.0719337E-03
 entot depart   547214.50       547214.50    
 shsum :  1.47136727E+10  2.26846818E+11  2.26846278E+11  2.26846278E+11
 shsum :  1.48678779E+10  2.45851931E+11  1.90051062E+10  2.45851390E+11
 shsum :  1.49372559E+10  2.57559167E+11  1.17072302E+10  2.57558626E+11
 shsum :  1.54089830E+10  2.79585227E+11  2.20260721E+10  2.79584702E+11
 shsum :  1.54089830E+10  2.79585227E+11   53.034229      2.79584702E+11
 shsum :  1.54089830E+10  2.79585227E+11   2.3827491      2.79584702E+11
 fin  2.79585227E+11  1.54089830E+10   18.577726    
   18.144300    
   17.864590       18.577726    
 ezero   0.0000000    
  2.79585227E+11
   1.5056295    

Total energy input of :2.863E+11 eV.cm-2.s-1 (qtoteV)
             of which 1.099E+10 is reflected (qsump)
                  and 2.796E+11 is absorbed (entot) 
                         through inelastic collisions (shsum =2.796E+11)
                                           + heating (elhsum =5.472E+05)
 This refers to an energy gain of   1.51 %


 The average E. loss per ion pair is :  18.58 eV (from qtoteV)
                                  or :  18.14 eV (from (entot))
                                  or :  17.86 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 : 2.5613E+11 [eV/cm2/s]
                                                             or : 4.1037E-01 [erg/cm2/s]
 That variable "errorgaupin" is:          101

 MAIN : Total energy deposition in [CO2] is 2.004E+11 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 1.729E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 1.078E+10 [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 5.182E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 2.356E+00 [eV.cm-2.s-1] ("shsum").
  1.14708352E+09           2          21
  1.22271962E+09           2          23

 Total Heating :  5.240E+05 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  3.7412897E-03
 entot depart   524026.78       524026.78    
 shsum :  1.31155067E+10  2.00386871E+11  2.00386347E+11  2.00386347E+11
 shsum :  1.32571904E+10  2.17679970E+11  1.72930970E+10  2.17679446E+11
 shsum :  1.33219154E+10  2.28458611E+11  1.07786435E+10  2.28458086E+11
 shsum :  1.37716378E+10  2.49292095E+11  2.08334848E+10  2.49291571E+11
 shsum :  1.37716378E+10  2.49292095E+11   51.817970      2.49291571E+11
 shsum :  1.37716378E+10  2.49292095E+11   2.3555882      2.49291571E+11
 fin  2.49292095E+11  1.37716378E+10   18.598133    
   18.101849    
   17.810875       18.598133    
 ezero   0.0000000    
  2.49292095E+11
   1.5645311    

Total energy input of :2.561E+11 eV.cm-2.s-1 (qtoteV)
             of which 1.084E+10 is reflected (qsump)
                  and 2.493E+11 is absorbed (entot) 
                         through inelastic collisions (shsum =2.493E+11)
                                           + heating (elhsum =5.240E+05)
 This refers to an energy gain of   1.56 %


 The average E. loss per ion pair is :  18.60 eV (from qtoteV)
                                  or :  18.10 eV (from (entot))
                                  or :  17.81 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 : 2.2426E+11 [eV/cm2/s]
                                                             or : 3.5931E-01 [erg/cm2/s]
 That variable "errorgaupin" is:           82

 MAIN : Total energy deposition in [CO2] is 1.726E+11 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 1.546E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 9.762E+09 [eV.cm-2.s-1] ("shsum").

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

 MAIN : Total energy deposition in [O2]  is 5.036E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 2.323E+00 [eV.cm-2.s-1] ("shsum").
  1.09732877E+09           2          21
  1.16864371E+09           2          23

 Total Heating :  4.965E+05 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  3.3879532E-03
 entot depart   496508.56       496508.56    
 shsum :  1.14307420E+10  1.72573458E+11  1.72572967E+11  1.72572967E+11
 shsum :  1.15590441E+10  1.88032188E+11  1.54587218E+10  1.88031697E+11
 shsum :  1.16186798E+10  1.97794021E+11  9.76182682E+09  1.97793530E+11
 shsum :  1.20433695E+10  2.17274221E+11  1.94802074E+10  2.17273729E+11
 shsum :  1.20433695E+10  2.17274221E+11   50.359123      2.17273729E+11
 shsum :  1.20433695E+10  2.17274221E+11   2.3226392      2.17273729E+11
 fin  2.17274221E+11  1.20433695E+10   18.621193    
   18.040983    
   17.736748       18.621193    
 ezero   0.0000000    
  2.17274221E+11
   1.6338054    

Total energy input of :2.243E+11 eV.cm-2.s-1 (qtoteV)
             of which 1.065E+10 is reflected (qsump)
                  and 2.173E+11 is absorbed (entot) 
                         through inelastic collisions (shsum =2.173E+11)
                                           + heating (elhsum =4.965E+05)
 This refers to an energy gain of   1.63 %


 The average E. loss per ion pair is :  18.62 eV (from qtoteV)
                                  or :  18.04 eV (from (entot))
                                  or :  17.74 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 : 3.0330E+11 [eV/cm2/s]
                                                             or : 4.8595E-01 [erg/cm2/s]
 That variable "errorgaupin" is:           89

 MAIN : Total energy deposition in [CO2] is 2.419E+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 1.222E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 2.265E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 5.382E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 2.401E+00 [eV.cm-2.s-1] ("shsum").
  1.21809280E+09           2          21
  1.30090458E+09           2          23

 Total Heating :  5.611E+05 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  4.2538880E-03
 entot depart   561128.75       561128.75    
 shsum :  1.56199567E+10  2.41898357E+11  2.41897800E+11  2.41897800E+11
 shsum :  1.57810524E+10  2.61847892E+11  1.99495414E+10  2.61847335E+11
 shsum :  1.58529761E+10  2.74064884E+11  1.22169897E+10  2.74064327E+11
 shsum :  1.63361720E+10  2.96717943E+11  2.26530714E+10  2.96717386E+11
 shsum :  1.63361720E+10  2.96717943E+11   53.824669      2.96717386E+11
 shsum :  1.63361720E+10  2.96717943E+11   2.4005640      2.96717386E+11
 fin  2.96717943E+11  1.63361720E+10   18.566189    
   18.163248    
   17.888912       18.566189    
 ezero   0.0000000    
  2.96717943E+11
   1.4776045    

Total energy input of :3.033E+11 eV.cm-2.s-1 (qtoteV)
             of which 1.106E+10 is reflected (qsump)
                  and 2.967E+11 is absorbed (entot) 
                         through inelastic collisions (shsum =2.967E+11)
                                           + heating (elhsum =5.611E+05)
 This refers to an energy gain of   1.48 %


 The average E. loss per ion pair is :  18.57 eV (from qtoteV)
                                  or :  18.16 eV (from (entot))
                                  or :  17.89 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 : 2.7626E+11 [eV/cm2/s]
                                                             or : 4.4262E-01 [erg/cm2/s]
 That variable "errorgaupin" is:           98

 MAIN : Total energy deposition in [CO2] is 2.181E+11 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 1.844E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 1.140E+10 [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 5.274E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 2.376E+00 [eV.cm-2.s-1] ("shsum").
  1.18524877E+09           2          21
  1.26500736E+09           2          23

 Total Heating :  5.408E+05 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  3.9639128E-03
 entot depart   540759.38       540759.38    
 shsum :  1.41821809E+10  2.18051396E+11  2.18050855E+11  2.18050855E+11
 shsum :  1.43322952E+10  2.36495995E+11  1.84445952E+10  2.36495454E+11
 shsum :  1.44001567E+10  2.47899734E+11  1.14037350E+10  2.47899193E+11
 shsum :  1.48646666E+10  2.69536018E+11  2.16362906E+10  2.69535478E+11
 shsum :  1.48646666E+10  2.69536018E+11   52.740898      2.69535478E+11
 shsum :  1.48646666E+10  2.69536018E+11   2.3758097      2.69535478E+11
 fin  2.69536018E+11  1.48646666E+10   18.584988    
   18.132666    
   17.848652       18.584988    
 ezero   0.0000000    
  2.69536018E+11
   1.5281869    

Total energy input of :2.763E+11 eV.cm-2.s-1 (qtoteV)
             of which 1.095E+10 is reflected (qsump)
                  and 2.695E+11 is absorbed (entot) 
                         through inelastic collisions (shsum =2.695E+11)
                                           + heating (elhsum =5.408E+05)
 This refers to an energy gain of   1.53 %


 The average E. loss per ion pair is :  18.58 eV (from qtoteV)
                                  or :  18.13 eV (from (entot))
                                  or :  17.85 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 : 2.4723E+11 [eV/cm2/s]
                                                             or : 3.9611E-01 [erg/cm2/s]
 That variable "errorgaupin" is:           87

 MAIN : Total energy deposition in [CO2] is 1.926E+11 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 1.679E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 1.050E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 2.046E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 5.151E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 2.348E+00 [eV.cm-2.s-1] ("shsum").
  1.14500698E+09           2          21
  1.22117722E+09           2          23

 Total Heating :  5.174E+05 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  3.6434494E-03
 entot depart   517407.31       517407.31    
 shsum :  1.26443479E+10  1.92609911E+11  1.92609386E+11  1.92609386E+11
 shsum :  1.27823258E+10  2.09395253E+11  1.67853466E+10  2.09394729E+11
 shsum :  1.28456561E+10  2.19895005E+11  1.04997591E+10  2.19894481E+11
 shsum :  1.32884756E+10  2.40356884E+11  2.04618793E+10  2.40356360E+11
 shsum :  1.32884756E+10  2.40356884E+11   51.505646      2.40356360E+11
 shsum :  1.32884756E+10  2.40356884E+11   2.3478122      2.40356360E+11
 fin  2.40356884E+11  1.32884756E+10   18.604635    
   18.087620    
   17.792284       18.604635    
 ezero   0.0000000    
  2.40356884E+11
   1.5874227    

Total energy input of :2.472E+11 eV.cm-2.s-1 (qtoteV)
             of which 1.079E+10 is reflected (qsump)
                  and 2.404E+11 is absorbed (entot) 
                         through inelastic collisions (shsum =2.404E+11)
                                           + heating (elhsum =5.174E+05)
 This refers to an energy gain of   1.59 %


 The average E. loss per ion pair is :  18.60 eV (from qtoteV)
                                  or :  18.09 eV (from (entot))
                                  or :  17.79 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 : 2.1657E+11 [eV/cm2/s]
                                                             or : 3.4698E-01 [erg/cm2/s]
 That variable "errorgaupin" is:           88

 MAIN : Total energy deposition in [CO2] is 1.659E+11 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 1.501E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 9.510E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 1.913E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 5.003E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 2.314E+00 [eV.cm-2.s-1] ("shsum").
  1.09392947E+09           2          21
  1.16567744E+09           2          23

 Total Heating :  4.898E+05 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  3.3009988E-03
 entot depart   489777.53       489777.53    
 shsum :  1.10247782E+10  1.65903958E+11  1.65903466E+11  1.65903466E+11
 shsum :  1.11497882E+10  1.80912030E+11  1.50080717E+10  1.80911538E+11
 shsum :  1.12081592E+10  1.90421746E+11  9.50971904E+09  1.90421254E+11
 shsum :  1.16262963E+10  2.09551262E+11  1.91295222E+10  2.09550770E+11
 shsum :  1.16262963E+10  2.09551262E+11   50.027771      2.09550770E+11
 shsum :  1.16262963E+10  2.09551262E+11   2.3138931      2.09550770E+11
 fin  2.09551262E+11  1.16262963E+10   18.627239    
   18.023905    
   17.715418       18.627239    
 ezero   0.0000000    
  2.09551262E+11
   1.6561118    

Total energy input of :2.166E+11 eV.cm-2.s-1 (qtoteV)
             of which 1.060E+10 is reflected (qsump)
                  and 2.096E+11 is absorbed (entot) 
                         through inelastic collisions (shsum =2.096E+11)
                                           + heating (elhsum =4.898E+05)
 This refers to an energy gain of   1.66 %


 The average E. loss per ion pair is :  18.63 eV (from qtoteV)
                                  or :  18.02 eV (from (entot))
                                  or :  17.72 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 : 2.9002E+11 [eV/cm2/s]
                                                             or : 4.6467E-01 [erg/cm2/s]
 That variable "errorgaupin" is:          105

 MAIN : Total energy deposition in [CO2] is 2.302E+11 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 1.921E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 1.182E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 2.215E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 5.349E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 2.393E+00 [eV.cm-2.s-1] ("shsum").
  1.21756211E+09           2          21
  1.30126746E+09           2          23

 Total Heating :  5.536E+05 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  4.1119941E-03
 entot depart   553561.13       553561.13    
 shsum :  1.49134787E+10  2.30184747E+11  2.30184190E+11  2.30184190E+11
 shsum :  1.50692004E+10  2.49398018E+11  1.92132772E+10  2.49397461E+11
 shsum :  1.51391457E+10  2.61218927E+11  1.18209034E+10  2.61218370E+11
 shsum :  1.56131430E+10  2.83373928E+11  2.21549896E+10  2.83373371E+11
 shsum :  1.56131430E+10  2.83373928E+11   53.487343      2.83373371E+11
 shsum :  1.56131430E+10  2.83373928E+11   2.3929138      2.83373371E+11
 fin  2.83373928E+11  1.56131430E+10   18.575464    
   18.149704    
   17.870207       18.575464    
 ezero   0.0000000    
  2.83373928E+11
   1.5046635    

Total energy input of :2.900E+11 eV.cm-2.s-1 (qtoteV)
             of which 1.101E+10 is reflected (qsump)
                  and 2.834E+11 is absorbed (entot) 
                         through inelastic collisions (shsum =2.834E+11)
                                           + heating (elhsum =5.536E+05)
 This refers to an energy gain of   1.50 %


 The average E. loss per ion pair is :  18.58 eV (from qtoteV)
                                  or :  18.15 eV (from (entot))
                                  or :  17.87 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 : 2.6420E+11 [eV/cm2/s]
                                                             or : 4.2331E-01 [erg/cm2/s]
 That variable "errorgaupin" is:           93

 MAIN : Total energy deposition in [CO2] is 2.075E+11 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 1.776E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 1.103E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 2.116E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 5.238E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 2.367E+00 [eV.cm-2.s-1] ("shsum").
  1.18250714E+09           2          21
  1.26288294E+09           2          23

 Total Heating :  5.329E+05 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  3.8327253E-03
 entot depart   532944.56       532944.56    
 shsum :  1.35429345E+10  2.07471084E+11  2.07470543E+11  2.07470543E+11
 shsum :  1.36880804E+10  2.25235452E+11  1.77643663E+10  2.25234911E+11
 shsum :  1.37540925E+10  2.36269322E+11  1.10338724E+10  2.36268782E+11
 shsum :  1.42097080E+10  2.57425441E+11  2.11561124E+10  2.57424900E+11
 shsum :  1.42097080E+10  2.57425441E+11   52.381130      2.57424900E+11
 shsum :  1.42097080E+10  2.57425441E+11   2.3674517      2.57424900E+11
 fin  2.57425441E+11  1.42097080E+10   18.593250    
   18.116167    
   17.826952       18.593250    
 ezero   0.0000000    
  2.57425441E+11
   1.5554851    

Total energy input of :2.642E+11 eV.cm-2.s-1 (qtoteV)
             of which 1.089E+10 is reflected (qsump)
                  and 2.574E+11 is absorbed (entot) 
                         through inelastic collisions (shsum =2.574E+11)
                                           + heating (elhsum =5.329E+05)
 This refers to an energy gain of   1.56 %


 The average E. loss per ion pair is :  18.59 eV (from qtoteV)
                                  or :  18.12 eV (from (entot))
                                  or :  17.83 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 : 2.3653E+11 [eV/cm2/s]
                                                             or : 3.7896E-01 [erg/cm2/s]
 That variable "errorgaupin" is:          107

 MAIN : Total energy deposition in [CO2] is 1.833E+11 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 1.617E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 1.016E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 2.000E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 5.111E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 2.338E+00 [eV.cm-2.s-1] ("shsum").
  1.14099123E+09           2          21
  1.21769216E+09           2          23

 Total Heating :  5.092E+05 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  3.5247714E-03
 entot depart   509220.03       509220.03    
 shsum :  1.20784712E+10  1.83276650E+11  1.83276143E+11  1.83276143E+11
 shsum :  1.22119547E+10  1.99446413E+11  1.61697669E+10  1.99445905E+11
 shsum :  1.22735841E+10  2.09606246E+11  1.01598310E+10  2.09605738E+11
 shsum :  1.27079014E+10  2.29610783E+11  2.00045363E+10  2.29610275E+11
 shsum :  1.27079014E+10  2.29610783E+11   51.109993      2.29610275E+11
 shsum :  1.27079014E+10  2.29610783E+11   2.3378808      2.29610275E+11
 fin  2.29610783E+11  1.27079014E+10   18.612452    
   18.068348    
   17.767765       18.612452    
 ezero   0.0000000    
  2.29610783E+11
   1.6149510    

Total energy input of :2.365E+11 eV.cm-2.s-1 (qtoteV)
             of which 1.073E+10 is reflected (qsump)
                  and 2.296E+11 is absorbed (entot) 
                         through inelastic collisions (shsum =2.296E+11)
                                           + heating (elhsum =5.092E+05)
 This refers to an energy gain of   1.61 %


 The average E. loss per ion pair is :  18.61 eV (from qtoteV)
                                  or :  18.07 eV (from (entot))
                                  or :  17.77 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 : 2.0732E+11 [eV/cm2/s]
                                                             or : 3.3216E-01 [erg/cm2/s]
 That variable "errorgaupin" is:           91

 MAIN : Total energy deposition in [CO2] is 1.579E+11 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 1.446E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 9.203E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 1.870E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 4.960E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 2.303E+00 [eV.cm-2.s-1] ("shsum").
  1.08807629E+09           2          21
  1.16018624E+09           2          23

 Total Heating :  4.814E+05 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  3.1957591E-03
 entot depart   481352.41       481352.41    
 shsum :  1.05375662E+10  1.57904716E+11  1.57904241E+11  1.57904241E+11
 shsum :  1.06585897E+10  1.72367512E+11  1.44627917E+10  1.72367036E+11
 shsum :  1.07154227E+10  1.81570716E+11  9.20320512E+09  1.81570241E+11
 shsum :  1.11255265E+10  2.00270365E+11  1.86996531E+10  2.00269890E+11
 shsum :  1.11255265E+10  2.00270365E+11   49.599716      2.00269890E+11
 shsum :  1.11255265E+10  2.00270365E+11   2.3025014      2.00269890E+11
 fin  2.00270365E+11  1.11255265E+10   18.634430    
   18.000978    
   17.687433       18.634430    
 ezero   0.0000000    
  2.00270365E+11
   1.6826097    

Total energy input of :2.073E+11 eV.cm-2.s-1 (qtoteV)
             of which 1.054E+10 is reflected (qsump)
                  and 2.003E+11 is absorbed (entot) 
                         through inelastic collisions (shsum =2.003E+11)
                                           + heating (elhsum =4.814E+05)
 This refers to an energy gain of   1.68 %


 The average E. loss per ion pair is :  18.63 eV (from qtoteV)
                                  or :  18.00 eV (from (entot))
                                  or :  17.69 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 : 2.7460E+11 [eV/cm2/s]
                                                             or : 4.3996E-01 [erg/cm2/s]
 That variable "errorgaupin" is:           84

 MAIN : Total energy deposition in [CO2] is 2.166E+11 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 1.835E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 1.135E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 2.156E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 5.305E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 2.383E+00 [eV.cm-2.s-1] ("shsum").
  1.21563341E+09           2          21
  1.30035827E+09           2          23

 Total Heating :  5.442E+05 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  3.9458228E-03
 entot depart   544165.44       544165.44    
 shsum :  1.40942725E+10  2.16608784E+11  2.16608244E+11  2.16608244E+11
 shsum :  1.42437018E+10  2.34959585E+11  1.83507968E+10  2.34959045E+11
 shsum :  1.43113175E+10  2.46313976E+11  1.13543926E+10  2.46313435E+11
 shsum :  1.47743140E+10  2.67873649E+11  2.15596810E+10  2.67873124E+11
 shsum :  1.47743140E+10  2.67873649E+11   53.052128      2.67873124E+11
 shsum :  1.47743140E+10  2.67873649E+11   2.3825765      2.67873124E+11
 fin  2.67873649E+11  1.47743140E+10   18.586128    
   18.131039    
   17.845402       18.586128    
 ezero   0.0000000    
  2.67873649E+11
   1.5368236    

Total energy input of :2.746E+11 eV.cm-2.s-1 (qtoteV)
             of which 1.094E+10 is reflected (qsump)
                  and 2.679E+11 is absorbed (entot) 
                         through inelastic collisions (shsum =2.679E+11)
                                           + heating (elhsum =5.442E+05)
 This refers to an energy gain of   1.54 %


 The average E. loss per ion pair is :  18.59 eV (from qtoteV)
                                  or :  18.13 eV (from (entot))
                                  or :  17.85 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 : 2.5022E+11 [eV/cm2/s]
                                                             or : 4.0090E-01 [erg/cm2/s]
 That variable "errorgaupin" is:          102

 MAIN : Total energy deposition in [CO2] is 1.952E+11 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 1.697E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 1.060E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 2.058E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 5.191E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 2.356E+00 [eV.cm-2.s-1] ("shsum").
  1.17854630E+09           2          21
  1.25970534E+09           2          23

 Total Heating :  5.232E+05 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  3.6793519E-03
 entot depart   523171.47       523171.47    
 shsum :  1.28023081E+10  1.95222995E+11  1.95222471E+11  1.95222471E+11
 shsum :  1.29416458E+10  2.12191969E+11  1.69689784E+10  2.12191445E+11
 shsum :  1.30054789E+10  2.22790156E+11  1.05981819E+10  2.22789632E+11
 shsum :  1.34504714E+10  2.43373212E+11  2.05830574E+10  2.43372687E+11
 shsum :  1.34504714E+10  2.43373212E+11   51.912056      2.43372687E+11
 shsum :  1.34504714E+10  2.43373212E+11   2.3558135      2.43372687E+11
 fin  2.43373212E+11  1.34504714E+10   18.602808    
   18.094028    
   17.798597       18.602808    
 ezero   0.0000000    
  2.43373212E+11
   1.5880953    

Total energy input of :2.502E+11 eV.cm-2.s-1 (qtoteV)
             of which 1.082E+10 is reflected (qsump)
                  and 2.434E+11 is absorbed (entot) 
                         through inelastic collisions (shsum =2.434E+11)
                                           + heating (elhsum =5.232E+05)
 This refers to an energy gain of   1.59 %


 The average E. loss per ion pair is :  18.60 eV (from qtoteV)
                                  or :  18.09 eV (from (entot))
                                  or :  17.80 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 : 2.2412E+11 [eV/cm2/s]
                                                             or : 3.5909E-01 [erg/cm2/s]
 That variable "errorgaupin" is:           93

 MAIN : Total energy deposition in [CO2] is 1.725E+11 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 1.545E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 9.759E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 1.946E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 5.061E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 2.325E+00 [eV.cm-2.s-1] ("shsum").
  1.13428582E+09           2          21
  1.21145216E+09           2          23

 Total Heating :  4.992E+05 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  3.3858707E-03
 entot depart   499176.84       499176.84    
 shsum :  1.14237645E+10  1.72489458E+11  1.72488966E+11  1.72488966E+11
 shsum :  1.15519877E+10  1.87939193E+11  1.54497270E+10  1.87938701E+11
 shsum :  1.16116101E+10  1.97698503E+11  9.75930368E+09  1.97698011E+11
 shsum :  1.20357714E+10  2.17157386E+11  1.94588815E+10  2.17156895E+11
 shsum :  1.20357714E+10  2.17157386E+11   50.609123      2.17156895E+11
 shsum :  1.20357714E+10  2.17157386E+11   2.3250422      2.17156895E+11
 fin  2.17157386E+11  1.20357714E+10   18.621506    
   18.042665    
   17.736025       18.621506    
 ezero   0.0000000    
  2.17157386E+11
   1.6466956    

Total energy input of :2.241E+11 eV.cm-2.s-1 (qtoteV)
             of which 1.066E+10 is reflected (qsump)
                  and 2.172E+11 is absorbed (entot) 
                         through inelastic collisions (shsum =2.172E+11)
                                           + heating (elhsum =4.992E+05)
 This refers to an energy gain of   1.65 %


 The average E. loss per ion pair is :  18.62 eV (from qtoteV)
                                  or :  18.04 eV (from (entot))
                                  or :  17.74 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 : 1.9661E+11 [eV/cm2/s]
                                                             or : 3.1501E-01 [erg/cm2/s]
 That variable "errorgaupin" is:           83

 MAIN : Total energy deposition in [CO2] is 1.487E+11 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 1.383E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 8.843E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 1.819E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 4.905E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 2.288E+00 [eV.cm-2.s-1] ("shsum").
  1.07898445E+09           2          21
  1.15130893E+09           2          23

 Total Heating :  4.709E+05 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  3.0726786E-03
 entot depart   470936.56       470936.56    
 shsum :  9.97440819E+09  1.48669022E+11  1.48668547E+11  1.48668547E+11
 shsum :  1.00907715E+10  1.62494562E+11  1.38255432E+10  1.62494087E+11
 shsum :  1.01457930E+10  1.71337417E+11  8.84286054E+09  1.71336942E+11
 shsum :  1.05463245E+10  1.89525492E+11  1.81880730E+10  1.89525017E+11
 shsum :  1.05463245E+10  1.89525492E+11   49.051651      1.89525017E+11
 shsum :  1.05463245E+10  1.89525492E+11   2.2876823      1.89525017E+11
 fin  1.89525492E+11  1.05463245E+10   18.642637    
   17.970762    
   17.651432       18.642637    
 ezero   0.0000000    
  1.89525492E+11
   1.7129045    

Total energy input of :1.966E+11 eV.cm-2.s-1 (qtoteV)
             of which 1.045E+10 is reflected (qsump)
                  and 1.895E+11 is absorbed (entot) 
                         through inelastic collisions (shsum =1.895E+11)
                                           + heating (elhsum =4.709E+05)
 This refers to an energy gain of   1.71 %


 The average E. loss per ion pair is :  18.64 eV (from qtoteV)
                                  or :  17.97 eV (from (entot))
                                  or :  17.65 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 : 2.5715E+11 [eV/cm2/s]
                                                             or : 4.1201E-01 [erg/cm2/s]
 That variable "errorgaupin" is:           94

 MAIN : Total energy deposition in [CO2] is 2.013E+11 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 1.736E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 1.082E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 2.086E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 5.247E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 2.368E+00 [eV.cm-2.s-1] ("shsum").
  1.21208435E+09           2          21
  1.29803968E+09           2          23

 Total Heating :  5.322E+05 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  3.7555953E-03
 entot depart   532226.25       532226.25    
 shsum :  1.31700654E+10  2.01300427E+11  2.01299902E+11  2.01299902E+11
 shsum :  1.33122908E+10  2.18664616E+11  1.73641871E+10  2.18664092E+11
 shsum :  1.33772247E+10  2.29482381E+11  1.08177592E+10  2.29481857E+11
 shsum :  1.38273126E+10  2.50344407E+11  2.08620319E+10  2.50343883E+11
 shsum :  1.38273126E+10  2.50344407E+11   52.467937      2.50343883E+11
 shsum :  1.38273126E+10  2.50344407E+11   2.3676035      2.50343883E+11
 fin  2.50344407E+11  1.38273126E+10   18.597553    
   18.105066    
   17.812273       18.597553    
 ezero   0.0000000    
  2.50344407E+11
   1.5743676    

Total energy input of :2.572E+11 eV.cm-2.s-1 (qtoteV)
             of which 1.086E+10 is reflected (qsump)
                  and 2.503E+11 is absorbed (entot) 
                         through inelastic collisions (shsum =2.503E+11)
                                           + heating (elhsum =5.322E+05)
 This refers to an energy gain of   1.57 %


 The average E. loss per ion pair is :  18.60 eV (from qtoteV)
                                  or :  18.11 eV (from (entot))
                                  or :  17.81 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 : 2.3444E+11 [eV/cm2/s]
                                                             or : 3.7562E-01 [erg/cm2/s]
 That variable "errorgaupin" is:           79

 MAIN : Total energy deposition in [CO2] is 1.814E+11 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 1.606E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 1.010E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 1.991E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 5.131E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 2.341E+00 [eV.cm-2.s-1] ("shsum").
  1.17123610E+09           2          21
  1.25311219E+09           2          23

 Total Heating :  5.112E+05 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  3.5046297E-03
 entot depart   511182.56       511182.56    
 shsum :  1.19683226E+10  1.81448212E+11  1.81447705E+11  1.81447705E+11
 shsum :  1.21010432E+10  1.97510791E+11  1.60625869E+10  1.97510300E+11
 shsum :  1.21623695E+10  2.07607923E+11  1.00971336E+10  2.07607431E+11
 shsum :  1.25949440E+10  2.27521806E+11  1.99138857E+10  2.27521315E+11
 shsum :  1.25949440E+10  2.27521806E+11   51.312397      2.27521315E+11
 shsum :  1.25949440E+10  2.27521806E+11   2.3405197      2.27521315E+11
 fin  2.27521806E+11  1.25949440E+10   18.613739    
   18.064535    
   17.762081       18.613739    
 ezero   0.0000000    
  2.27521806E+11
   1.6248981    

Total energy input of :2.344E+11 eV.cm-2.s-1 (qtoteV)
             of which 1.073E+10 is reflected (qsump)
                  and 2.275E+11 is absorbed (entot) 
                         through inelastic collisions (shsum =2.275E+11)
                                           + heating (elhsum =5.112E+05)
 This refers to an energy gain of   1.62 %


 The average E. loss per ion pair is :  18.61 eV (from qtoteV)
                                  or :  18.06 eV (from (entot))
                                  or :  17.76 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 : 2.1015E+11 [eV/cm2/s]
                                                             or : 3.3670E-01 [erg/cm2/s]
 That variable "errorgaupin" is:           80

 MAIN : Total energy deposition in [CO2] is 1.604E+11 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 1.463E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 9.300E+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 4.996E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 2.308E+00 [eV.cm-2.s-1] ("shsum").
  1.12389466E+09           2          21
  1.20138291E+09           2          23

 Total Heating :  4.868E+05 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  3.2275799E-03
 entot depart   486791.47       486791.47    
 shsum :  1.06872074E+10  1.60370655E+11  1.60370164E+11  1.60370164E+11
 shsum :  1.08094362E+10  1.74999978E+11  1.46293207E+10  1.74999486E+11
 shsum :  1.08667525E+10  1.84299602E+11  9.29962496E+09  1.84299110E+11
 shsum :  1.12790477E+10  2.03121934E+11  1.88223283E+10  2.03121443E+11
 shsum :  1.12790477E+10  2.03121934E+11   49.964844      2.03121443E+11
 shsum :  1.12790477E+10  2.03121934E+11   2.3080182      2.03121443E+11
 fin  2.03121934E+11  1.12790477E+10   18.631718    
   18.008783    
   17.695337       18.631718    
 ezero   0.0000000    
  2.03121934E+11
   1.6823325    

Total energy input of :2.101E+11 eV.cm-2.s-1 (qtoteV)
             of which 1.056E+10 is reflected (qsump)
                  and 2.031E+11 is absorbed (entot) 
                         through inelastic collisions (shsum =2.031E+11)
                                           + heating (elhsum =4.868E+05)
 This refers to an energy gain of   1.68 %


 The average E. loss per ion pair is :  18.63 eV (from qtoteV)
                                  or :  18.01 eV (from (entot))
                                  or :  17.70 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 : 1.8456E+11 [eV/cm2/s]
                                                             or : 2.9570E-01 [erg/cm2/s]
 That variable "errorgaupin" is:           89

 MAIN : Total energy deposition in [CO2] is 1.383E+11 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 1.310E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 8.429E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 1.759E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 4.835E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 2.268E+00 [eV.cm-2.s-1] ("shsum").
  1.06570355E+09           2          21
  1.13800115E+09           2          23

 Total Heating :  4.581E+05 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  2.9323045E-03
 entot depart   458083.91       458083.91    
 shsum :  9.34154854E+09  1.38308076E+11  1.38307617E+11  1.38307617E+11
 shsum :  9.45259520E+09  1.51407755E+11  1.30996787E+10  1.51407297E+11
 shsum :  9.50553190E+09  1.59836848E+11  8.42909850E+09  1.59836389E+11
 shsum :  9.89487411E+09  1.77428300E+11  1.75914455E+10  1.77427841E+11
 shsum :  9.89487411E+09  1.77428300E+11   48.349762      1.77427841E+11
 shsum :  9.89487411E+09  1.77428300E+11   2.2682507      1.77427841E+11
 fin  1.77428300E+11  9.89487411E+09   18.651762    
   17.931335    
   17.605589       18.651762    
 ezero   0.0000000    
  1.77428300E+11
   1.7464582    

Total energy input of :1.846E+11 eV.cm-2.s-1 (qtoteV)
             of which 1.035E+10 is reflected (qsump)
                  and 1.774E+11 is absorbed (entot) 
                         through inelastic collisions (shsum =1.774E+11)
                                           + heating (elhsum =4.581E+05)
 This refers to an energy gain of   1.75 %


 The average E. loss per ion pair is :  18.65 eV (from qtoteV)
                                  or :  17.93 eV (from (entot))
                                  or :  17.61 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 : 2.3790E+11 [eV/cm2/s]
                                                             or : 3.8116E-01 [erg/cm2/s]
 That variable "errorgaupin" is:           88

 MAIN : Total energy deposition in [CO2] is 1.845E+11 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 1.626E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 1.021E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 2.006E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 5.172E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 2.348E+00 [eV.cm-2.s-1] ("shsum").
  1.20245594E+09           2          21
  1.28914650E+09           2          23

 Total Heating :  5.175E+05 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  3.5430552E-03
 entot depart   517545.47       517545.47    
 shsum :  1.21516708E+10  1.84455823E+11  1.84455299E+11  1.84455299E+11
 shsum :  1.22858465E+10  2.00717173E+11  1.62613555E+10  2.00716648E+11
 shsum :  1.23477504E+10  2.10928763E+11  1.02115840E+10  2.10928239E+11
 shsum :  1.27829432E+10  2.30986760E+11  2.00579912E+10  2.30986236E+11
 shsum :  1.27829432E+10  2.30986760E+11   51.717331      2.30986236E+11
 shsum :  1.27829432E+10  2.30986760E+11   2.3483040      2.30986236E+11
 fin  2.30986760E+11  1.27829432E+10   18.610390    
   18.069920    
   17.769365       18.610390    
 ezero   0.0000000    
  2.30986760E+11
   1.6149800    

Total energy input of :2.379E+11 eV.cm-2.s-1 (qtoteV)
             of which 1.075E+10 is reflected (qsump)
                  and 2.310E+11 is absorbed (entot) 
                         through inelastic collisions (shsum =2.310E+11)
                                           + heating (elhsum =5.175E+05)
 This refers to an energy gain of   1.61 %


 The average E. loss per ion pair is :  18.61 eV (from qtoteV)
                                  or :  18.07 eV (from (entot))
                                  or :  17.77 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 : 2.1703E+11 [eV/cm2/s]
                                                             or : 3.4773E-01 [erg/cm2/s]
 That variable "errorgaupin" is:           75

 MAIN : Total energy deposition in [CO2] is 1.663E+11 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 1.505E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 9.532E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 1.914E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 5.052E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 2.320E+00 [eV.cm-2.s-1] ("shsum").
  1.15912704E+09           2          21
  1.24146714E+09           2          23

 Total Heating :  4.962E+05 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  3.3093295E-03
 entot depart   496202.03       496202.03    
 shsum :  1.10499901E+10  1.66307611E+11  1.66307119E+11  1.66307119E+11
 shsum :  1.11753155E+10  1.81357150E+11  1.50495406E+10  1.81356659E+11
 shsum :  1.12338104E+10  1.90888886E+11  9.53173504E+09  1.90888395E+11
 shsum :  1.16520602E+10  2.10032214E+11  1.91433318E+10  2.10031722E+11
 shsum :  1.16520602E+10  2.10032214E+11   50.524971      2.10031722E+11
 shsum :  1.16520602E+10  2.10032214E+11   2.3196449      2.10031722E+11
 fin  2.10032214E+11  1.16520602E+10   18.625978    
   18.025330    
   17.715105       18.625978    
 ezero   0.0000000    
  2.10032214E+11
   1.6655391    

Total energy input of :2.170E+11 eV.cm-2.s-1 (qtoteV)
             of which 1.061E+10 is reflected (qsump)
                  and 2.100E+11 is absorbed (entot) 
                         through inelastic collisions (shsum =2.100E+11)
                                           + heating (elhsum =4.962E+05)
 This refers to an energy gain of   1.67 %


 The average E. loss per ion pair is :  18.63 eV (from qtoteV)
                                  or :  18.03 eV (from (entot))
                                  or :  17.72 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 : 1.9474E+11 [eV/cm2/s]
                                                             or : 3.1202E-01 [erg/cm2/s]
 That variable "errorgaupin" is:           89

 MAIN : Total energy deposition in [CO2] is 1.471E+11 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 1.371E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 8.782E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 1.809E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 4.913E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 2.285E+00 [eV.cm-2.s-1] ("shsum").
  1.10835802E+09           2          21
  1.18587994E+09           2          23

 Total Heating :  4.714E+05 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  3.0508337E-03
 entot depart   471429.06       471429.06    
 shsum :  9.87697050E+09  1.47065061E+11  1.47064586E+11  1.47064586E+11
 shsum :  9.99250637E+09  1.60778682E+11  1.37136241E+10  1.60778207E+11
 shsum :  1.00472218E+10  1.69560457E+11  8.78177690E+09  1.69559982E+11
 shsum :  1.04458557E+10  1.87651457E+11  1.80910039E+10  1.87650982E+11
 shsum :  1.04458557E+10  1.87651457E+11   49.128971      1.87650982E+11
 shsum :  1.04458557E+10  1.87651457E+11   2.2852173      1.87650982E+11
 fin  1.87651457E+11  1.04458557E+10   18.642958    
   17.964201    
   17.643288       18.642958    
 ezero   0.0000000    
  1.87651457E+11
   1.7213656    

Total energy input of :1.947E+11 eV.cm-2.s-1 (qtoteV)
             of which 1.044E+10 is reflected (qsump)
                  and 1.877E+11 is absorbed (entot) 
                         through inelastic collisions (shsum =1.877E+11)
                                           + heating (elhsum =4.714E+05)
 This refers to an energy gain of   1.72 %


 The average E. loss per ion pair is :  18.64 eV (from qtoteV)
                                  or :  17.96 eV (from (entot))
                                  or :  17.64 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 : 1.7128E+11 [eV/cm2/s]
                                                             or : 2.7443E-01 [erg/cm2/s]
 That variable "errorgaupin" is:           95

 MAIN : Total energy deposition in [CO2] is 1.270E+11 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 1.229E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 7.962E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 1.691E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 4.745E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 2.243E+00 [eV.cm-2.s-1] ("shsum").
  1.04681357E+09           2          21
  1.11868173E+09           2          23

 Total Heating :  4.423E+05 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  2.7752123E-03
 entot depart   442268.09       442268.09    
 shsum :  8.64625152E+09  1.26953480E+11  1.26953038E+11  1.26953038E+11
 shsum :  8.75134976E+09  1.39242537E+11  1.22890629E+10  1.39242095E+11
 shsum :  8.80192614E+09  1.47205014E+11  7.96247450E+09  1.47204571E+11
 shsum :  9.17836186E+09  1.64110565E+11  1.69055457E+10  1.64110123E+11
 shsum :  9.17836186E+09  1.64110565E+11   47.453686      1.64110123E+11
 shsum :  9.17836186E+09  1.64110565E+11   2.2428737      1.64110123E+11
 fin  1.64110565E+11  9.17836186E+09   18.661623    
   17.880159    
   17.547407       18.661623    
 ezero   0.0000000    
  1.64110565E+11
   1.7830763    

Total energy input of :1.713E+11 eV.cm-2.s-1 (qtoteV)
             of which 1.023E+10 is reflected (qsump)
                  and 1.641E+11 is absorbed (entot) 
                         through inelastic collisions (shsum =1.641E+11)
                                           + heating (elhsum =4.423E+05)
 This refers to an energy gain of   1.78 %


 The average E. loss per ion pair is :  18.66 eV (from qtoteV)
                                  or :  17.88 eV (from (entot))
                                  or :  17.55 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 : 2.1702E+11 [eV/cm2/s]
                                                             or : 3.4770E-01 [erg/cm2/s]
 That variable "errorgaupin" is:           97

 MAIN : Total energy deposition in [CO2] is 1.663E+11 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 1.505E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 9.535E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 1.914E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 5.071E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 2.321E+00 [eV.cm-2.s-1] ("shsum").
  1.18609754E+09           2          21
  1.27305498E+09           2          23

 Total Heating :  4.988E+05 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  3.3087991E-03
 entot depart   498824.59       498824.59    
 shsum :  1.10501960E+10  1.66283313E+11  1.66282822E+11  1.66282822E+11
 shsum :  1.11755008E+10  1.81329478E+11  1.50461686E+10  1.81328986E+11
 shsum :  1.12340183E+10  1.90864818E+11  9.53534362E+09  1.90864327E+11
 shsum :  1.16521103E+10  2.10002412E+11  1.91376015E+10  2.10001920E+11
 shsum :  1.16521103E+10  2.10002412E+11   50.710960      2.10001920E+11
 shsum :  1.16521103E+10  2.10002412E+11   2.3212953      2.10001920E+11
 fin  2.10002412E+11  1.16521103E+10   18.624712    
   18.022694    
   17.713617       18.624712    
 ezero   0.0000000    
  2.10002412E+11
   1.6594923    

Total energy input of :2.170E+11 eV.cm-2.s-1 (qtoteV)
             of which 1.062E+10 is reflected (qsump)
                  and 2.100E+11 is absorbed (entot) 
                         through inelastic collisions (shsum =2.100E+11)
                                           + heating (elhsum =4.988E+05)
 This refers to an energy gain of   1.66 %


 The average E. loss per ion pair is :  18.62 eV (from qtoteV)
                                  or :  18.02 eV (from (entot))
                                  or :  17.71 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 : 1.9818E+11 [eV/cm2/s]
                                                             or : 3.1752E-01 [erg/cm2/s]
 That variable "errorgaupin" is:           80

 MAIN : Total energy deposition in [CO2] is 1.500E+11 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 1.393E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 8.903E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 1.826E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 4.949E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 2.291E+00 [eV.cm-2.s-1] ("shsum").
  1.14002944E+09           2          21
  1.22231373E+09           2          23

 Total Heating :  4.773E+05 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  3.0933418E-03
 entot depart   477328.66       477328.66    
 shsum :  1.00579113E+10  1.49997371E+11  1.49996896E+11  1.49996896E+11
 shsum :  1.01750569E+10  1.63928146E+11  1.39307745E+10  1.63927671E+11
 shsum :  1.02303918E+10  1.72830720E+11  8.90256998E+09  1.72830245E+11
 shsum :  1.06321777E+10  1.91091671E+11  1.82609428E+10  1.91091180E+11
 shsum :  1.06321777E+10  1.91091671E+11   49.485828      1.91091180E+11
 shsum :  1.06321777E+10  1.91091671E+11   2.2911439      1.91091180E+11
 fin  1.91091671E+11  1.06321777E+10   18.639330    
   17.972958    
   17.654331       18.639330    
 ezero   0.0000000    
  1.91091671E+11
   1.7094277    

Total energy input of :1.982E+11 eV.cm-2.s-1 (qtoteV)
             of which 1.047E+10 is reflected (qsump)
                  and 1.911E+11 is absorbed (entot) 
                         through inelastic collisions (shsum =1.911E+11)
                                           + heating (elhsum =4.773E+05)
 This refers to an energy gain of   1.71 %


 The average E. loss per ion pair is :  18.64 eV (from qtoteV)
                                  or :  17.97 eV (from (entot))
                                  or :  17.65 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 : 1.7807E+11 [eV/cm2/s]
                                                             or : 2.8531E-01 [erg/cm2/s]
 That variable "errorgaupin" is:           94

 MAIN : Total energy deposition in [CO2] is 1.327E+11 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 1.271E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 8.205E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 1.726E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 4.804E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 2.255E+00 [eV.cm-2.s-1] ("shsum").
  1.08580109E+09           2          21
  1.16281702E+09           2          23

 Total Heating :  4.523E+05 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  2.8562606E-03
 entot depart   452300.44       452300.44    
 shsum :  9.00248986E+09  1.32746437E+11  1.32745986E+11  1.32745986E+11
 shsum :  9.11065702E+09  1.45453744E+11  1.27073157E+10  1.45453302E+11
 shsum :  9.16246630E+09  1.53659015E+11  8.20526950E+09  1.53658573E+11
 shsum :  9.54548838E+09  1.70917265E+11  1.72582420E+10  1.70916807E+11
 shsum :  9.54548838E+09  1.70917265E+11   48.042702      1.70916807E+11
 shsum :  9.54548838E+09  1.70917265E+11   2.2546988      1.70916807E+11
 fin  1.70917265E+11  9.54548838E+09   18.655092    
   17.905556    
   17.576557       18.655092    
 ezero   0.0000000    
  1.70917265E+11
   1.7635769    

Total energy input of :1.781E+11 eV.cm-2.s-1 (qtoteV)
             of which 1.030E+10 is reflected (qsump)
                  and 1.709E+11 is absorbed (entot) 
                         through inelastic collisions (shsum =1.709E+11)
                                           + heating (elhsum =4.523E+05)
 This refers to an energy gain of   1.76 %


 The average E. loss per ion pair is :  18.66 eV (from qtoteV)
                                  or :  17.91 eV (from (entot))
                                  or :  17.58 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 : 1.5694E+11 [eV/cm2/s]
                                                             or : 2.5144E-01 [erg/cm2/s]
 That variable "errorgaupin" is:           91

 MAIN : Total energy deposition in [CO2] is 1.148E+11 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 1.140E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 7.444E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 1.613E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 4.631E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 2.210E+00 [eV.cm-2.s-1] ("shsum").
  1.02099334E+09           2          21
  1.09188211E+09           2          23

 Total Heating :  4.229E+05 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  2.6019318E-03
 entot depart   422875.88       422875.88    
 shsum :  7.89667226E+09  1.14756895E+11  1.14756469E+11  1.14756469E+11
 shsum :  7.99520768E+09  1.26154654E+11  1.13977600E+10  1.26154228E+11
 shsum :  8.04314880E+09  1.33598773E+11  7.44412365E+09  1.33598347E+11
 shsum :  8.40484045E+09  1.49724217E+11  1.61254451E+10  1.49723791E+11
 shsum :  8.40484045E+09  1.49724217E+11   46.314606      1.49723791E+11
 shsum :  8.40484045E+09  1.49724217E+11   2.2098732      1.49723791E+11
 fin  1.49724217E+11  8.40484045E+09   18.672169    
   17.814047    
   17.473663       18.672169    
 ezero   0.0000000    
  1.49724217E+11
   1.8229395    

Total energy input of :1.569E+11 eV.cm-2.s-1 (qtoteV)
             of which 1.007E+10 is reflected (qsump)
                  and 1.497E+11 is absorbed (entot) 
                         through inelastic collisions (shsum =1.497E+11)
                                           + heating (elhsum =4.229E+05)
 This refers to an energy gain of   1.82 %


 The average E. loss per ion pair is :  18.67 eV (from qtoteV)
                                  or :  17.81 eV (from (entot))
                                  or :  17.47 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 : 1.9475E+11 [eV/cm2/s]
                                                             or : 3.1202E-01 [erg/cm2/s]
 That variable "errorgaupin" is:           88

 MAIN : Total energy deposition in [CO2] is 1.470E+11 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 1.372E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 8.790E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 1.809E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 4.937E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 2.284E+00 [eV.cm-2.s-1] ("shsum").
  1.16052570E+09           2          21
  1.24699315E+09           2          23

 Total Heating :  4.750E+05 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  3.0536880E-03
 entot depart   474990.53       474990.53    
 shsum :  9.87844608E+09  1.47019760E+11  1.47019284E+11  1.47019284E+11
 shsum :  9.99408947E+09  1.60744079E+11  1.37243228E+10  1.60743604E+11
 shsum :  1.00488632E+10  1.69533768E+11  8.78968320E+09  1.69533293E+11
 shsum :  1.04474450E+10  1.87625423E+11  1.80916490E+10  1.87624948E+11
 shsum :  1.04474450E+10  1.87625423E+11   49.366833      1.87624948E+11
 shsum :  1.04474450E+10  1.87625423E+11   2.2839408      1.87624948E+11
 fin  1.87625423E+11  1.04474450E+10   18.640446    
   17.958977    
   17.640533       18.640446    
 ezero   0.0000000    
  1.87625423E+11
   1.7083457    

Total energy input of :1.947E+11 eV.cm-2.s-1 (qtoteV)
             of which 1.045E+10 is reflected (qsump)
                  and 1.876E+11 is absorbed (entot) 
                         through inelastic collisions (shsum =1.876E+11)
                                           + heating (elhsum =4.750E+05)
 This refers to an energy gain of   1.71 %


 The average E. loss per ion pair is :  18.64 eV (from qtoteV)
                                  or :  17.96 eV (from (entot))
                                  or :  17.64 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 : 1.7808E+11 [eV/cm2/s]
                                                             or : 2.8533E-01 [erg/cm2/s]
 That variable "errorgaupin" is:           73

 MAIN : Total energy deposition in [CO2] is 1.327E+11 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 1.272E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 8.209E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 1.726E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 4.812E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 2.253E+00 [eV.cm-2.s-1] ("shsum").
  1.11147738E+09           2          21
  1.19290266E+09           2          23

 Total Heating :  4.536E+05 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  2.8581738E-03
 entot depart   453564.91       453564.91    
 shsum :  9.00379955E+09  1.32733673E+11  1.32733223E+11  1.32733223E+11
 shsum :  9.11203942E+09  1.45448878E+11  1.27152005E+10  1.45448419E+11
 shsum :  9.16387430E+09  1.53657737E+11  8.20885146E+09  1.53657278E+11
 shsum :  9.54687283E+09  1.70916626E+11  1.72588851E+10  1.70916168E+11
 shsum :  9.54687283E+09  1.70916626E+11   48.120766      1.70916168E+11
 shsum :  9.54687283E+09  1.70916626E+11   2.2525480      1.70916168E+11
 fin  1.70916626E+11  9.54687283E+09   18.653738    
   17.902891    
   17.575153       18.653738    
 ezero   0.0000000    
  1.70916626E+11
   1.7569538    

Total energy input of :1.781E+11 eV.cm-2.s-1 (qtoteV)
             of which 1.030E+10 is reflected (qsump)
                  and 1.709E+11 is absorbed (entot) 
                         through inelastic collisions (shsum =1.709E+11)
                                           + heating (elhsum =4.536E+05)
 This refers to an energy gain of   1.76 %


 The average E. loss per ion pair is :  18.65 eV (from qtoteV)
                                  or :  17.90 eV (from (entot))
                                  or :  17.58 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 : 1.6033E+11 [eV/cm2/s]
                                                             or : 2.5688E-01 [erg/cm2/s]
 That variable "errorgaupin" is:          102

 MAIN : Total energy deposition in [CO2] is 1.176E+11 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 1.161E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 7.571E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 1.631E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 4.664E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 2.214E+00 [eV.cm-2.s-1] ("shsum").
  1.05399040E+09           2          21
  1.12968704E+09           2          23

 Total Heating :  4.286E+05 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  2.6443200E-03
 entot depart   428593.50       428593.50    
 shsum :  8.07440691E+09  1.17616247E+11  1.17615821E+11  1.17615821E+11
 shsum :  8.17454797E+09  1.29231045E+11  1.16147968E+10  1.29230619E+11
 shsum :  8.22314138E+09  1.36801772E+11  7.57072896E+09  1.36801346E+11
 shsum :  8.58837862E+09  1.53116475E+11  1.63146977E+10  1.53116049E+11
 shsum :  8.58837862E+09  1.53116475E+11   46.643875      1.53116049E+11
 shsum :  8.58837862E+09  1.53116475E+11   2.2144022      1.53116049E+11
 fin  1.53116475E+11  8.58837862E+09   18.668053    
   17.828333    
   17.490557       18.668053    
 ezero   0.0000000    
  1.53116475E+11
   1.8093817    

Total energy input of :1.603E+11 eV.cm-2.s-1 (qtoteV)
             of which 1.011E+10 is reflected (qsump)
                  and 1.531E+11 is absorbed (entot) 
                         through inelastic collisions (shsum =1.531E+11)
                                           + heating (elhsum =4.286E+05)
 This refers to an energy gain of   1.81 %


 The average E. loss per ion pair is :  18.67 eV (from qtoteV)
                                  or :  17.83 eV (from (entot))
                                  or :  17.49 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 : 1.4168E+11 [eV/cm2/s]
                                                             or : 2.2700E-01 [erg/cm2/s]
 That variable "errorgaupin" is:           86

 MAIN : Total energy deposition in [CO2] is 1.019E+11 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 1.043E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 6.874E+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 4.489E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 2.168E+00 [eV.cm-2.s-1] ("shsum").
  9.86507072E+08           2          21
  1.05565299E+09           2          23

 Total Heating :  3.994E+05 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  2.4130936E-03
 entot depart   399360.53       399360.53    
 shsum :  7.10198733E+09  1.01893702E+11  1.01893300E+11  1.01893300E+11
 shsum :  7.19337165E+09  1.12324764E+11  1.04310641E+10  1.12324362E+11
 shsum :  7.23839283E+09  1.19198802E+11  6.87404186E+09  1.19198401E+11
 shsum :  7.58331443E+09  1.34442484E+11  1.52436818E+10  1.34442082E+11
 shsum :  7.58331443E+09  1.34442484E+11   44.888401      1.34442082E+11
 shsum :  7.58331443E+09  1.34442484E+11   2.1677005      1.34442082E+11
 fin  1.34442484E+11  7.58331443E+09   18.683443    
   17.728724    
   17.379883       18.683443    
 ezero   0.0000000    
  1.34442484E+11
   1.8671056    

Total energy input of :1.417E+11 eV.cm-2.s-1 (qtoteV)
             of which 9.885E+09 is reflected (qsump)
                  and 1.344E+11 is absorbed (entot) 
                         through inelastic collisions (shsum =1.344E+11)
                                           + heating (elhsum =3.994E+05)
 This refers to an energy gain of   1.87 %


 The average E. loss per ion pair is :  18.68 eV (from qtoteV)
                                  or :  17.73 eV (from (entot))
                                  or :  17.38 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 : 1.7134E+11 [eV/cm2/s]
                                                             or : 2.7452E-01 [erg/cm2/s]
 That variable "errorgaupin" is:           82

 MAIN : Total energy deposition in [CO2] is 1.269E+11 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 1.230E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 7.973E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 1.691E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 4.761E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 2.234E+00 [eV.cm-2.s-1] ("shsum").
  1.12207155E+09           2          21
  1.20684838E+09           2          23

 Total Heating :  4.450E+05 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  2.7785697E-03
 entot depart   445034.34       445034.34    
 shsum :  8.65114317E+09  1.26946099E+11  1.26945657E+11  1.26945657E+11
 shsum :  8.75636838E+09  1.39248845E+11  1.23027507E+10  1.39248402E+11
 shsum :  8.80702054E+09  1.47222020E+11  7.97316966E+09  1.47221578E+11
 shsum :  9.18334566E+09  1.64127588E+11  1.69055683E+10  1.64127146E+11
 shsum :  9.18334566E+09  1.64127588E+11   47.606590      1.64127146E+11
 shsum :  9.18334566E+09  1.64127588E+11   2.2337074      1.64127146E+11
 fin  1.64127588E+11  9.18334566E+09   18.657589    
   17.872309    
   17.543438       18.657589    
 ezero   0.0000000    
  1.64127588E+11
   1.7626616    

Total energy input of :1.713E+11 eV.cm-2.s-1 (qtoteV)
             of which 1.023E+10 is reflected (qsump)
                  and 1.641E+11 is absorbed (entot) 
                         through inelastic collisions (shsum =1.641E+11)
                                           + heating (elhsum =4.450E+05)
 This refers to an energy gain of   1.76 %


 The average E. loss per ion pair is :  18.66 eV (from qtoteV)
                                  or :  17.87 eV (from (entot))
                                  or :  17.54 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 : 1.5699E+11 [eV/cm2/s]
                                                             or : 2.5154E-01 [erg/cm2/s]
 That variable "errorgaupin" is:           89

 MAIN : Total energy deposition in [CO2] is 1.148E+11 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 1.141E+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 1.613E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 4.635E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 2.201E+00 [eV.cm-2.s-1] ("shsum").
  1.07061459E+09           2          21
  1.15003494E+09           2          23

 Total Heating :  4.240E+05 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  2.6043621E-03
 entot depart   424002.66       424002.66    
 shsum :  7.90100992E+09  1.14773664E+11  1.14773238E+11  1.14773238E+11
 shsum :  7.99963750E+09  1.26182105E+11  1.14084393E+10  1.26181679E+11
 shsum :  8.04762675E+09  1.33633368E+11  7.45126605E+09  1.33632942E+11
 shsum :  8.40923392E+09  1.49758722E+11  1.61253540E+10  1.49758296E+11
 shsum :  8.40923392E+09  1.49758722E+11   46.354172      1.49758296E+11
 shsum :  8.40923392E+09  1.49758722E+11   2.2013025      1.49758296E+11
 fin  1.49758722E+11  8.40923392E+09   18.669224    
   17.808842    
   17.470978       18.669224    
 ezero   0.0000000    
  1.49758722E+11
   1.8097410    

Total energy input of :1.570E+11 eV.cm-2.s-1 (qtoteV)
             of which 1.008E+10 is reflected (qsump)
                  and 1.498E+11 is absorbed (entot) 
                         through inelastic collisions (shsum =1.498E+11)
                                           + heating (elhsum =4.240E+05)
 This refers to an energy gain of   1.81 %


 The average E. loss per ion pair is :  18.67 eV (from qtoteV)
                                  or :  17.81 eV (from (entot))
                                  or :  17.47 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 : 1.4172E+11 [eV/cm2/s]
                                                             or : 2.2707E-01 [erg/cm2/s]
 That variable "errorgaupin" is:           77

 MAIN : Total energy deposition in [CO2] is 1.019E+11 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 1.044E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 6.878E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 1.525E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 4.487E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 2.162E+00 [eV.cm-2.s-1] ("shsum").
  1.01057984E+09           2          21
  1.08387302E+09           2          23

 Total Heating :  3.996E+05 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  2.4149427E-03
 entot depart   399585.72       399585.72    
 shsum :  7.10471117E+09  1.01911020E+11  1.01910618E+11  1.01910618E+11
 shsum :  7.19616563E+09  1.12350331E+11  1.04393155E+10  1.12349938E+11
 shsum :  7.24121344E+09  1.19228113E+11  6.87778355E+09  1.19227720E+11
 shsum :  7.58614528E+09  1.34474301E+11  1.52461844E+10  1.34473908E+11
 shsum :  7.58614528E+09  1.34474301E+11   44.874706      1.34473908E+11
 shsum :  7.58614528E+09  1.34474301E+11   2.1621630      1.34473908E+11
 fin  1.34474301E+11  7.58614528E+09   18.681890    
   17.726301    
   17.378660       18.681890    
 ezero   0.0000000    
  1.34474301E+11
   1.8608533    

Total energy input of :1.417E+11 eV.cm-2.s-1 (qtoteV)
             of which 9.886E+09 is reflected (qsump)
                  and 1.345E+11 is absorbed (entot) 
                         through inelastic collisions (shsum =1.345E+11)
                                           + heating (elhsum =3.996E+05)
 This refers to an energy gain of   1.86 %


 The average E. loss per ion pair is :  18.68 eV (from qtoteV)
                                  or :  17.73 eV (from (entot))
                                  or :  17.38 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 : 1.2571E+11 [eV/cm2/s]
                                                             or : 2.0141E-01 [erg/cm2/s]
 That variable "errorgaupin" is:           78

 MAIN : Total energy deposition in [CO2] is 8.856E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 9.394E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 6.253E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 1.425E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 4.313E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 2.115E+00 [eV.cm-2.s-1] ("shsum").
  9.41772928E+08           2          21
  1.00823002E+09           2          23

 Total Heating :  3.713E+05 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  2.2090450E-03
 entot depart   371285.22       371285.22    
 shsum :  6.27242598E+09  8.85645804E+10  8.85642117E+10  8.85642117E+10
 shsum :  6.35608269E+09  9.79585352E+10  9.39395277E+09  9.79581665E+10
 shsum :  6.39788954E+09  1.04211595E+11  6.25306266E+09  1.04211227E+11
 shsum :  6.72376525E+09  1.18462341E+11  1.42507469E+10  1.18461972E+11
 shsum :  6.72376525E+09  1.18462341E+11   43.134293      1.18461972E+11
 shsum :  6.72376525E+09  1.18462341E+11   2.1147389      1.18461972E+11
 fin  1.18462341E+11  6.72376525E+09   18.695715    
   17.618452    
   17.259867       18.695715    
 ezero   0.0000000    
  1.18462341E+11
   1.9180093    

Total energy input of :1.257E+11 eV.cm-2.s-1 (qtoteV)
             of which 9.654E+09 is reflected (qsump)
                  and 1.185E+11 is absorbed (entot) 
                         through inelastic collisions (shsum =1.185E+11)
                                           + heating (elhsum =3.713E+05)
 This refers to an energy gain of   1.92 %


 The average E. loss per ion pair is :  18.70 eV (from qtoteV)
                                  or :  17.62 eV (from (entot))
                                  or :  17.26 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 : 1.4710E+11 [eV/cm2/s]
                                                             or : 2.3568E-01 [erg/cm2/s]
 That variable "errorgaupin" is:           91

 MAIN : Total energy deposition in [CO2] is 1.064E+11 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 1.079E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 7.085E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 1.556E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 4.535E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 2.167E+00 [eV.cm-2.s-1] ("shsum").
  1.06711584E+09           2          21
  1.14860045E+09           2          23

 Total Heating :  4.080E+05 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  2.4835300E-03
 entot depart   407968.25       407968.25    
 shsum :  7.38521600E+09  1.06396787E+11  1.06396377E+11  1.06396377E+11
 shsum :  7.47926784E+09  1.17183627E+11  1.07868365E+10  1.17183218E+11
 shsum :  7.52539750E+09  1.24269093E+11  7.08546253E+09  1.24268683E+11
 shsum :  7.87622502E+09  1.39827921E+11  1.55588270E+10  1.39827511E+11
 shsum :  7.87622502E+09  1.39827921E+11   45.345097      1.39827511E+11
 shsum :  7.87622502E+09  1.39827921E+11   2.1674364      1.39827511E+11
 fin  1.39827921E+11  7.87622502E+09   18.676285    
   17.753164    
   17.412161       18.676285    
 ezero   0.0000000    
  1.39827921E+11
   1.8258698    

Total energy input of :1.471E+11 eV.cm-2.s-1 (qtoteV)
             of which 9.957E+09 is reflected (qsump)
                  and 1.398E+11 is absorbed (entot) 
                         through inelastic collisions (shsum =1.398E+11)
                                           + heating (elhsum =4.080E+05)
 This refers to an energy gain of   1.83 %


 The average E. loss per ion pair is :  18.68 eV (from qtoteV)
                                  or :  17.75 eV (from (entot))
                                  or :  17.41 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 : 1.3518E+11 [eV/cm2/s]
                                                             or : 2.1658E-01 [erg/cm2/s]
 That variable "errorgaupin" is:           87

 MAIN : Total energy deposition in [CO2] is 9.642E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 1.002E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 6.628E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 1.484E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 4.412E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 2.135E+00 [eV.cm-2.s-1] ("shsum").
  1.01428064E+09           2          21
  1.09019136E+09           2          23

 Total Heating :  3.879E+05 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  2.3323547E-03
 entot depart   387918.81       387918.81    
 shsum :  6.76484301E+09  9.64220109E+10  9.64216259E+10  9.64216259E+10
 shsum :  6.85316966E+09  1.06439696E+11  1.00176835E+10  1.06439311E+11
 shsum :  6.89693389E+09  1.13067835E+11  6.62814259E+09  1.13067450E+11
 shsum :  7.23410074E+09  1.27910453E+11  1.48426179E+10  1.27910068E+11
 shsum :  7.23410074E+09  1.27910453E+11   44.119167      1.27910068E+11
 shsum :  7.23410074E+09  1.27910453E+11   2.1348081      1.27910068E+11
 fin  1.27910453E+11  7.23410074E+09   18.686079    
   17.681597    
   17.331875       18.686079    
 ezero   0.0000000    
  1.27910453E+11
   1.8715606    

Total energy input of :1.352E+11 eV.cm-2.s-1 (qtoteV)
             of which 9.796E+09 is reflected (qsump)
                  and 1.279E+11 is absorbed (entot) 
                         through inelastic collisions (shsum =1.279E+11)
                                           + heating (elhsum =3.879E+05)
 This refers to an energy gain of   1.87 %


 The average E. loss per ion pair is :  18.69 eV (from qtoteV)
                                  or :  17.68 eV (from (entot))
                                  or :  17.33 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 : 1.2250E+11 [eV/cm2/s]
                                                             or : 1.9627E-01 [erg/cm2/s]
 That variable "errorgaupin" is:           82

 MAIN : Total energy deposition in [CO2] is 8.590E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 9.185E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 6.127E+09 [eV.cm-2.s-1] ("shsum").

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

 MAIN : Total energy deposition in [O2]  is 4.268E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 2.096E+00 [eV.cm-2.s-1] ("shsum").
  9.53433216E+08           2          21
  1.02301376E+09           2          23

 Total Heating :  3.648E+05 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  2.1679867E-03
 entot depart   364805.56       364805.56    
 shsum :  6.10688358E+09  8.59012547E+10  8.59008860E+10  8.59008860E+10
 shsum :  6.18898586E+09  9.50867067E+10  9.18545203E+09  9.50863380E+10
 shsum :  6.23014246E+09  1.01214011E+11  6.12730317E+09  1.01213643E+11
 shsum :  6.55187251E+09  1.15252273E+11  1.40382628E+10  1.15251905E+11
 shsum :  6.55187251E+09  1.15252273E+11   42.682800      1.15251905E+11
 shsum :  6.55187251E+09  1.15252273E+11   2.0958052      1.15251905E+11
 fin  1.15252273E+11  6.55187251E+09   18.697077    
   17.590738    
   17.231417       18.697077    
 ezero   0.0000000    
  1.15252273E+11
   1.9218030    

Total energy input of :1.225E+11 eV.cm-2.s-1 (qtoteV)
             of which 9.603E+09 is reflected (qsump)
                  and 1.153E+11 is absorbed (entot) 
                         through inelastic collisions (shsum =1.153E+11)
                                           + heating (elhsum =3.648E+05)
 This refers to an energy gain of   1.92 %


 The average E. loss per ion pair is :  18.70 eV (from qtoteV)
                                  or :  17.59 eV (from (entot))
                                  or :  17.23 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 : 1.0922E+11 [eV/cm2/s]
                                                             or : 1.7499E-01 [erg/cm2/s]
 That variable "errorgaupin" is:           93

 MAIN : Total energy deposition in [CO2] is 7.500E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 8.292E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 5.582E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 1.314E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 4.102E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 2.049E+00 [eV.cm-2.s-1] ("shsum").
  8.85230080E+08           2          21
  9.47904576E+08           2          23

 Total Heating :  3.384E+05 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  1.9900186E-03
 entot depart   338423.47       338423.47    
 shsum :  5.41965824E+09  7.50007337E+10  7.50003978E+10  7.50003978E+10
 shsum :  5.49502054E+09  8.32931267E+10  8.29239603E+09  8.32927908E+10
 shsum :  5.53330432E+09  8.88756224E+10  5.58249267E+09  8.88752865E+10
 shsum :  5.83754189E+09  1.02010888E+11  1.31352637E+10  1.02010552E+11
 shsum :  5.83754189E+09  1.02010888E+11   41.019035      1.02010552E+11
 shsum :  5.83754189E+09  1.02010888E+11   2.0494125      1.02010552E+11
 fin  1.02010888E+11  5.83754189E+09   18.709551    
   17.474974    
   17.104660       18.709551    
 ezero   0.0000000    
  1.02010888E+11
   1.9792758    

Total energy input of :1.092E+11 eV.cm-2.s-1 (qtoteV)
             of which 9.369E+09 is reflected (qsump)
                  and 1.020E+11 is absorbed (entot) 
                         through inelastic collisions (shsum =1.020E+11)
                                           + heating (elhsum =3.384E+05)
 This refers to an energy gain of   1.98 %


 The average E. loss per ion pair is :  18.71 eV (from qtoteV)
                                  or :  17.47 eV (from (entot))
                                  or :  17.10 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 : 1.2238E+11 [eV/cm2/s]
                                                             or : 1.9608E-01 [erg/cm2/s]
 That variable "errorgaupin" is:           77

 MAIN : Total energy deposition in [CO2] is 8.578E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 9.182E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 6.125E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 1.402E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 4.250E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 2.082E+00 [eV.cm-2.s-1] ("shsum").
  9.91425216E+08           2          21
  1.06757190E+09           2          23

 Total Heating :  3.631E+05 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  2.1679625E-03
 entot depart   363109.06       363109.06    
 shsum :  6.10071859E+09  8.57796936E+10  8.57793331E+10  8.57793331E+10
 shsum :  6.18281984E+09  9.49619753E+10  9.18228275E+09  9.49616148E+10
 shsum :  6.22397850E+09  1.01086937E+11  6.12496128E+09  1.01086577E+11
 shsum :  6.54534912E+09  1.15110126E+11  1.40231916E+10  1.15109765E+11
 shsum :  6.54534912E+09  1.15110126E+11   42.504227      1.15109765E+11
 shsum :  6.54534912E+09  1.15110126E+11   2.0817180      1.15109765E+11
 fin  1.15110126E+11  6.54534912E+09   18.697163    
   17.586552    
   17.230577       18.697163    
 ezero   0.0000000    
  1.15110126E+11
   1.9039022    

Total energy input of :1.224E+11 eV.cm-2.s-1 (qtoteV)
             of which 9.599E+09 is reflected (qsump)
                  and 1.151E+11 is absorbed (entot) 
                         through inelastic collisions (shsum =1.151E+11)
                                           + heating (elhsum =3.631E+05)
 This refers to an energy gain of   1.90 %


 The average E. loss per ion pair is :  18.70 eV (from qtoteV)
                                  or :  17.59 eV (from (entot))
                                  or :  17.23 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 : 1.1296E+11 [eV/cm2/s]
                                                             or : 1.8098E-01 [erg/cm2/s]
 That variable "errorgaupin" is:           86

 MAIN : Total energy deposition in [CO2] is 7.804E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 8.549E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 5.740E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 1.339E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 4.135E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 2.050E+00 [eV.cm-2.s-1] ("shsum").
  9.39395840E+08           2          21
  1.00999782E+09           2          23

 Total Heating :  3.449E+05 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  2.0417960E-03
 entot depart   344859.22       344859.22    
 shsum :  5.61329971E+09  7.80434555E+10  7.80431114E+10  7.80431114E+10
 shsum :  5.69062298E+09  8.65929052E+10  8.54944717E+09  8.65925612E+10
 shsum :  5.72975309E+09  9.23333755E+10  5.74046669E+09  9.23330314E+10
 shsum :  6.03883776E+09  1.05721758E+11  1.33883791E+10  1.05721414E+11
 shsum :  6.03883776E+09  1.05721758E+11   41.351257      1.05721414E+11
 shsum :  6.03883776E+09  1.05721758E+11   2.0500560      1.05721414E+11
 fin  1.05721758E+11  6.03883776E+09   18.705177    
   17.506971    
   17.142500       18.705177    
 ezero   0.0000000    
  1.05721758E+11
   1.9485071    

Total energy input of :1.130E+11 eV.cm-2.s-1 (qtoteV)
             of which 9.437E+09 is reflected (qsump)
                  and 1.057E+11 is absorbed (entot) 
                         through inelastic collisions (shsum =1.057E+11)
                                           + heating (elhsum =3.449E+05)
 This refers to an energy gain of   1.95 %


 The average E. loss per ion pair is :  18.71 eV (from qtoteV)
                                  or :  17.51 eV (from (entot))
                                  or :  17.14 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 : 1.0295E+11 [eV/cm2/s]
                                                             or : 1.6494E-01 [erg/cm2/s]
 That variable "errorgaupin" is:           97

 MAIN : Total energy deposition in [CO2] is 6.990E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 7.865E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 5.320E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 1.268E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 4.002E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 2.013E+00 [eV.cm-2.s-1] ("shsum").
  8.80211648E+08           2          21
  9.44564416E+08           2          23

 Total Heating :  3.241E+05 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  1.9043409E-03
 entot depart   324084.06       324084.06    
 shsum :  5.09672704E+09  6.99004518E+10  6.99001242E+10  6.99001242E+10
 shsum :  5.16884480E+09  7.77652634E+10  7.86481562E+09  7.77649357E+10
 shsum :  5.20573798E+09  8.30856233E+10  5.32036045E+09  8.30852956E+10
 shsum :  5.50094182E+09  9.57621289E+10  1.26765036E+10  9.57618012E+10
 shsum :  5.50094182E+09  9.57621289E+10   40.023102      9.57618012E+10
 shsum :  5.50094182E+09  9.57621289E+10   2.0130146      9.57618012E+10
 fin  9.57621289E+10  5.50094182E+09   18.714645    
   17.408316    
   17.034363       18.714645    
 ezero   0.0000000    
  9.57621289E+10
   1.9981831    

Total energy input of :1.029E+11 eV.cm-2.s-1 (qtoteV)
             of which 9.243E+09 is reflected (qsump)
                  and 9.576E+10 is absorbed (entot) 
                         through inelastic collisions (shsum =9.576E+10)
                                           + heating (elhsum =3.241E+05)
 This refers to an energy gain of   2.00 %


 The average E. loss per ion pair is :  18.71 eV (from qtoteV)
                                  or :  17.41 eV (from (entot))
                                  or :  17.03 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 : 9.2470E+10 [eV/cm2/s]
                                                             or : 1.4815E-01 [erg/cm2/s]
 That variable "errorgaupin" is:          100

 MAIN : Total energy deposition in [CO2] is 6.147E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 7.135E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 4.865E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 1.188E+10 [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 1.970E+00 [eV.cm-2.s-1] ("shsum").
  8.15377408E+08           2          21
  8.73077376E+08           2          23

 Total Heating :  3.008E+05 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  1.7562991E-03
 entot depart   300767.59       300767.59    
 shsum :  4.55752141E+09  6.14736568E+10  6.14733578E+10  6.14733578E+10
 shsum :  4.62403277E+09  6.86084997E+10  7.13484493E+09  6.86082048E+10
 shsum :  4.65846528E+09  7.34731223E+10  4.86462259E+09  7.34728274E+10
 shsum :  4.93808589E+09  8.53579612E+10  1.18848410E+10  8.53576663E+10
 shsum :  4.93808589E+09  8.53579612E+10   38.511295      8.53576663E+10
 shsum :  4.93808589E+09  8.53579612E+10   1.9698532      8.53576663E+10
 fin  8.53579612E+10  4.93808589E+09   18.725782    
   17.285637    
   16.900692       18.725782    
 ezero   0.0000000    
  8.53579612E+10
   2.0557003    

Total energy input of :9.247E+10 eV.cm-2.s-1 (qtoteV)
             of which 9.012E+09 is reflected (qsump)
                  and 8.536E+10 is absorbed (entot) 
                         through inelastic collisions (shsum =8.536E+10)
                                           + heating (elhsum =3.008E+05)
 This refers to an energy gain of   2.06 %


 The average E. loss per ion pair is :  18.73 eV (from qtoteV)
                                  or :  17.29 eV (from (entot))
                                  or :  16.90 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 : 9.7629E+10 [eV/cm2/s]
                                                             or : 1.5642E-01 [erg/cm2/s]
 That variable "errorgaupin" is:           88

 MAIN : Total energy deposition in [CO2] is 6.560E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 7.498E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 5.093E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 1.227E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 3.899E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 1.971E+00 [eV.cm-2.s-1] ("shsum").
  8.91225216E+08           2          21
  9.59703232E+08           2          23

 Total Heating :  3.100E+05 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  1.8307508E-03
 entot depart   310013.34       310013.34    
 shsum :  4.82256998E+09  6.56045302E+10  6.56042189E+10  6.56042189E+10
 shsum :  4.89190093E+09  7.31028439E+10  7.49831117E+09  7.31025326E+10
 shsum :  4.92758477E+09  7.81959496E+10  5.09310771E+09  7.81956383E+10
 shsum :  5.21461504E+09  9.04617247E+10  1.22657741E+10  9.04614134E+10
 shsum :  5.21461504E+09  9.04617247E+10   38.986610      9.04614134E+10
 shsum :  5.21461504E+09  9.04617247E+10   1.9714772      9.04614134E+10
 fin  9.04617247E+10  5.21461504E+09   18.722101    
   17.347729    
   16.972118       18.722101    
 ezero   0.0000000    
  9.04617247E+10
   2.0062349    

Total energy input of :9.763E+10 eV.cm-2.s-1 (qtoteV)
             of which 9.125E+09 is reflected (qsump)
                  and 9.046E+10 is absorbed (entot) 
                         through inelastic collisions (shsum =9.046E+10)
                                           + heating (elhsum =3.100E+05)
 This refers to an energy gain of   2.01 %


 The average E. loss per ion pair is :  18.72 eV (from qtoteV)
                                  or :  17.35 eV (from (entot))
                                  or :  16.97 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 : 9.0740E+10 [eV/cm2/s]
                                                             or : 1.4538E-01 [erg/cm2/s]
 That variable "errorgaupin" is:           96

 MAIN : Total energy deposition in [CO2] is 6.009E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 7.016E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 4.790E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 1.174E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 3.798E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 1.943E+00 [eV.cm-2.s-1] ("shsum").
  8.42633856E+08           2          21
  9.05868160E+08           2          23

 Total Heating :  2.947E+05 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  1.7323761E-03
 entot depart   294708.13       294708.13    
 shsum :  4.46882970E+09  6.00911954E+10  6.00909005E+10  6.00909005E+10
 shsum :  4.53443533E+09  6.71067423E+10  7.01554586E+09  6.71064474E+10
 shsum :  4.56847053E+09  7.18967849E+10  4.79004262E+09  7.18964900E+10
 shsum :  4.84503706E+09  8.36325868E+10  1.17358039E+10  8.36322918E+10
 shsum :  4.84503706E+09  8.36325868E+10   37.981636      8.36322918E+10
 shsum :  4.84503706E+09  8.36325868E+10   1.9431232      8.36322918E+10
 fin  8.36325868E+10  4.84503706E+09   18.728479    
   17.261496    
   16.877787       18.728479    
 ezero   0.0000000    
  8.36325868E+10
   2.0487995    

Total energy input of :9.074E+10 eV.cm-2.s-1 (qtoteV)
             of which 8.967E+09 is reflected (qsump)
                  and 8.363E+10 is absorbed (entot) 
                         through inelastic collisions (shsum =8.363E+10)
                                           + heating (elhsum =2.947E+05)
 This refers to an energy gain of   2.05 %


 The average E. loss per ion pair is :  18.73 eV (from qtoteV)
                                  or :  17.26 eV (from (entot))
                                  or :  16.88 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 : 8.3424E+10 [eV/cm2/s]
                                                             or : 1.3366E-01 [erg/cm2/s]
 That variable "errorgaupin" is:          105

 MAIN : Total energy deposition in [CO2] is 5.430E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 6.490E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 4.460E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 1.114E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 3.685E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 1.911E+00 [eV.cm-2.s-1] ("shsum").
  7.88549440E+08           2          21
  8.46000256E+08           2          23

 Total Heating :  2.775E+05 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  1.6242361E-03
 entot depart   277528.31       277528.31    
 shsum :  4.09406618E+09  5.42999101E+10  5.42996316E+10  5.42996316E+10
 shsum :  4.15557632E+09  6.07903744E+10  6.49046426E+09  6.07900959E+10
 shsum :  4.18779597E+09  6.52507505E+10  4.46037555E+09  6.52504719E+10
 shsum :  4.45253325E+09  7.63927183E+10  1.11419709E+10  7.63924398E+10
 shsum :  4.45253325E+09  7.63927183E+10   36.845757      7.63924398E+10
 shsum :  4.45253325E+09  7.63927183E+10   1.9106519      7.63924398E+10
 fin  7.63927183E+10  4.45253325E+09   18.736366    
   17.157137    
   16.764244       18.736366    
 ezero   0.0000000    
  7.63927183E+10
   2.0969439    

Total energy input of :8.342E+10 eV.cm-2.s-1 (qtoteV)
             of which 8.781E+09 is reflected (qsump)
                  and 7.639E+10 is absorbed (entot) 
                         through inelastic collisions (shsum =7.639E+10)
                                           + heating (elhsum =2.775E+05)
 This refers to an energy gain of   2.10 %


 The average E. loss per ion pair is :  18.74 eV (from qtoteV)
                                  or :  17.16 eV (from (entot))
                                  or :  16.76 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 : 7.5771E+10 [eV/cm2/s]
                                                             or : 1.2140E-01 [erg/cm2/s]
 That variable "errorgaupin" is:           93

 MAIN : Total energy deposition in [CO2] is 4.831E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 5.933E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 4.105E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 1.049E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 3.557E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 1.873E+00 [eV.cm-2.s-1] ("shsum").
  7.30785408E+08           2          21
  7.82265536E+08           2          23

 Total Heating :  2.585E+05 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  1.5081826E-03
 entot depart   258548.64       258548.64    
 shsum :  3.70314138E+09  4.83121521E+10  4.83118940E+10  4.83118940E+10
 shsum :  3.76025651E+09  5.42454866E+10  5.93333299E+09  5.42452285E+10
 shsum :  3.79048832E+09  5.83502520E+10  4.10476646E+09  5.83499940E+10
 shsum :  4.04206413E+09  6.88378839E+10  1.04876360E+10  6.88376300E+10
 shsum :  4.04206413E+09  6.88378839E+10   35.573685      6.88376300E+10
 shsum :  4.04206413E+09  6.88378839E+10   1.8734628      6.88376300E+10
 fin  6.88378839E+10  4.04206413E+09   18.745640    
   17.030378    
   16.626905       18.745640    
 ezero   0.0000000    
  6.88378839E+10
   2.1523616    

Total energy input of :7.577E+10 eV.cm-2.s-1 (qtoteV)
             of which 8.564E+09 is reflected (qsump)
                  and 6.884E+10 is absorbed (entot) 
                         through inelastic collisions (shsum =6.884E+10)
                                           + heating (elhsum =2.585E+05)
 This refers to an energy gain of   2.15 %


 The average E. loss per ion pair is :  18.75 eV (from qtoteV)
                                  or :  17.03 eV (from (entot))
                                  or :  16.63 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 : 7.3456E+10 [eV/cm2/s]
                                                             or : 1.1769E-01 [erg/cm2/s]
 That variable "errorgaupin" is:           76

 MAIN : Total energy deposition in [CO2] is 4.653E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 5.764E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 3.997E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 1.026E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 3.469E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 1.830E+00 [eV.cm-2.s-1] ("shsum").
  7.61451648E+08           2          21
  8.19532096E+08           2          23

 Total Heating :  2.490E+05 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  1.4733620E-03
 entot depart   249035.92       249035.92    
 shsum :  3.58424960E+09  4.65318912E+10  4.65316413E+10  4.65316413E+10
 shsum :  3.64004608E+09  5.22961101E+10  5.76421888E+09  5.22958602E+10
 shsum :  3.66967987E+09  5.62926674E+10  3.99655578E+09  5.62924175E+10
 shsum :  3.91643494E+09  6.65499116E+10  1.02572452E+10  6.65496617E+10
 shsum :  3.91643494E+09  6.65499116E+10   34.689293      6.65496617E+10
 shsum :  3.91643494E+09  6.65499116E+10   1.8303418      6.65496617E+10
 fin  6.65499116E+10  3.91643494E+09   18.755936    
   16.992472    
   16.590288       18.755936    
 ezero   0.0000000    
  6.65499116E+10
   2.1443048    

Total energy input of :7.346E+10 eV.cm-2.s-1 (qtoteV)
             of which 8.482E+09 is reflected (qsump)
                  and 6.655E+10 is absorbed (entot) 
                         through inelastic collisions (shsum =6.655E+10)
                                           + heating (elhsum =2.490E+05)
 This refers to an energy gain of   2.14 %


 The average E. loss per ion pair is :  18.76 eV (from qtoteV)
                                  or :  16.99 eV (from (entot))
                                  or :  16.59 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 : 6.9069E+10 [eV/cm2/s]
                                                             or : 1.1066E-01 [erg/cm2/s]
 That variable "errorgaupin" is:           92

 MAIN : Total energy deposition in [CO2] is 4.315E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 5.440E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 3.786E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 9.862E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 3.392E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 1.808E+00 [eV.cm-2.s-1] ("shsum").
  7.20899456E+08           2          21
  7.74542976E+08           2          23

 Total Heating :  2.379E+05 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  1.4046764E-03
 entot depart   237921.78       237921.78    
 shsum :  3.36133581E+09  4.31497462E+10  4.31495086E+10  4.31495086E+10
 shsum :  3.41453107E+09  4.85894021E+10  5.43965491E+09  4.85891645E+10
 shsum :  3.44296038E+09  5.23752202E+10  3.78581990E+09  5.23749827E+10
 shsum :  3.68167245E+09  6.22367908E+10  9.86156954E+09  6.22365532E+10
 shsum :  3.68167245E+09  6.22367908E+10   33.923622      6.22365532E+10
 shsum :  3.68167245E+09  6.22367908E+10   1.8082006      6.22365532E+10
 fin  6.22367908E+10  3.68167245E+09   18.760353    
   16.904490    
   16.495071       18.760353    
 ezero   0.0000000    
  6.22367908E+10
   2.1823537    

Total energy input of :6.907E+10 eV.cm-2.s-1 (qtoteV)
             of which 8.340E+09 is reflected (qsump)
                  and 6.224E+10 is absorbed (entot) 
                         through inelastic collisions (shsum =6.224E+10)
                                           + heating (elhsum =2.379E+05)
 This refers to an energy gain of   2.18 %


 The average E. loss per ion pair is :  18.76 eV (from qtoteV)
                                  or :  16.90 eV (from (entot))
                                  or :  16.50 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 : 6.4405E+10 [eV/cm2/s]
                                                             or : 1.0319E-01 [erg/cm2/s]
 That variable "errorgaupin" is:           90

 MAIN : Total energy deposition in [CO2] is 3.959E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 5.087E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 3.558E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 9.421E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 3.308E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 1.784E+00 [eV.cm-2.s-1] ("shsum").
  6.76649344E+08           2          21
  7.25494848E+08           2          23

 Total Heating :  2.257E+05 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  1.3290534E-03
 entot depart   225661.73       225661.73    
 shsum :  3.12491059E+09  3.95941847E+10  3.95939594E+10  3.95939594E+10
 shsum :  3.17524198E+09  4.46807491E+10  5.08656333E+09  4.46805238E+10
 shsum :  3.20235059E+09  4.82386002E+10  3.55785114E+09  4.82383749E+10
 shsum :  3.43203098E+09  5.76597852E+10  9.42118502E+09  5.76595599E+10
 shsum :  3.43203098E+09  5.76597852E+10   33.078846      5.76595599E+10
 shsum :  3.43203098E+09  5.76597852E+10   1.7836220      5.76595599E+10
 fin  5.76597852E+10  3.43203098E+09   18.765724    
   16.800486    
   16.382839       18.765724    
 ezero   0.0000000    
  5.76597852E+10
   2.2255800    

Total energy input of :6.440E+10 eV.cm-2.s-1 (qtoteV)
             of which 8.178E+09 is reflected (qsump)
                  and 5.766E+10 is absorbed (entot) 
                         through inelastic collisions (shsum =5.766E+10)
                                           + heating (elhsum =2.257E+05)
 This refers to an energy gain of   2.23 %


 The average E. loss per ion pair is :  18.77 eV (from qtoteV)
                                  or :  16.80 eV (from (entot))
                                  or :  16.38 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 : 5.9525E+10 [eV/cm2/s]
                                                             or : 9.5371E-02 [erg/cm2/s]
 That variable "errorgaupin" is:           92

 MAIN : Total energy deposition in [CO2] is 3.591E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 4.714E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 3.314E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 8.942E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 3.215E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 1.756E+00 [eV.cm-2.s-1] ("shsum").
  6.30508480E+08           2          21
  6.74520192E+08           2          23

 Total Heating :  2.124E+05 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  1.2484228E-03
 entot depart   212368.81       212368.81    
 shsum :  2.87832448E+09  3.59144571E+10  3.59142441E+10  3.59142441E+10
 shsum :  2.92560256E+09  4.06287360E+10  4.71427942E+09  4.06285230E+10
 shsum :  2.95127706E+09  4.39426089E+10  3.31387418E+09  4.39423959E+10
 shsum :  3.17103718E+09  5.28844472E+10  8.94183834E+09  5.28842342E+10
 shsum :  3.17103718E+09  5.28844472E+10   32.153549      5.28842342E+10
 shsum :  3.17103718E+09  5.28844472E+10   1.7562373      5.28842342E+10
 fin  5.28844472E+10  3.17103718E+09   18.771416    
   16.677334    
   16.250427       18.771416    
 ezero   0.0000000    
  5.28844472E+10
   2.2742369    

Total energy input of :5.952E+10 eV.cm-2.s-1 (qtoteV)
             of which 7.994E+09 is reflected (qsump)
                  and 5.288E+10 is absorbed (entot) 
                         through inelastic collisions (shsum =5.288E+10)
                                           + heating (elhsum =2.124E+05)
 This refers to an energy gain of   2.27 %


 The average E. loss per ion pair is :  18.77 eV (from qtoteV)
                                  or :  16.68 eV (from (entot))
                                  or :  16.25 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 : 5.0775E+10 [eV/cm2/s]
                                                             or : 8.1352E-02 [erg/cm2/s]
 That variable "errorgaupin" is:           96

 MAIN : Total energy deposition in [CO2] is 2.949E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 4.034E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 2.862E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 7.984E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 2.946E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 1.647E+00 [eV.cm-2.s-1] ("shsum").
  5.99738368E+08           2          21
  6.44701504E+08           2          23

 Total Heating :  1.817E+05 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  1.0993793E-03
 entot depart   181703.13       181703.13    
 shsum :  2.43520614E+09  2.94927012E+10  2.94925189E+10  2.94925189E+10
 shsum :  2.47683994E+09  3.35269171E+10  4.03421568E+09  3.35267348E+10
 shsum :  2.49980544E+09  3.63886060E+10  2.86168986E+09  3.63884257E+10
 shsum :  2.69921638E+09  4.43721155E+10  7.98351053E+09  4.43719352E+10
 shsum :  2.69921638E+09  4.43721155E+10   29.457546      4.43719352E+10
 shsum :  2.69921638E+09  4.43721155E+10   1.6466011      4.43719352E+10
 fin  4.43721155E+10  2.69921638E+09   18.811121    
   16.438889    
   16.000412       18.811121    
 ezero   0.0000000    
  4.43721155E+10
   2.3309436    

Total energy input of :5.078E+10 eV.cm-2.s-1 (qtoteV)
             of which 7.587E+09 is reflected (qsump)
                  and 4.437E+10 is absorbed (entot) 
                         through inelastic collisions (shsum =4.437E+10)
                                           + heating (elhsum =1.817E+05)
 This refers to an energy gain of   2.33 %


 The average E. loss per ion pair is :  18.81 eV (from qtoteV)
                                  or :  16.44 eV (from (entot))
                                  or :  16.00 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 : 4.8740E+10 [eV/cm2/s]
                                                             or : 7.8091E-02 [erg/cm2/s]
 That variable "errorgaupin" is:           94

 MAIN : Total energy deposition in [CO2] is 2.801E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 3.874E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 2.754E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 7.764E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 2.906E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 1.636E+00 [eV.cm-2.s-1] ("shsum").
  5.72898688E+08           2          21
  6.14802688E+08           2          23

 Total Heating :  1.761E+05 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  1.0633472E-03
 entot depart   176110.98       176110.98    
 shsum :  2.33367398E+09  2.80061706E+10  2.80059945E+10  2.80059945E+10
 shsum :  2.37394304E+09  3.18805709E+10  3.87440102E+09  3.18803948E+10
 shsum :  2.39624166E+09  3.46346004E+10  2.75402803E+09  3.46344243E+10
 shsum :  2.59100928E+09  4.23988429E+10  7.76424346E+09  4.23986668E+10
 shsum :  2.59100928E+09  4.23988429E+10   29.060759      4.23986668E+10
 shsum :  2.59100928E+09  4.23988429E+10   1.6357298      4.23986668E+10
 fin  4.23988429E+10  2.59100928E+09   18.811213    
   16.363832    
   15.920188       18.811213    
 ezero   0.0000000    
  4.23988429E+10
   2.3584089    

Total energy input of :4.874E+10 eV.cm-2.s-1 (qtoteV)
             of which 7.491E+09 is reflected (qsump)
                  and 4.240E+10 is absorbed (entot) 
                         through inelastic collisions (shsum =4.240E+10)
                                           + heating (elhsum =1.761E+05)
 This refers to an energy gain of   2.36 %


 The average E. loss per ion pair is :  18.81 eV (from qtoteV)
                                  or :  16.36 eV (from (entot))
                                  or :  15.92 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 : 4.6564E+10 [eV/cm2/s]
                                                             or : 7.4604E-02 [erg/cm2/s]
 That variable "errorgaupin" is:           93

 MAIN : Total energy deposition in [CO2] is 2.643E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 3.701E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 2.638E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 7.523E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 2.864E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 1.624E+00 [eV.cm-2.s-1] ("shsum").
  5.44244160E+08           2          21
  5.82899456E+08           2          23

 Total Heating :  1.701E+05 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  1.0239270E-03
 entot depart   170068.58       170068.58    
 shsum :  2.22543462E+09  2.64293089E+10  2.64291389E+10  2.64291389E+10
 shsum :  2.26421094E+09  3.01305078E+10  3.70119936E+09  3.01303378E+10
 shsum :  2.28578586E+09  3.27688540E+10  2.63834624E+09  3.27686840E+10
 shsum :  2.47541914E+09  4.02922619E+10  7.52340634E+09  4.02920899E+10
 shsum :  2.47541914E+09  4.02922619E+10   28.639809      4.02920899E+10
 shsum :  2.47541914E+09  4.02922619E+10   1.6244215      4.02920899E+10
 fin  4.02922619E+10  2.47541914E+09   18.810432    
   16.276945    
   15.827456       18.810432    
 ezero   0.0000000    
  4.02922619E+10
   2.3895743    

Total energy input of :4.656E+10 eV.cm-2.s-1 (qtoteV)
             of which 7.384E+09 is reflected (qsump)
                  and 4.029E+10 is absorbed (entot) 
                         through inelastic collisions (shsum =4.029E+10)
                                           + heating (elhsum =1.701E+05)
 This refers to an energy gain of   2.39 %


 The average E. loss per ion pair is :  18.81 eV (from qtoteV)
                                  or :  16.28 eV (from (entot))
                                  or :  15.83 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 : 4.4281E+10 [eV/cm2/s]
                                                             or : 7.0948E-02 [erg/cm2/s]
 That variable "errorgaupin" is:           89

 MAIN : Total energy deposition in [CO2] is 2.479E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 3.519E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 2.515E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 7.264E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 2.820E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 1.612E+00 [eV.cm-2.s-1] ("shsum").
  5.15117248E+08           2          21
  5.50553088E+08           2          23

 Total Heating :  1.637E+05 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  9.8212087E-04
 entot depart   163650.02       163650.02    
 shsum :  2.11229798E+09  2.47882097E+10  2.47880458E+10  2.47880458E+10
 shsum :  2.14949120E+09  2.83074376E+10  3.51922790E+09  2.83072737E+10
 shsum :  2.17028762E+09  3.08227482E+10  2.51530957E+09  3.08225843E+10
 shsum :  2.35435904E+09  3.80871844E+10  7.26443520E+09  3.80870205E+10
 shsum :  2.35435904E+09  3.80871844E+10   28.195450      3.80870205E+10
 shsum :  2.35435904E+09  3.80871844E+10   1.6124926      3.80870205E+10
 fin  3.80871844E+10  2.35435904E+09   18.808285    
   16.177305    
   15.721534       18.808285    
 ezero   0.0000000    
  3.80871844E+10
   2.4232483    

Total energy input of :4.428E+10 eV.cm-2.s-1 (qtoteV)
             of which 7.267E+09 is reflected (qsump)
                  and 3.809E+10 is absorbed (entot) 
                         through inelastic collisions (shsum =3.809E+10)
                                           + heating (elhsum =1.637E+05)
 This refers to an energy gain of   2.42 %


 The average E. loss per ion pair is :  18.81 eV (from qtoteV)
                                  or :  16.18 eV (from (entot))
                                  or :  15.72 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 : 3.1073E+10 [eV/cm2/s]
                                                             or : 4.9785E-02 [erg/cm2/s]
 That variable "errorgaupin" is:           96

 MAIN : Total energy deposition in [CO2] is 1.579E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 2.439E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 1.767E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 5.527E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 2.319E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 1.404E+00 [eV.cm-2.s-1] ("shsum").
  4.12154912E+08           2          21
  4.42065088E+08           2          23

 Total Heating :  1.134E+05 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  7.2715798E-04
 entot depart   113432.80       113432.80    
 shsum :  1.45333248E+09  1.57937285E+10  1.57936148E+10  1.57936148E+10
 shsum :  1.48087014E+09  1.82331269E+10  2.43939891E+09  1.82330143E+10
 shsum :  1.49672550E+09  2.00003420E+10  1.76721498E+09  2.00002294E+10
 shsum :  1.64208896E+09  2.55277875E+10  5.52744653E+09  2.55276769E+10
 shsum :  1.64208896E+09  2.55277875E+10   23.186104      2.55276769E+10
 shsum :  1.64208896E+09  2.55277875E+10   1.4035820      2.55276769E+10
 fin  2.55277875E+10  1.64208896E+09   18.922813    
   15.545922    
   15.060046       18.922813    
 ezero   0.0000000    
  2.55277875E+10
   2.5676732    

Total energy input of :3.107E+10 eV.cm-2.s-1 (qtoteV)
             of which 6.343E+09 is reflected (qsump)
                  and 2.553E+10 is absorbed (entot) 
                         through inelastic collisions (shsum =2.553E+10)
                                           + heating (elhsum =1.134E+05)
 This refers to an energy gain of   2.57 %


 The average E. loss per ion pair is :  18.92 eV (from qtoteV)
                                  or :  15.55 eV (from (entot))
                                  or :  15.06 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 : 3.0987E+10 [eV/cm2/s]
                                                             or : 4.9648E-02 [erg/cm2/s]
 That variable "errorgaupin" is:           96

 MAIN : Total energy deposition in [CO2] is 1.572E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 2.433E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 1.763E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 5.525E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 2.332E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 1.413E+00 [eV.cm-2.s-1] ("shsum").
  4.04739072E+08           2          21
  4.33473696E+08           2          23

 Total Heating :  1.140E+05 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  7.2532025E-04
 entot depart   113961.70       113961.70    
 shsum :  1.45012275E+09  1.57192858E+10  1.57191721E+10  1.57191721E+10
 shsum :  1.47759078E+09  1.81522350E+10  2.43294950E+09  1.81521224E+10
 shsum :  1.49341133E+09  1.99149855E+10  1.76274957E+09  1.99148728E+10
 shsum :  1.63875456E+09  2.54400184E+10  5.52503398E+09  2.54399078E+10
 shsum :  1.63875456E+09  2.54400184E+10   23.323967      2.54399078E+10
 shsum :  1.63875456E+09  2.54400184E+10   1.4125330      2.54399078E+10
 fin  2.54400184E+10  1.63875456E+09   18.909010    
   15.523995    
   15.037019       18.909010    
 ezero   0.0000000    
  2.54400184E+10
   2.5753708    

Total energy input of :3.099E+10 eV.cm-2.s-1 (qtoteV)
             of which 6.345E+09 is reflected (qsump)
                  and 2.544E+10 is absorbed (entot) 
                         through inelastic collisions (shsum =2.544E+10)
                                           + heating (elhsum =1.140E+05)
 This refers to an energy gain of   2.58 %


 The average E. loss per ion pair is :  18.91 eV (from qtoteV)
                                  or :  15.52 eV (from (entot))
                                  or :  15.04 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 : 3.0888E+10 [eV/cm2/s]
                                                             or : 4.9488E-02 [erg/cm2/s]
 That variable "errorgaupin" is:           93

 MAIN : Total energy deposition in [CO2] is 1.563E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 2.425E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 1.758E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 5.522E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 2.349E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 1.423E+00 [eV.cm-2.s-1] ("shsum").
  3.96923168E+08           2          21
  4.24391328E+08           2          23

 Total Heating :  1.146E+05 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  7.2307291E-04
 entot depart   114628.85       114628.85    
 shsum :  1.44650534E+09  1.56318259E+10  1.56317112E+10  1.56317112E+10
 shsum :  1.47388826E+09  1.80569395E+10  2.42511437E+09  1.80568248E+10
 shsum :  1.48967603E+09  1.98154281E+10  1.75848832E+09  1.98153134E+10
 shsum :  1.63499238E+09  2.53376614E+10  5.52223283E+09  2.53375468E+10
 shsum :  1.63499238E+09  2.53376614E+10   23.493778      2.53375468E+10
 shsum :  1.63499238E+09  2.53376614E+10   1.4233811      2.53375468E+10
 fin  2.53376614E+10  1.63499238E+09   18.891634    
   15.497113    
   15.008903       18.891634    
 ezero   0.0000000    
  2.53376614E+10
   2.5842679    

Total energy input of :3.089E+10 eV.cm-2.s-1 (qtoteV)
             of which 6.348E+09 is reflected (qsump)
                  and 2.534E+10 is absorbed (entot) 
                         through inelastic collisions (shsum =2.534E+10)
                                           + heating (elhsum =1.146E+05)
 This refers to an energy gain of   2.58 %


 The average E. loss per ion pair is :  18.89 eV (from qtoteV)
                                  or :  15.50 eV (from (entot))
                                  or :  15.01 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 : 3.0783E+10 [eV/cm2/s]
                                                             or : 4.9320E-02 [erg/cm2/s]
 That variable "errorgaupin" is:           83

 MAIN : Total energy deposition in [CO2] is 1.554E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 2.417E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 1.753E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 5.518E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 2.369E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 1.435E+00 [eV.cm-2.s-1] ("shsum").
  3.89293536E+08           2          21
  4.15491008E+08           2          23

 Total Heating :  1.154E+05 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  7.2078360E-04
 entot depart   115387.89       115387.89    
 shsum :  1.44281907E+09  1.55396291E+10  1.55395133E+10  1.55395133E+10
 shsum :  1.47011533E+09  1.79569582E+10  2.41732992E+09  1.79568435E+10
 shsum :  1.48586330E+09  1.97103985E+10  1.75344038E+09  1.97102838E+10
 shsum :  1.63112013E+09  2.52286853E+10  5.51828582E+09  2.52285706E+10
 shsum :  1.63112013E+09  2.52286853E+10   23.685854      2.52285706E+10
 shsum :  1.63112013E+09  2.52286853E+10   1.4354609      2.52285706E+10
 fin  2.52286853E+10  1.63112013E+09   18.872063    
   15.467093    
   14.977740       18.872063    
 ezero   0.0000000    
  2.52286853E+10
   2.5929959    

Total energy input of :3.078E+10 eV.cm-2.s-1 (qtoteV)
             of which 6.352E+09 is reflected (qsump)
                  and 2.523E+10 is absorbed (entot) 
                         through inelastic collisions (shsum =2.523E+10)
                                           + heating (elhsum =1.154E+05)
 This refers to an energy gain of   2.59 %


 The average E. loss per ion pair is :  18.87 eV (from qtoteV)
                                  or :  15.47 eV (from (entot))
                                  or :  14.98 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 : 1.5917E+10 [eV/cm2/s]
                                                             or : 2.5503E-02 [erg/cm2/s]
 That variable "errorgaupin" is:           89

 MAIN : Total energy deposition in [CO2] is 6.521E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 1.168E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 8.535E+08 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 3.138E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 1.596E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 1.079E+00 [eV.cm-2.s-1] ("shsum").
  2.23992288E+08           2          21
  2.39238272E+08           2          23

 Total Heating :  5.478E+04 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  3.9255540E-04
 entot depart   54775.504       54775.504    
 shsum :  7.17986560E+08  6.52080794E+09  6.52075315E+09  6.52075315E+09
 shsum :  7.32852736E+08  7.68899123E+09  1.16818342E+09  7.68893645E+09
 shsum :  7.41773696E+08  8.54245376E+09  8.53462336E+08  8.54239898E+09
 shsum :  8.30136768E+08  1.16801997E+10  3.13774566E+09  1.16801444E+10
 shsum :  8.30136768E+08  1.16801997E+10   15.960318      1.16801444E+10
 shsum :  8.30136768E+08  1.16801997E+10   1.0785329      1.16801444E+10
 fin  1.16801997E+10  8.30136768E+08   19.174509    
   14.070211    
   13.532506       19.174509    
 ezero   0.0000000    
  1.16801997E+10
   2.8042705    

Total energy input of :1.592E+10 eV.cm-2.s-1 (qtoteV)
             of which 4.684E+09 is reflected (qsump)
                  and 1.168E+10 is absorbed (entot) 
                         through inelastic collisions (shsum =1.168E+10)
                                           + heating (elhsum =5.478E+04)
 This refers to an energy gain of   2.80 %


 The average E. loss per ion pair is :  19.17 eV (from qtoteV)
                                  or :  14.07 eV (from (entot))
                                  or :  13.53 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 : 1.7026E+10 [eV/cm2/s]
                                                             or : 2.7279E-02 [erg/cm2/s]
 That variable "errorgaupin" is:           91

 MAIN : Total energy deposition in [CO2] is 7.120E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 1.261E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 9.220E+08 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 3.341E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 1.679E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 1.121E+00 [eV.cm-2.s-1] ("shsum").
  2.36031280E+08           2          21
  2.51912240E+08           2          23

 Total Heating :  5.974E+04 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  4.1877356E-04
 entot depart   59744.801       59744.801    
 shsum :  7.71830976E+08  7.12009165E+09  7.12003174E+09  7.12003174E+09
 shsum :  7.87689984E+08  8.38151475E+09  1.26142323E+09  8.38145485E+09
 shsum :  7.97180032E+08  9.30352128E+09  9.22006336E+08  9.30346086E+09
 shsum :  8.90657920E+08  1.26449951E+10  3.34147405E+09  1.26449347E+10
 shsum :  8.90657920E+08  1.26449951E+10   16.785862      1.26449347E+10
 shsum :  8.90657920E+08  1.26449951E+10   1.1212990      1.26449347E+10
 fin  1.26449951E+10  8.90657920E+08   19.115896    
   14.197365    
   13.663703       19.115896    
 ezero   0.0000000    
  1.26449951E+10
   2.7917173    

Total energy input of :1.703E+10 eV.cm-2.s-1 (qtoteV)
             of which 4.856E+09 is reflected (qsump)
                  and 1.264E+10 is absorbed (entot) 
                         through inelastic collisions (shsum =1.264E+10)
                                           + heating (elhsum =5.974E+04)
 This refers to an energy gain of   2.79 %


 The average E. loss per ion pair is :  19.12 eV (from qtoteV)
                                  or :  14.20 eV (from (entot))
                                  or :  13.66 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 : 1.8267E+10 [eV/cm2/s]
                                                             or : 2.9267E-02 [erg/cm2/s]
 That variable "errorgaupin" is:           91

 MAIN : Total energy deposition in [CO2] is 7.803E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 1.366E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 9.994E+08 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 3.566E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 1.770E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 1.168E+00 [eV.cm-2.s-1] ("shsum").
  2.48939712E+08           2          21
  2.65424000E+08           2          23

 Total Heating :  6.546E+04 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  4.4768245E-04
 entot depart   65455.391       65455.391    
 shsum :  8.32527872E+08  7.80272435E+09  7.80265882E+09  7.80265882E+09
 shsum :  8.49481664E+08  9.16880691E+09  1.36608230E+09  9.16874138E+09
 shsum :  8.59601728E+08  1.01682176E+10  9.99410176E+08  1.01681521E+10
 shsum :  9.58664512E+08  1.37344307E+10  3.56621261E+09  1.37343652E+10
 shsum :  9.58664512E+08  1.37344307E+10   17.697458      1.37343652E+10
 shsum :  9.58664512E+08  1.37344307E+10   1.1679265      1.37343652E+10
 fin  1.37344307E+10  9.58664512E+08   19.054478    
   14.326629    
   13.797565       19.054478    
 ezero   0.0000000    
  1.37344307E+10
   2.7765892    

Total energy input of :1.827E+10 eV.cm-2.s-1 (qtoteV)
             of which 5.040E+09 is reflected (qsump)
                  and 1.373E+10 is absorbed (entot) 
                         through inelastic collisions (shsum =1.373E+10)
                                           + heating (elhsum =6.546E+04)
 This refers to an energy gain of   2.78 %


 The average E. loss per ion pair is :  19.05 eV (from qtoteV)
                                  or :  14.33 eV (from (entot))
                                  or :  13.80 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 : 1.9641E+10 [eV/cm2/s]
                                                             or : 3.1469E-02 [erg/cm2/s]
 That variable "errorgaupin" is:           99

 MAIN : Total energy deposition in [CO2] is 8.575E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 1.483E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 1.085E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 3.809E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 1.867E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 1.217E+00 [eV.cm-2.s-1] ("shsum").
  2.62803376E+08           2          21
  2.79885440E+08           2          23

 Total Heating :  7.185E+04 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  4.7933217E-04
 entot depart   71854.563       71854.563    
 shsum :  9.00089088E+08  8.57541632E+09  8.57534464E+09  8.57534464E+09
 shsum :  9.18241472E+08  1.00580547E+10  1.48263872E+09  1.00579830E+10
 shsum :  9.29040320E+08  1.11427881E+10  1.08473344E+09  1.11427164E+10
 shsum :  1.03406682E+09  1.49517926E+10  3.80900506E+09  1.49517210E+10
 shsum :  1.03406682E+09  1.49517926E+10   18.673220      1.49517210E+10
 shsum :  1.03406682E+09  1.49517926E+10   1.2169595      1.49517210E+10
 fin  1.49517926E+10  1.03406682E+09   18.994165    
   14.459213    
   13.935206       18.994165    
 ezero   0.0000000    
  1.49517926E+10
   2.7587767    

Total energy input of :1.964E+10 eV.cm-2.s-1 (qtoteV)
             of which 5.231E+09 is reflected (qsump)
                  and 1.495E+10 is absorbed (entot) 
                         through inelastic collisions (shsum =1.495E+10)
                                           + heating (elhsum =7.185E+04)
 This refers to an energy gain of   2.76 %


 The average E. loss per ion pair is :  18.99 eV (from qtoteV)
                                  or :  14.46 eV (from (entot))
                                  or :  13.94 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 : 6.2883E+09 [eV/cm2/s]
                                                             or : 1.0075E-02 [erg/cm2/s]
 That variable "errorgaupin" is:           84

 MAIN : Total energy deposition in [CO2] is 1.806E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 3.859E+08 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 2.786E+08 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 1.268E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 8.520E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 6.623E-01 [eV.cm-2.s-1] ("shsum").
   82268424.               2          21
   87062488.               2          23

 Total Heating :  1.772E+04 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  1.4835742E-04
 entot depart   17722.641       17722.641    
 shsum :  2.70395680E+08  1.80587840E+09  1.80586074E+09  1.80586074E+09
 shsum :  2.76014016E+08  2.19180160E+09  3.85923104E+08  2.19178394E+09
 shsum :  2.79500160E+08  2.47042227E+09  2.78620608E+08  2.47040461E+09
 shsum :  3.18176096E+08  3.73890304E+09  1.26848077E+09  3.73888538E+09
 shsum :  3.18176096E+08  3.73890304E+09   8.5198298      3.73888538E+09
 shsum :  3.18176096E+08  3.73890304E+09  0.66225088      3.73888538E+09
 fin  3.73890304E+09  3.18176096E+08   19.763487    
   11.751049    
   11.187181       19.763487    
 ezero   0.0000000    
  3.73890304E+09
   2.8530810    

Total energy input of :6.288E+09 eV.cm-2.s-1 (qtoteV)
             of which 2.729E+09 is reflected (qsump)
                  and 3.739E+09 is absorbed (entot) 
                         through inelastic collisions (shsum =3.739E+09)
                                           + heating (elhsum =1.772E+04)
 This refers to an energy gain of   2.85 %


 The average E. loss per ion pair is :  19.76 eV (from qtoteV)
                                  or :  11.75 eV (from (entot))
                                  or :  11.19 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 : 7.6226E+09 [eV/cm2/s]
                                                             or : 1.2213E-02 [erg/cm2/s]
 That variable "errorgaupin" is:           84

 MAIN : Total energy deposition in [CO2] is 2.350E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 4.880E+08 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 3.539E+08 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 1.551E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 9.946E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 7.517E-01 [eV.cm-2.s-1] ("shsum").
  1.01342296E+08           2          21
  1.07404832E+08           2          23

 Total Heating :  2.282E+04 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  1.8304569E-04
 entot depart   22818.385       22818.385    
 shsum :  3.31666016E+08  2.34979021E+09  2.34976742E+09  2.34976742E+09
 shsum :  3.38597984E+08  2.83782451E+09  4.88034240E+08  2.83780173E+09
 shsum :  3.42882272E+08  3.19172736E+09  3.53902816E+08  3.19170458E+09
 shsum :  3.89482496E+08  4.74232781E+09  1.55060032E+09  4.74230477E+09
 shsum :  3.89482496E+08  4.74232781E+09   9.9455748      4.74230477E+09
 shsum :  3.89482496E+08  4.74232781E+09  0.75168759      4.74230477E+09
 fin  4.74232781E+09  3.89482496E+08   19.571125    
   12.175972    
   11.614698       19.571125    
 ezero   0.0000000    
  4.74232781E+09
   2.8678634    

Total energy input of :7.623E+09 eV.cm-2.s-1 (qtoteV)
             of which 3.099E+09 is reflected (qsump)
                  and 4.742E+09 is absorbed (entot) 
                         through inelastic collisions (shsum =4.742E+09)
                                           + heating (elhsum =2.282E+04)
 This refers to an energy gain of   2.87 %


 The average E. loss per ion pair is :  19.57 eV (from qtoteV)
                                  or :  12.18 eV (from (entot))
                                  or :  11.61 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 : 9.2568E+09 [eV/cm2/s]
                                                             or : 1.4831E-02 [erg/cm2/s]
 That variable "errorgaupin" is:           85

 MAIN : Total energy deposition in [CO2] is 3.065E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 6.172E+08 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 4.495E+08 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 1.890E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 1.156E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 8.483E-01 [eV.cm-2.s-1] ("shsum").
  1.24191056E+08           2          21
  1.31739464E+08           2          23

 Total Heating :  2.940E+04 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  2.2528809E-04
 entot depart   29403.199       29403.199    
 shsum :  4.07600096E+08  3.06515430E+09  3.06512486E+09  3.06512486E+09
 shsum :  4.16131808E+08  3.68238899E+09  6.17234560E+08  3.68235930E+09
 shsum :  4.21380096E+08  4.13189888E+09  4.49509952E+08  4.13186918E+09
 shsum :  4.77282464E+08  6.02160333E+09  1.88970470E+09  6.02157363E+09
 shsum :  4.77282464E+08  6.02160333E+09   11.559464      6.02157363E+09
 shsum :  4.77282464E+08  6.02160333E+09  0.84827864      6.02157363E+09
 fin  6.02160333E+09  4.77282464E+08   19.394897    
   12.616435    
   12.059739       19.394897    
 ezero   0.0000000    
  6.02160333E+09
   2.8703234    

Total energy input of :9.257E+09 eV.cm-2.s-1 (qtoteV)
             of which 3.501E+09 is reflected (qsump)
                  and 6.022E+09 is absorbed (entot) 
                         through inelastic collisions (shsum =6.022E+09)
                                           + heating (elhsum =2.940E+04)
 This refers to an energy gain of   2.87 %


 The average E. loss per ion pair is :  19.39 eV (from qtoteV)
                                  or :  12.62 eV (from (entot))
                                  or :  12.06 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 : 1.1219E+10 [eV/cm2/s]
                                                             or : 1.7975E-02 [erg/cm2/s]
 That variable "errorgaupin" is:           80

 MAIN : Total energy deposition in [CO2] is 3.985E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 7.767E+08 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 5.675E+08 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 2.285E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 1.333E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 9.490E-01 [eV.cm-2.s-1] ("shsum").
  1.50797248E+08           2          21
  1.60032048E+08           2          23

 Total Heating :  3.766E+04 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  2.7535777E-04
 entot depart   37659.109       37659.109    
 shsum :  4.99857024E+08  3.98516224E+09  3.98512461E+09  3.98512461E+09
 shsum :  5.10284864E+08  4.76190669E+09  7.76744384E+08  4.76186880E+09
 shsum :  5.16660864E+08  5.32939930E+09  5.67492544E+08  5.32936141E+09
 shsum :  5.83146304E+08  7.61483418E+09  2.28543488E+09  7.61479629E+09
 shsum :  5.83146304E+08  7.61483418E+09   13.328281      7.61479629E+09
 shsum :  5.83146304E+08  7.61483418E+09  0.94900972      7.61479629E+09
 fin  7.61483418E+09  5.83146304E+08   19.238523    
   13.058188    
   12.508023       19.238523    
 ezero   0.0000000    
  7.61483418E+09
   2.8597019    

Total energy input of :1.122E+10 eV.cm-2.s-1 (qtoteV)
             of which 3.925E+09 is reflected (qsump)
                  and 7.615E+09 is absorbed (entot) 
                         through inelastic collisions (shsum =7.615E+09)
                                           + heating (elhsum =3.766E+04)
 This refers to an energy gain of   2.86 %


 The average E. loss per ion pair is :  19.24 eV (from qtoteV)
                                  or :  13.06 eV (from (entot))
                                  or :  12.51 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 : 1.7337E+09 [eV/cm2/s]
                                                             or : 2.7777E-03 [erg/cm2/s]
 That variable "errorgaupin" is:           99

 MAIN : Total energy deposition in [CO2] is 3.147E+08 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 7.906E+07 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 5.569E+07 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 3.102E+08 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 2.860E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 2.563E-01 [eV.cm-2.s-1] ("shsum").
   17053254.               2          21
   17774610.               2          23

 Total Heating :  3.498E+03 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  3.3581942E-05
 entot depart   3497.6831       3497.6831    
 shsum :   69640240.      3.14674784E+08  3.14671296E+08  3.14671296E+08
 shsum :   70911992.      3.93735232E+08   79060464.      3.93731776E+08
 shsum :   71711128.      4.49427744E+08   55692520.      4.49424288E+08
 shsum :   81811112.      7.59606016E+08  3.10178304E+08  7.59602560E+08
 shsum :   81811112.      7.59606016E+08   2.8603187      7.59602560E+08
 shsum :   81811112.      7.59606016E+08  0.25629577      7.59602560E+08
 fin  7.59606016E+08   81811112.       21.191334    
   9.2848759    
   8.7359552       21.191334    
 ezero   0.0000000    
  7.59606016E+08
   2.5903091    

Total energy input of :1.734E+09 eV.cm-2.s-1 (qtoteV)
             of which 1.019E+09 is reflected (qsump)
                  and 7.596E+08 is absorbed (entot) 
                         through inelastic collisions (shsum =7.596E+08)
                                           + heating (elhsum =3.498E+03)
 This refers to an energy gain of   2.59 %


 The average E. loss per ion pair is :  21.19 eV (from qtoteV)
                                  or :   9.28 eV (from (entot))
                                  or :   8.74 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 : 2.6203E+09 [eV/cm2/s]
                                                             or : 4.1982E-03 [erg/cm2/s]
 That variable "errorgaupin" is:           95

 MAIN : Total energy deposition in [CO2] is 5.339E+08 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 1.301E+08 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 9.248E+07 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 4.925E+08 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 4.221E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 3.626E-01 [eV.cm-2.s-1] ("shsum").
   28394938.               2          21
   29686604.               2          23

 Total Heating :  5.922E+03 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  5.3884629E-05
 entot depart   5922.0723       5922.0723    
 shsum :  1.08277192E+08  5.33865024E+08  5.33859104E+08  5.33859104E+08
 shsum :  1.10317816E+08  6.63960960E+08  1.30095904E+08  6.63955008E+08
 shsum :  1.11601128E+08  7.56441472E+08   92480480.      7.56435456E+08
 shsum :  1.27374272E+08  1.24889152E+09  4.92450048E+08  1.24888550E+09
 shsum :  1.27374272E+08  1.24889152E+09   4.2210369      1.24888550E+09
 shsum :  1.27374272E+08  1.24889152E+09  0.36258340      1.24888550E+09
 fin  1.24889152E+09  1.27374272E+08   20.571503    
   9.8048964    
   9.2580643       20.571503    
 ezero   0.0000000    
  1.24889152E+09
   2.6582024    

Total energy input of :2.620E+09 eV.cm-2.s-1 (qtoteV)
             of which 1.441E+09 is reflected (qsump)
                  and 1.249E+09 is absorbed (entot) 
                         through inelastic collisions (shsum =1.249E+09)
                                           + heating (elhsum =5.922E+03)
 This refers to an energy gain of   2.66 %


 The average E. loss per ion pair is :  20.57 eV (from qtoteV)
                                  or :   9.80 eV (from (entot))
                                  or :   9.26 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 : 3.8848E+09 [eV/cm2/s]
                                                             or : 6.2243E-03 [erg/cm2/s]
 That variable "errorgaupin" is:           83

 MAIN : Total energy deposition in [CO2] is 9.059E+08 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 2.113E+08 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 1.515E+08 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 7.618E+08 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 6.006E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 4.937E-01 [eV.cm-2.s-1] ("shsum").
   45607812.               2          21
   47898452.               2          23

 Total Heating :  9.878E+03 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  8.4933301E-05
 entot depart   9877.8486       9877.8486    
 shsum :  1.64227968E+08  9.05947008E+08  9.05937152E+08  9.05937152E+08
 shsum :  1.67444400E+08  1.11726464E+09  2.11317680E+08  1.11725478E+09
 shsum :  1.69463008E+08  1.26875328E+09  1.51488624E+08  1.26874342E+09
 shsum :  1.93393056E+08  2.03050675E+09  7.61753472E+08  2.03049690E+09
 shsum :  1.93393056E+08  2.03050675E+09   6.0055590      2.03049690E+09
 shsum :  1.93393056E+08  2.03050675E+09  0.49374676      2.03049690E+09
 fin  2.03050675E+09  1.93393056E+08   20.087723    
   10.499378    
   9.9493256       20.087723    
 ezero   0.0000000    
  2.03050675E+09
   2.7382517    

Total energy input of :3.885E+09 eV.cm-2.s-1 (qtoteV)
             of which 1.961E+09 is reflected (qsump)
                  and 2.031E+09 is absorbed (entot) 
                         through inelastic collisions (shsum =2.030E+09)
                                           + heating (elhsum =9.878E+03)
 This refers to an energy gain of   2.74 %


 The average E. loss per ion pair is :  20.09 eV (from qtoteV)
                                  or :  10.50 eV (from (entot))
                                  or :   9.95 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 : 5.6346E+09 [eV/cm2/s]
                                                             or : 9.0278E-03 [erg/cm2/s]
 That variable "errorgaupin" is:           81

 MAIN : Total energy deposition in [CO2] is 1.514E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 3.352E+08 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 2.422E+08 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 1.139E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 8.202E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 6.438E-01 [eV.cm-2.s-1] ("shsum").
   70214400.               2          21
   74032296.               2          23

 Total Heating :  1.606E+04 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  1.2988724E-04
 entot depart   16062.197       16062.197    
 shsum :  2.42989104E+08  1.51377805E+09  1.51376205E+09  1.51376205E+09
 shsum :  2.47907952E+08  1.84894925E+09  3.35171200E+08  1.84893325E+09
 shsum :  2.50980000E+08  2.09119578E+09  2.42246512E+08  2.09117978E+09
 shsum :  2.85952000E+08  3.23005619E+09  1.13886042E+09  3.23004006E+09
 shsum :  2.85952000E+08  3.23005619E+09   8.2022181      3.23004006E+09
 shsum :  2.85952000E+08  3.23005619E+09  0.64375365      3.23004006E+09
 fin  3.23005619E+09  2.85952000E+08   19.704777    
   11.295798    
   10.743003       19.704777    
 ezero   0.0000000    
  3.23005619E+09
   2.8053901    

Total energy input of :5.635E+09 eV.cm-2.s-1 (qtoteV)
             of which 2.563E+09 is reflected (qsump)
                  and 3.230E+09 is absorbed (entot) 
                         through inelastic collisions (shsum =3.230E+09)
                                           + heating (elhsum =1.606E+04)
 This refers to an energy gain of   2.81 %


 The average E. loss per ion pair is :  19.70 eV (from qtoteV)
                                  or :  11.30 eV (from (entot))
                                  or :  10.74 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 : 2.1908E+08 [eV/cm2/s]
                                                             or : 3.5101E-04 [erg/cm2/s]
 That variable "errorgaupin" is:           75

 MAIN : Total energy deposition in [CO2] is 3.263E+07 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 7.971E+06 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 5.320E+06 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 3.234E+07 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 3.803E-01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 4.220E-02 [eV.cm-2.s-1] ("shsum").
   1300766.8               2          21
   1361808.1               2          23

 Total Heating :  3.035E+02 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  3.7964558E-06
 entot depart   303.46121       303.46121    
 shsum :   6853737.0       32633354.       32633050.       32633050.    
 shsum :   6997509.5       40604460.       7971105.0       40604156.    
 shsum :   7085419.0       45924788.       5320327.0       45924484.    
 shsum :   8209000.5       78259888.       32335096.       78259584.    
 shsum :   8209000.5       78259888.      0.38031971       78259584.    
 shsum :   8209000.5       78259888.      4.22049090E-02   78259584.    
 fin   78259888.       8209000.5       26.687555    
   9.5334244    
   8.7915096       26.687555    
 ezero   0.0000000    
   78259888.    
   2.7800052    

Total energy input of :2.191E+08 eV.cm-2.s-1 (qtoteV)
             of which 1.469E+08 is reflected (qsump)
                  and 7.826E+07 is absorbed (entot) 
                         through inelastic collisions (shsum =7.826E+07)
                                           + heating (elhsum =3.035E+02)
 This refers to an energy gain of   2.78 %


 The average E. loss per ion pair is :  26.69 eV (from qtoteV)
                                  or :   9.53 eV (from (entot))
                                  or :   8.79 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 : 5.7956E+08 [eV/cm2/s]
                                                             or : 9.2857E-04 [erg/cm2/s]
 That variable "errorgaupin" is:           85

 MAIN : Total energy deposition in [CO2] is 8.645E+07 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 2.237E+07 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 1.543E+07 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 9.242E+07 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 1.014E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 1.003E-01 [eV.cm-2.s-1] ("shsum").
   4295814.5               2          21
   4476835.0               2          23

 Total Heating :  9.511E+02 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  9.9833323E-06
 entot depart   951.06451       951.06451    
 shsum :   21202042.       86453024.       86452072.       86452072.    
 shsum :   21580112.      1.08826432E+08   22373412.      1.08825488E+08
 shsum :   21815970.      1.24257280E+08   15430844.      1.24256336E+08
 shsum :   24924668.      2.16678224E+08   92420944.      2.16677280E+08
 shsum :   24924668.      2.16678224E+08   1.0144238      2.16677280E+08
 shsum :   24924668.      2.16678224E+08  0.10033347      2.16677280E+08
 fin  2.16678224E+08   24924668.       23.252489    
   8.6933241    
   8.1044788       23.252489    
 ezero   0.0000000    
  2.16678224E+08
   2.5323987    

Total energy input of :5.796E+08 eV.cm-2.s-1 (qtoteV)
             of which 3.776E+08 is reflected (qsump)
                  and 2.167E+08 is absorbed (entot) 
                         through inelastic collisions (shsum =2.167E+08)
                                           + heating (elhsum =9.511E+02)
 This refers to an energy gain of   2.53 %


 The average E. loss per ion pair is :  23.25 eV (from qtoteV)
                                  or :   8.69 eV (from (entot))
                                  or :   8.10 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 : 1.2625E+09 [eV/cm2/s]
                                                             or : 2.0227E-03 [erg/cm2/s]
 That variable "errorgaupin" is:           86

 MAIN : Total energy deposition in [CO2] is 2.081E+08 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 5.387E+07 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 3.783E+07 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 2.182E+08 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 2.193E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 2.010E-01 [eV.cm-2.s-1] ("shsum").
   11295488.               2          21
   11739538.               2          23

 Total Heating :  2.439E+03 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  2.3098959E-05
 entot depart   2439.3123       2439.3123    
 shsum :   50045428.      2.08091968E+08  2.08089536E+08  2.08089536E+08
 shsum :   50920188.      2.61963808E+08   53871848.      2.61961376E+08
 shsum :   51470520.      2.99796032E+08   37832232.      2.99793600E+08
 shsum :   58639816.      5.17991680E+08  2.18195664E+08  5.17989248E+08
 shsum :   58639816.      5.17991680E+08   2.1928716      5.17989248E+08
 shsum :   58639816.      5.17991680E+08  0.20095485      5.17989248E+08
 fin  5.17991680E+08   58639816.       21.529385    
   8.8334465    
   8.2950258       21.529385    
 ezero   0.0000000    
  5.17991680E+08
   2.5008624    

Total energy input of :1.262E+09 eV.cm-2.s-1 (qtoteV)
             of which 7.761E+08 is reflected (qsump)
                  and 5.180E+08 is absorbed (entot) 
                         through inelastic collisions (shsum =5.180E+08)
                                           + heating (elhsum =2.439E+03)
 This refers to an energy gain of   2.50 %


 The average E. loss per ion pair is :  21.53 eV (from qtoteV)
                                  or :   8.83 eV (from (entot))
                                  or :   8.30 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 : 2.4279E+09 [eV/cm2/s]
                                                             or : 3.8900E-03 [erg/cm2/s]
 That variable "errorgaupin" is:           83

 MAIN : Total energy deposition in [CO2] is 4.738E+08 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 1.177E+08 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 8.374E+07 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 4.534E+08 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 4.075E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 3.510E-01 [eV.cm-2.s-1] ("shsum").
   25430894.               2          21
   26531960.               2          23

 Total Heating :  5.540E+03 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  4.8788716E-05
 entot depart   5539.8716       5539.8716    
 shsum :  1.00596608E+08  4.73849376E+08  4.73843840E+08  4.73843840E+08
 shsum :  1.02444248E+08  5.91577088E+08  1.17727696E+08  5.91571520E+08
 shsum :  1.03608880E+08  6.75315328E+08   83738224.      6.75309760E+08
 shsum :  1.18168024E+08  1.12875366E+09  4.53438400E+08  1.12874816E+09
 shsum :  1.18168024E+08  1.12875366E+09   4.0745201      1.12874816E+09
 shsum :  1.18168024E+08  1.12875366E+09  0.35103750      1.12874816E+09
 fin  1.12875366E+09  1.18168024E+08   20.546236    
   9.5521078    
   9.0187368       20.546236    
 ezero   0.0000000    
  1.12875366E+09
   2.5959520    

Total energy input of :2.428E+09 eV.cm-2.s-1 (qtoteV)
             of which 1.362E+09 is reflected (qsump)
                  and 1.129E+09 is absorbed (entot) 
                         through inelastic collisions (shsum =1.129E+09)
                                           + heating (elhsum =5.540E+03)
 This refers to an energy gain of   2.60 %


 The average E. loss per ion pair is :  20.55 eV (from qtoteV)
                                  or :   9.55 eV (from (entot))
                                  or :   9.02 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 : 3.1595E+06 [eV/cm2/s]
                                                             or : 5.0622E-06 [erg/cm2/s]
 That variable "errorgaupin" is:           82

 MAIN : Total energy deposition in [CO2] is 6.925E+05 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 1.135E+05 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 6.488E+04 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 3.472E+05 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 4.581E-03 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 8.213E-04 [eV.cm-2.s-1] ("shsum").
   10203.082               2          21
   10821.277               2          23

 Total Heating :  2.989E+00 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  6.9402354E-08
 entot depart   2.9888258       2.9888258    
 shsum :   39520.297       692517.50       692514.50       692514.50    
 shsum :   42148.578       806043.38       113525.88       806040.38    
 shsum :   43582.246       870927.06       64883.703       870924.06    
 shsum :   57252.934       1218083.1       347156.03       1218080.1    
 shsum :   57252.934       1218083.1      4.58075106E-03   1218080.1    
 shsum :   57252.934       1218083.1      8.21346359E-04   1218080.1    
 fin   1218083.1       57252.934       55.185390    
   21.275471    
   18.874762       55.185390    
 ezero   0.0000000    
   1218083.1    
   4.3502617    

Total energy input of :3.160E+06 eV.cm-2.s-1 (qtoteV)
             of which 2.079E+06 is reflected (qsump)
                  and 1.218E+06 is absorbed (entot) 
                         through inelastic collisions (shsum =1.218E+06)
                                           + heating (elhsum =2.989E+00)
 This refers to an energy gain of   4.35 %


 The average E. loss per ion pair is :  55.19 eV (from qtoteV)
                                  or :  21.28 eV (from (entot))
                                  or :  18.87 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 : 3.6838E+07 [eV/cm2/s]
                                                             or : 5.9022E-05 [erg/cm2/s]
 That variable "errorgaupin" is:          106

 MAIN : Total energy deposition in [CO2] is 6.413E+06 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 1.312E+06 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 8.106E+05 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 4.818E+06 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 6.314E-02 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 8.907E-03 [eV.cm-2.s-1] ("shsum").
   152185.86               2          21
   160248.42               2          23

 Total Heating :  4.085E+01 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  7.1538113E-07
 entot depart   40.849945       40.849945    
 shsum :   766301.56       6413309.0       6413268.0       6413268.0    
 shsum :   793393.19       7725162.0       1311852.8       7725121.0    
 shsum :   809118.19       8535775.0       810613.00       8535734.0    
 shsum :   988160.56       13353673.       4817898.0       13353632.    
 shsum :   988160.56       13353673.      6.31413385E-02   13353632.    
 shsum :   988160.56       13353673.      8.90733115E-03   13353632.    
 fin   13353673.       988160.56       37.279320    
   13.513667    
   12.241986       37.279320    
 ezero   0.0000000    
   13353673.    
   3.4112236    

Total energy input of :3.684E+07 eV.cm-2.s-1 (qtoteV)
             of which 2.474E+07 is reflected (qsump)
                  and 1.335E+07 is absorbed (entot) 
                         through inelastic collisions (shsum =1.335E+07)
                                           + heating (elhsum =4.085E+01)
 This refers to an energy gain of   3.41 %


 The average E. loss per ion pair is :  37.28 eV (from qtoteV)
                                  or :  13.51 eV (from (entot))
                                  or :  12.24 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 : 2.3762E+08 [eV/cm2/s]
                                                             or : 3.8072E-04 [erg/cm2/s]
 That variable "errorgaupin" is:           79

 MAIN : Total energy deposition in [CO2] is 3.457E+07 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 8.601E+06 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 5.780E+06 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 3.533E+07 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 4.255E-01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 4.630E-02 [eV.cm-2.s-1] ("shsum").
   1422130.0               2          21
   1485301.1               2          23

 Total Heating :  3.425E+02 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  4.0414025E-06
 entot depart   342.51950       342.51950    
 shsum :   7663046.0       34567152.       34566808.       34566808.    
 shsum :   7816094.5       43167976.       8600822.0       43167632.    
 shsum :   7910104.5       48947848.       5779873.0       48947504.    
 shsum :   9131248.0       84279976.       35332128.       84279632.    
 shsum :   9131248.0       84279976.      0.42554706       84279632.    
 shsum :   9131248.0       84279976.      4.63022217E-02   84279632.    
 fin   84279976.       9131248.0       26.023256    
   9.2298422    
   8.5297289       26.023256    
 ezero   0.0000000    
   84279976.    
   2.6903353    

Total energy input of :2.376E+08 eV.cm-2.s-1 (qtoteV)
             of which 1.597E+08 is reflected (qsump)
                  and 8.428E+07 is absorbed (entot) 
                         through inelastic collisions (shsum =8.428E+07)
                                           + heating (elhsum =3.425E+02)
 This refers to an energy gain of   2.69 %


 The average E. loss per ion pair is :  26.02 eV (from qtoteV)
                                  or :   9.23 eV (from (entot))
                                  or :   8.53 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 : 8.3089E+08 [eV/cm2/s]
                                                             or : 1.3313E-03 [erg/cm2/s]
 That variable "errorgaupin" is:           81

 MAIN : Total energy deposition in [CO2] is 1.265E+08 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 3.318E+07 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 2.314E+07 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 1.373E+08 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 1.489E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 1.414E-01 [eV.cm-2.s-1] ("shsum").
   6646964.5               2          21
   6903786.5               2          23

 Total Heating :  1.499E+03 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  1.4464747E-05
 entot depart   1499.2334       1499.2334    
 shsum :   31904796.      1.26468600E+08  1.26467104E+08  1.26467104E+08
 shsum :   32452578.      1.59650272E+08   33181676.      1.59648784E+08
 shsum :   32796470.      1.82793120E+08   23142852.      1.82791632E+08
 shsum :   37360640.      3.20102400E+08  1.37309296E+08  3.20100928E+08
 shsum :   37360640.      3.20102400E+08   1.4894663      3.20100928E+08
 shsum :   37360640.      3.20102400E+08  0.14137670      3.20100928E+08
 fin  3.20102400E+08   37360640.       22.239758    
   8.5679045    
   8.0223551       22.239758    
 ezero   0.0000000    
  3.20102400E+08
   2.4530373    

Total energy input of :8.309E+08 eV.cm-2.s-1 (qtoteV)
             of which 5.312E+08 is reflected (qsump)
                  and 3.201E+08 is absorbed (entot) 
                         through inelastic collisions (shsum =3.201E+08)
                                           + heating (elhsum =1.499E+03)
 This refers to an energy gain of   2.45 %


 The average E. loss per ion pair is :  22.24 eV (from qtoteV)
                                  or :   8.57 eV (from (entot))
                                  or :   8.02 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 :  1.254E-36 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  0.0000000E+00
 entot depart  1.25398975E-36  1.25398975E-36
 shsum :   0.0000000      1.25398975E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.25398975E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.25398975E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.25398975E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.25398975E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.25398975E-36   0.0000000       0.0000000    
 fin  1.25398975E-36   0.0000000           +Infinity
       +Infinity
       +Infinity       +Infinity
 ezero   0.0000000    
  1.25398975E-36
   95.382378    

Total energy input of :1.302E-28 eV.cm-2.s-1 (qtoteV)
             of which 6.011E-30 is reflected (qsump)
                  and 1.254E-36 is absorbed (entot) 
                         through inelastic collisions (shsum =0.000E+00)
                                           + heating (elhsum =1.254E-36)
 This refers to an energy loss of  95.38 %


 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 : 1.6655E+05 [eV/cm2/s]
                                                             or : 2.6684E-07 [erg/cm2/s]
 That variable "errorgaupin" is:          104

 MAIN : Total energy deposition in [CO2] is 3.871E+04 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 5.973E+03 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 3.367E+03 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 1.730E+04 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 2.256E-04 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 4.231E-05 [eV.cm-2.s-1] ("shsum").
   503.15756               2          21
   533.61749               2          23

 Total Heating :  1.559E-01 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  3.7078625E-09
 entot depart  0.15592669      0.15592669    
 shsum :   1883.3748       38705.164       38705.008       38705.008    
 shsum :   2023.7922       44678.023       5972.8613       44677.867    
 shsum :   2099.1614       48044.859       3366.8359       48044.703    
 shsum :   2784.6702       65343.633       17298.773       65343.477    
 shsum :   2784.6702       65343.633      2.25570024E-04   65343.477    
 shsum :   2784.6702       65343.633      4.23096208E-05   65343.477    
 fin   65343.633       2784.6702       59.808273    
   23.465485    
   19.805258       59.808273    
 ezero   0.0000000    
   65343.633    
   6.1199331    

Total energy input of :1.665E+05 eV.cm-2.s-1 (qtoteV)
             of which 1.114E+05 is reflected (qsump)
                  and 6.534E+04 is absorbed (entot) 
                         through inelastic collisions (shsum =6.534E+04)
                                           + heating (elhsum =1.559E-01)
 This refers to an energy gain of   6.12 %


 The average E. loss per ion pair is :  59.81 eV (from qtoteV)
                                  or :  23.47 eV (from (entot))
                                  or :  19.81 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 : 1.2009E+07 [eV/cm2/s]
                                                             or : 1.9240E-05 [erg/cm2/s]
 That variable "errorgaupin" is:           99

 MAIN : Total energy deposition in [CO2] is 2.362E+06 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 4.295E+05 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 2.538E+05 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 1.444E+06 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 1.967E-02 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 3.180E-03 [eV.cm-2.s-1] ("shsum").
   42177.375               2          21
   44515.156               2          23

 Total Heating :  1.219E+01 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  2.5085356E-07
 entot depart   12.188380       12.188380    
 shsum :   188824.59       2361843.3       2361831.0       2361831.0    
 shsum :   198324.47       2791328.3       429485.06       2791316.0    
 shsum :   203657.88       3045079.3       253750.91       3045067.0    
 shsum :   259253.25       4488613.0       1443533.8       4488601.0    
 shsum :   259253.25       4488613.0      1.96651872E-02   4488601.0    
 shsum :   259253.25       4488613.0      3.18044587E-03   4488601.0    
 fin   4488613.0       259253.25       46.320553    
   17.313623    
   15.568993       46.320553    
 ezero   0.0000000    
   4488613.0    
   3.7664275    

Total energy input of :1.201E+07 eV.cm-2.s-1 (qtoteV)
             of which 7.972E+06 is reflected (qsump)
                  and 4.489E+06 is absorbed (entot) 
                         through inelastic collisions (shsum =4.489E+06)
                                           + heating (elhsum =1.219E+01)
 This refers to an energy gain of   3.77 %


 The average E. loss per ion pair is :  46.32 eV (from qtoteV)
                                  or :  17.31 eV (from (entot))
                                  or :  15.57 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 : 1.7266E+08 [eV/cm2/s]
                                                             or : 2.7664E-04 [erg/cm2/s]
 That variable "errorgaupin" is:           96

 MAIN : Total energy deposition in [CO2] is 2.529E+07 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 6.162E+06 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 4.098E+06 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 2.514E+07 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 3.138E-01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 3.541E-02 [eV.cm-2.s-1] ("shsum").
   956839.31               2          21
   999484.06               2          23

 Total Heating :  2.408E+02 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  2.9550574E-06
 entot depart   240.81630       240.81630    
 shsum :   5277926.5       25292762.       25292522.       25292522.    
 shsum :   5389835.0       31455094.       6162331.5       31454854.    
 shsum :   5458117.5       35553140.       4098045.0       35552900.    
 shsum :   6335878.0       60690972.       25137832.       60690732.    
 shsum :   6335878.0       60690972.      0.31375551       60690732.    
 shsum :   6335878.0       60690972.      3.54063027E-02   60690732.    
 fin   60690972.       6335878.0       27.251543    
   9.5789366    
   8.8271027       27.251543    
 ezero   0.0000000    
   60690972.    
   2.7588651    

Total energy input of :1.727E+08 eV.cm-2.s-1 (qtoteV)
             of which 1.167E+08 is reflected (qsump)
                  and 6.069E+07 is absorbed (entot) 
                         through inelastic collisions (shsum =6.069E+07)
                                           + heating (elhsum =2.408E+02)
 This refers to an energy gain of   2.76 %


 The average E. loss per ion pair is :  27.25 eV (from qtoteV)
                                  or :   9.58 eV (from (entot))
                                  or :   8.83 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 :  1.270E-36 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  0.0000000E+00
 entot depart  1.27030625E-36  1.27030625E-36
 shsum :   0.0000000      1.27030625E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.27030625E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.27030625E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.27030625E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.27030625E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.27030625E-36   0.0000000       0.0000000    
 fin  1.27030625E-36   0.0000000           +Infinity
       +Infinity
       +Infinity       +Infinity
 ezero   0.0000000    
  1.27030625E-36
   95.383385    

Total energy input of :1.302E-28 eV.cm-2.s-1 (qtoteV)
             of which 6.010E-30 is reflected (qsump)
                  and 1.270E-36 is absorbed (entot) 
                         through inelastic collisions (shsum =0.000E+00)
                                           + heating (elhsum =1.270E-36)
 This refers to an energy loss of  95.38 %


 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 :  1.278E-36 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  0.0000000E+00
 entot depart  1.27769587E-36  1.27769587E-36
 shsum :   0.0000000      1.27769587E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.27769587E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.27769587E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.27769587E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.27769587E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.27769587E-36   0.0000000       0.0000000    
 fin  1.27769587E-36   0.0000000           +Infinity
       +Infinity
       +Infinity       +Infinity
 ezero   0.0000000    
  1.27769587E-36
   95.383675    

Total energy input of :1.302E-28 eV.cm-2.s-1 (qtoteV)
             of which 6.010E-30 is reflected (qsump)
                  and 1.278E-36 is absorbed (entot) 
                         through inelastic collisions (shsum =0.000E+00)
                                           + heating (elhsum =1.278E-36)
 This refers to an energy loss of  95.38 %


 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 : 4.1364E+04 [eV/cm2/s]
                                                             or : 6.6273E-08 [erg/cm2/s]
 That variable "errorgaupin" is:           98

 MAIN : Total energy deposition in [CO2] is 9.745E+03 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 1.482E+03 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 8.340E+02 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 4.252E+03 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 5.557E-05 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 1.047E-05 [eV.cm-2.s-1] ("shsum").
   122.45799               2          21
   129.72972               2          23

 Total Heating :  3.899E-02 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  9.2046926E-10
 entot depart  3.89852077E-02  3.89852077E-02
 shsum :   463.29318       9745.2148       9745.1758       9745.1758    
 shsum :   498.15152       11227.321       1482.1064       11227.282    
 shsum :   516.79846       12061.341       834.01978       12061.302    
 shsum :   685.25165       16313.188       4251.8477       16313.149    
 shsum :   685.25165       16313.188      5.55661863E-05   16313.149    
 shsum :   685.25165       16313.188      1.04706533E-05   16313.149    
 fin   16313.188       685.25165       60.363258    
   23.806128    
   19.609066       60.363258    
 ezero   0.0000000    
   16313.188    
   6.9530087    

Total energy input of :4.136E+04 eV.cm-2.s-1 (qtoteV)
             of which 2.793E+04 is reflected (qsump)
                  and 1.631E+04 is absorbed (entot) 
                         through inelastic collisions (shsum =1.631E+04)
                                           + heating (elhsum =3.899E-02)
 This refers to an energy gain of   6.95 %


 The average E. loss per ion pair is :  60.36 eV (from qtoteV)
                                  or :  23.81 eV (from (entot))
                                  or :  19.61 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 : 1.3342E+07 [eV/cm2/s]
                                                             or : 2.1376E-05 [erg/cm2/s]
 That variable "errorgaupin" is:           81

 MAIN : Total energy deposition in [CO2] is 2.581E+06 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 4.759E+05 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 2.825E+05 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 1.620E+06 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 2.234E-02 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 3.563E-03 [eV.cm-2.s-1] ("shsum").
   47038.633               2          21
   49575.168               2          23

 Total Heating :  1.379E+01 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  2.7598861E-07
 entot depart   13.794541       13.794541    
 shsum :   216415.17       2580714.3       2580700.5       2580700.5    
 shsum :   226866.91       3056624.8       475910.47       3056611.0    
 shsum :   232756.97       3339148.5       282523.63       3339134.5    
 shsum :   294927.66       4959001.0       1619852.8       4958987.0    
 shsum :   294927.66       4959001.0      2.23425701E-02   4958987.0    
 shsum :   294927.66       4959001.0      3.56251700E-03   4958987.0    
 fin   4959001.0       294927.66       45.236553    
   16.814297    
   15.144714       45.236553    
 ezero   0.0000000    
   4959001.0    
   3.6907814    

Total energy input of :1.334E+07 eV.cm-2.s-1 (qtoteV)
             of which 8.875E+06 is reflected (qsump)
                  and 4.959E+06 is absorbed (entot) 
                         through inelastic collisions (shsum =4.959E+06)
                                           + heating (elhsum =1.379E+01)
 This refers to an energy gain of   3.69 %


 The average E. loss per ion pair is :  45.24 eV (from qtoteV)
                                  or :  16.81 eV (from (entot))
                                  or :  15.14 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 :  1.286E-36 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  0.0000000E+00
 entot depart  1.28635056E-36  1.28635056E-36
 shsum :   0.0000000      1.28635056E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.28635056E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.28635056E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.28635056E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.28635056E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.28635056E-36   0.0000000       0.0000000    
 fin  1.28635056E-36   0.0000000           +Infinity
       +Infinity
       +Infinity       +Infinity
 ezero   0.0000000    
  1.28635056E-36
   95.384140    

Total energy input of :1.302E-28 eV.cm-2.s-1 (qtoteV)
             of which 6.009E-30 is reflected (qsump)
                  and 1.286E-36 is absorbed (entot) 
                         through inelastic collisions (shsum =0.000E+00)
                                           + heating (elhsum =1.286E-36)
 This refers to an energy loss of  95.38 %


 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 :  1.290E-36 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  0.0000000E+00
 entot depart  1.28985044E-36  1.28985044E-36
 shsum :   0.0000000      1.28985044E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.28985044E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.28985044E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.28985044E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.28985044E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.28985044E-36   0.0000000       0.0000000    
 fin  1.28985044E-36   0.0000000           +Infinity
       +Infinity
       +Infinity       +Infinity
 ezero   0.0000000    
  1.28985044E-36
   95.384521    

Total energy input of :1.302E-28 eV.cm-2.s-1 (qtoteV)
             of which 6.009E-30 is reflected (qsump)
                  and 1.290E-36 is absorbed (entot) 
                         through inelastic collisions (shsum =0.000E+00)
                                           + heating (elhsum =1.290E-36)
 This refers to an energy loss of  95.38 %


 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 :  1.294E-36 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  0.0000000E+00
 entot depart  1.29415406E-36  1.29415406E-36
 shsum :   0.0000000      1.29415406E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.29415406E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.29415406E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.29415406E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.29415406E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.29415406E-36   0.0000000       0.0000000    
 fin  1.29415406E-36   0.0000000           +Infinity
       +Infinity
       +Infinity       +Infinity
 ezero   0.0000000    
  1.29415406E-36
   95.384590    

Total energy input of :1.302E-28 eV.cm-2.s-1 (qtoteV)
             of which 6.008E-30 is reflected (qsump)
                  and 1.294E-36 is absorbed (entot) 
                         through inelastic collisions (shsum =0.000E+00)
                                           + heating (elhsum =1.294E-36)
 This refers to an energy loss of  95.38 %


 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 : 2.5434E+05 [eV/cm2/s]
                                                             or : 4.0750E-07 [erg/cm2/s]
 That variable "errorgaupin" is:           95

 MAIN : Total energy deposition in [CO2] is 5.864E+04 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 9.101E+03 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 5.133E+03 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 2.652E+04 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 3.553E-04 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 6.662E-05 [eV.cm-2.s-1] ("shsum").
   753.80432               2          21
   797.58435               2          23

 Total Heating :  2.421E-01 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  5.6470295E-09
 entot depart  0.24208580      0.24208580    
 shsum :   2885.3318       58635.539       58635.297       58635.297    
 shsum :   3099.1858       67736.297       9100.7559       67736.055    
 shsum :   3214.1143       72869.531       5133.2319       72869.289    
 shsum :   4265.5845       99393.094       26523.566       99392.859    
 shsum :   4265.5845       99393.094      3.55328608E-04   99392.859    
 shsum :   4265.5845       99393.094      6.66169872E-05   99392.859    
 fin   99393.094       4265.5845       59.624985    
   23.301167    
   19.912577       59.624985    
 ezero   0.0000000    
   99393.094    
   5.6831694    

Total energy input of :2.543E+05 eV.cm-2.s-1 (qtoteV)
             of which 1.694E+05 is reflected (qsump)
                  and 9.939E+04 is absorbed (entot) 
                         through inelastic collisions (shsum =9.939E+04)
                                           + heating (elhsum =2.421E-01)
 This refers to an energy gain of   5.68 %


 The average E. loss per ion pair is :  59.62 eV (from qtoteV)
                                  or :  23.30 eV (from (entot))
                                  or :  19.91 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 :  1.300E-36 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  0.0000000E+00
 entot depart  1.30047959E-36  1.30047959E-36
 shsum :   0.0000000      1.30047959E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.30047959E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.30047959E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.30047959E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.30047959E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.30047959E-36   0.0000000       0.0000000    
 fin  1.30047959E-36   0.0000000           +Infinity
       +Infinity
       +Infinity       +Infinity
 ezero   0.0000000    
  1.30047959E-36
   95.384773    

Total energy input of :1.302E-28 eV.cm-2.s-1 (qtoteV)
             of which 6.008E-30 is reflected (qsump)
                  and 1.300E-36 is absorbed (entot) 
                         through inelastic collisions (shsum =0.000E+00)
                                           + heating (elhsum =1.300E-36)
 This refers to an energy loss of  95.38 %


 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 :  1.303E-36 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  0.0000000E+00
 entot depart  1.30287987E-36  1.30287987E-36
 shsum :   0.0000000      1.30287987E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.30287987E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.30287987E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.30287987E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.30287987E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.30287987E-36   0.0000000       0.0000000    
 fin  1.30287987E-36   0.0000000           +Infinity
       +Infinity
       +Infinity       +Infinity
 ezero   0.0000000    
  1.30287987E-36
   95.385239    

Total energy input of :1.302E-28 eV.cm-2.s-1 (qtoteV)
             of which 6.008E-30 is reflected (qsump)
                  and 1.303E-36 is absorbed (entot) 
                         through inelastic collisions (shsum =0.000E+00)
                                           + heating (elhsum =1.303E-36)
 This refers to an energy loss of  95.39 %


 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 :  1.309E-36 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  0.0000000E+00
 entot depart  1.30870882E-36  1.30870882E-36
 shsum :   0.0000000      1.30870882E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.30870882E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.30870882E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.30870882E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.30870882E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.30870882E-36   0.0000000       0.0000000    
 fin  1.30870882E-36   0.0000000           +Infinity
       +Infinity
       +Infinity       +Infinity
 ezero   0.0000000    
  1.30870882E-36
   95.385368    

Total energy input of :1.302E-28 eV.cm-2.s-1 (qtoteV)
             of which 6.007E-30 is reflected (qsump)
                  and 1.309E-36 is absorbed (entot) 
                         through inelastic collisions (shsum =0.000E+00)
                                           + heating (elhsum =1.309E-36)
 This refers to an energy loss of  95.39 %


 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 :  1.315E-36 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  0.0000000E+00
 entot depart  1.31495166E-36  1.31495166E-36
 shsum :   0.0000000      1.31495166E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.31495166E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.31495166E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.31495166E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.31495166E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.31495166E-36   0.0000000       0.0000000    
 fin  1.31495166E-36   0.0000000           +Infinity
       +Infinity
       +Infinity       +Infinity
 ezero   0.0000000    
  1.31495166E-36
   95.385162    

Total energy input of :1.302E-28 eV.cm-2.s-1 (qtoteV)
             of which 6.008E-30 is reflected (qsump)
                  and 1.315E-36 is absorbed (entot) 
                         through inelastic collisions (shsum =0.000E+00)
                                           + heating (elhsum =1.315E-36)
 This refers to an energy loss of  95.39 %


 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 :  1.317E-36 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  0.0000000E+00
 entot depart  1.31717446E-36  1.31717446E-36
 shsum :   0.0000000      1.31717446E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.31717446E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.31717446E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.31717446E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.31717446E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.31717446E-36   0.0000000       0.0000000    
 fin  1.31717446E-36   0.0000000           +Infinity
       +Infinity
       +Infinity       +Infinity
 ezero   0.0000000    
  1.31717446E-36
   95.385376    

Total energy input of :1.302E-28 eV.cm-2.s-1 (qtoteV)
             of which 6.007E-30 is reflected (qsump)
                  and 1.317E-36 is absorbed (entot) 
                         through inelastic collisions (shsum =0.000E+00)
                                           + heating (elhsum =1.317E-36)
 This refers to an energy loss of  95.39 %


 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 :  1.317E-36 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  0.0000000E+00
 entot depart  1.31717446E-36  1.31717446E-36
 shsum :   0.0000000      1.31717446E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.31717446E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.31717446E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.31717446E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.31717446E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.31717446E-36   0.0000000       0.0000000    
 fin  1.31717446E-36   0.0000000           +Infinity
       +Infinity
       +Infinity       +Infinity
 ezero   0.0000000    
  1.31717446E-36
   95.385895    

Total energy input of :1.302E-28 eV.cm-2.s-1 (qtoteV)
             of which 6.007E-30 is reflected (qsump)
                  and 1.317E-36 is absorbed (entot) 
                         through inelastic collisions (shsum =0.000E+00)
                                           + heating (elhsum =1.317E-36)
 This refers to an energy loss of  95.39 %


 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 :  1.318E-36 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  0.0000000E+00
 entot depart  1.31781300E-36  1.31781300E-36
 shsum :   0.0000000      1.31781300E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.31781300E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.31781300E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.31781300E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.31781300E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.31781300E-36   0.0000000       0.0000000    
 fin  1.31781300E-36   0.0000000           +Infinity
       +Infinity
       +Infinity       +Infinity
 ezero   0.0000000    
  1.31781300E-36
   95.386055    

Total energy input of :1.302E-28 eV.cm-2.s-1 (qtoteV)
             of which 6.007E-30 is reflected (qsump)
                  and 1.318E-36 is absorbed (entot) 
                         through inelastic collisions (shsum =0.000E+00)
                                           + heating (elhsum =1.318E-36)
 This refers to an energy loss of  95.39 %


 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 :  1.323E-36 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  0.0000000E+00
 entot depart  1.32256594E-36  1.32256594E-36
 shsum :   0.0000000      1.32256594E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.32256594E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.32256594E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.32256594E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.32256594E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.32256594E-36   0.0000000       0.0000000    
 fin  1.32256594E-36   0.0000000           +Infinity
       +Infinity
       +Infinity       +Infinity
 ezero   0.0000000    
  1.32256594E-36
   95.385857    

Total energy input of :1.302E-28 eV.cm-2.s-1 (qtoteV)
             of which 6.007E-30 is reflected (qsump)
                  and 1.323E-36 is absorbed (entot) 
                         through inelastic collisions (shsum =0.000E+00)
                                           + heating (elhsum =1.323E-36)
 This refers to an energy loss of  95.39 %


 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 :  1.328E-36 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  0.0000000E+00
 entot depart  1.32796917E-36  1.32796917E-36
 shsum :   0.0000000      1.32796917E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.32796917E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.32796917E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.32796917E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.32796917E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.32796917E-36   0.0000000       0.0000000    
 fin  1.32796917E-36   0.0000000           +Infinity
       +Infinity
       +Infinity       +Infinity
 ezero   0.0000000    
  1.32796917E-36
   95.385948    

Total energy input of :1.302E-28 eV.cm-2.s-1 (qtoteV)
             of which 6.007E-30 is reflected (qsump)
                  and 1.328E-36 is absorbed (entot) 
                         through inelastic collisions (shsum =0.000E+00)
                                           + heating (elhsum =1.328E-36)
 This refers to an energy loss of  95.39 %


 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 :  1.328E-36 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  0.0000000E+00
 entot depart  1.32799284E-36  1.32799284E-36
 shsum :   0.0000000      1.32799284E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.32799284E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.32799284E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.32799284E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.32799284E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.32799284E-36   0.0000000       0.0000000    
 fin  1.32799284E-36   0.0000000           +Infinity
       +Infinity
       +Infinity       +Infinity
 ezero   0.0000000    
  1.32799284E-36
   95.386490    

Total energy input of :1.302E-28 eV.cm-2.s-1 (qtoteV)
             of which 6.006E-30 is reflected (qsump)
                  and 1.328E-36 is absorbed (entot) 
                         through inelastic collisions (shsum =0.000E+00)
                                           + heating (elhsum =1.328E-36)
 This refers to an energy loss of  95.39 %


 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 :  1.330E-36 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  0.0000000E+00
 entot depart  1.32971906E-36  1.32971906E-36
 shsum :   0.0000000      1.32971906E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.32971906E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.32971906E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.32971906E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.32971906E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.32971906E-36   0.0000000       0.0000000    
 fin  1.32971906E-36   0.0000000           +Infinity
       +Infinity
       +Infinity       +Infinity
 ezero   0.0000000    
  1.32971906E-36
   95.386658    

Total energy input of :1.302E-28 eV.cm-2.s-1 (qtoteV)
             of which 6.006E-30 is reflected (qsump)
                  and 1.330E-36 is absorbed (entot) 
                         through inelastic collisions (shsum =0.000E+00)
                                           + heating (elhsum =1.330E-36)
 This refers to an energy loss of  95.39 %


 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 :  1.335E-36 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  0.0000000E+00
 entot depart  1.33522892E-36  1.33522892E-36
 shsum :   0.0000000      1.33522892E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.33522892E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.33522892E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.33522892E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.33522892E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.33522892E-36   0.0000000       0.0000000    
 fin  1.33522892E-36   0.0000000           +Infinity
       +Infinity
       +Infinity       +Infinity
 ezero   0.0000000    
  1.33522892E-36
   95.386452    

Total energy input of :1.302E-28 eV.cm-2.s-1 (qtoteV)
             of which 6.006E-30 is reflected (qsump)
                  and 1.335E-36 is absorbed (entot) 
                         through inelastic collisions (shsum =0.000E+00)
                                           + heating (elhsum =1.335E-36)
 This refers to an energy loss of  95.39 %


 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 :  1.339E-36 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  0.0000000E+00
 entot depart  1.33889418E-36  1.33889418E-36
 shsum :   0.0000000      1.33889418E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.33889418E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.33889418E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.33889418E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.33889418E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.33889418E-36   0.0000000       0.0000000    
 fin  1.33889418E-36   0.0000000           +Infinity
       +Infinity
       +Infinity       +Infinity
 ezero   0.0000000    
  1.33889418E-36
   95.386383    

Total energy input of :1.302E-28 eV.cm-2.s-1 (qtoteV)
             of which 6.006E-30 is reflected (qsump)
                  and 1.339E-36 is absorbed (entot) 
                         through inelastic collisions (shsum =0.000E+00)
                                           + heating (elhsum =1.339E-36)
 This refers to an energy loss of  95.39 %


 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 :  1.338E-36 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  0.0000000E+00
 entot depart  1.33760553E-36  1.33760553E-36
 shsum :   0.0000000      1.33760553E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.33760553E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.33760553E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.33760553E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.33760553E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.33760553E-36   0.0000000       0.0000000    
 fin  1.33760553E-36   0.0000000           +Infinity
       +Infinity
       +Infinity       +Infinity
 ezero   0.0000000    
  1.33760553E-36
   95.386940    

Total energy input of :1.302E-28 eV.cm-2.s-1 (qtoteV)
             of which 6.005E-30 is reflected (qsump)
                  and 1.338E-36 is absorbed (entot) 
                         through inelastic collisions (shsum =0.000E+00)
                                           + heating (elhsum =1.338E-36)
 This refers to an energy loss of  95.39 %


 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 :  1.341E-36 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  0.0000000E+00
 entot depart  1.34149544E-36  1.34149544E-36
 shsum :   0.0000000      1.34149544E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.34149544E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.34149544E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.34149544E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.34149544E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.34149544E-36   0.0000000       0.0000000    
 fin  1.34149544E-36   0.0000000           +Infinity
       +Infinity
       +Infinity       +Infinity
 ezero   0.0000000    
  1.34149544E-36
   95.387123    

Total energy input of :1.302E-28 eV.cm-2.s-1 (qtoteV)
             of which 6.005E-30 is reflected (qsump)
                  and 1.341E-36 is absorbed (entot) 
                         through inelastic collisions (shsum =0.000E+00)
                                           + heating (elhsum =1.341E-36)
 This refers to an energy loss of  95.39 %


 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 :  1.343E-36 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  0.0000000E+00
 entot depart  1.34278410E-36  1.34278410E-36
 shsum :   0.0000000      1.34278410E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.34278410E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.34278410E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.34278410E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.34278410E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.34278410E-36   0.0000000       0.0000000    
 fin  1.34278410E-36   0.0000000           +Infinity
       +Infinity
       +Infinity       +Infinity
 ezero   0.0000000    
  1.34278410E-36
   95.386940    

Total energy input of :1.302E-28 eV.cm-2.s-1 (qtoteV)
             of which 6.005E-30 is reflected (qsump)
                  and 1.343E-36 is absorbed (entot) 
                         through inelastic collisions (shsum =0.000E+00)
                                           + heating (elhsum =1.343E-36)
 This refers to an energy loss of  95.39 %


 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 :  1.346E-36 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  0.0000000E+00
 entot depart  1.34569261E-36  1.34569261E-36
 shsum :   0.0000000      1.34569261E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.34569261E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.34569261E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.34569261E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.34569261E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.34569261E-36   0.0000000       0.0000000    
 fin  1.34569261E-36   0.0000000           +Infinity
       +Infinity
       +Infinity       +Infinity
 ezero   0.0000000    
  1.34569261E-36
   95.386520    

Total energy input of :1.302E-28 eV.cm-2.s-1 (qtoteV)
             of which 6.006E-30 is reflected (qsump)
                  and 1.346E-36 is absorbed (entot) 
                         through inelastic collisions (shsum =0.000E+00)
                                           + heating (elhsum =1.346E-36)
 This refers to an energy loss of  95.39 %


 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 :  1.346E-36 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  0.0000000E+00
 entot depart  1.34569261E-36  1.34569261E-36
 shsum :   0.0000000      1.34569261E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.34569261E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.34569261E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.34569261E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.34569261E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.34569261E-36   0.0000000       0.0000000    
 fin  1.34569261E-36   0.0000000           +Infinity
       +Infinity
       +Infinity       +Infinity
 ezero   0.0000000    
  1.34569261E-36
   95.387177    

Total energy input of :1.302E-28 eV.cm-2.s-1 (qtoteV)
             of which 6.005E-30 is reflected (qsump)
                  and 1.346E-36 is absorbed (entot) 
                         through inelastic collisions (shsum =0.000E+00)
                                           + heating (elhsum =1.346E-36)
 This refers to an energy loss of  95.39 %


 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 :  1.346E-36 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  0.0000000E+00
 entot depart  1.34569261E-36  1.34569261E-36
 shsum :   0.0000000      1.34569261E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.34569261E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.34569261E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.34569261E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.34569261E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.34569261E-36   0.0000000       0.0000000    
 fin  1.34569261E-36   0.0000000           +Infinity
       +Infinity
       +Infinity       +Infinity
 ezero   0.0000000    
  1.34569261E-36
   95.387428    

Total energy input of :1.302E-28 eV.cm-2.s-1 (qtoteV)
             of which 6.005E-30 is reflected (qsump)
                  and 1.346E-36 is absorbed (entot) 
                         through inelastic collisions (shsum =0.000E+00)
                                           + heating (elhsum =1.346E-36)
 This refers to an energy loss of  95.39 %


 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 :  1.347E-36 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  0.0000000E+00
 entot depart  1.34709965E-36  1.34709965E-36
 shsum :   0.0000000      1.34709965E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.34709965E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.34709965E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.34709965E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.34709965E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.34709965E-36   0.0000000       0.0000000    
 fin  1.34709965E-36   0.0000000           +Infinity
       +Infinity
       +Infinity       +Infinity
 ezero   0.0000000    
  1.34709965E-36
   95.387306    

Total energy input of :1.302E-28 eV.cm-2.s-1 (qtoteV)
             of which 6.005E-30 is reflected (qsump)
                  and 1.347E-36 is absorbed (entot) 
                         through inelastic collisions (shsum =0.000E+00)
                                           + heating (elhsum =1.347E-36)
 This refers to an energy loss of  95.39 %


 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 :  1.349E-36 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  0.0000000E+00
 entot depart  1.34906227E-36  1.34906227E-36
 shsum :   0.0000000      1.34906227E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.34906227E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.34906227E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.34906227E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.34906227E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.34906227E-36   0.0000000       0.0000000    
 fin  1.34906227E-36   0.0000000           +Infinity
       +Infinity
       +Infinity       +Infinity
 ezero   0.0000000    
  1.34906227E-36
   95.386246    

Total energy input of :1.302E-28 eV.cm-2.s-1 (qtoteV)
             of which 6.006E-30 is reflected (qsump)
                  and 1.349E-36 is absorbed (entot) 
                         through inelastic collisions (shsum =0.000E+00)
                                           + heating (elhsum =1.349E-36)
 This refers to an energy loss of  95.39 %


 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 :  1.347E-36 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  0.0000000E+00
 entot depart  1.34709965E-36  1.34709965E-36
 shsum :   0.0000000      1.34709965E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.34709965E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.34709965E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.34709965E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.34709965E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.34709965E-36   0.0000000       0.0000000    
 fin  1.34709965E-36   0.0000000           +Infinity
       +Infinity
       +Infinity       +Infinity
 ezero   0.0000000    
  1.34709965E-36
   95.387108    

Total energy input of :1.302E-28 eV.cm-2.s-1 (qtoteV)
             of which 6.005E-30 is reflected (qsump)
                  and 1.347E-36 is absorbed (entot) 
                         through inelastic collisions (shsum =0.000E+00)
                                           + heating (elhsum =1.347E-36)
 This refers to an energy loss of  95.39 %


 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 :  1.349E-36 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  0.0000000E+00
 entot depart  1.34851843E-36  1.34851843E-36
 shsum :   0.0000000      1.34851843E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.34851843E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.34851843E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.34851843E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.34851843E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.34851843E-36   0.0000000       0.0000000    
 fin  1.34851843E-36   0.0000000           +Infinity
       +Infinity
       +Infinity       +Infinity
 ezero   0.0000000    
  1.34851843E-36
   95.387512    

Total energy input of :1.302E-28 eV.cm-2.s-1 (qtoteV)
             of which 6.005E-30 is reflected (qsump)
                  and 1.349E-36 is absorbed (entot) 
                         through inelastic collisions (shsum =0.000E+00)
                                           + heating (elhsum =1.349E-36)
 This refers to an energy loss of  95.39 %


 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 :  1.351E-36 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  0.0000000E+00
 entot depart  1.35117861E-36  1.35117861E-36
 shsum :   0.0000000      1.35117861E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.35117861E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.35117861E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.35117861E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.35117861E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.35117861E-36   0.0000000       0.0000000    
 fin  1.35117861E-36   0.0000000           +Infinity
       +Infinity
       +Infinity       +Infinity
 ezero   0.0000000    
  1.35117861E-36
   95.387527    

Total energy input of :1.302E-28 eV.cm-2.s-1 (qtoteV)
             of which 6.005E-30 is reflected (qsump)
                  and 1.351E-36 is absorbed (entot) 
                         through inelastic collisions (shsum =0.000E+00)
                                           + heating (elhsum =1.351E-36)
 This refers to an energy loss of  95.39 %


 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 :  1.346E-36 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  0.0000000E+00
 entot depart  1.34586991E-36  1.34586991E-36
 shsum :   0.0000000      1.34586991E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.34586991E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.34586991E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.34586991E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.34586991E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.34586991E-36   0.0000000       0.0000000    
 fin  1.34586991E-36   0.0000000           +Infinity
       +Infinity
       +Infinity       +Infinity
 ezero   0.0000000    
  1.34586991E-36
   95.385544    

Total energy input of :1.302E-28 eV.cm-2.s-1 (qtoteV)
             of which 6.007E-30 is reflected (qsump)
                  and 1.346E-36 is absorbed (entot) 
                         through inelastic collisions (shsum =0.000E+00)
                                           + heating (elhsum =1.346E-36)
 This refers to an energy loss of  95.39 %


 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 :  1.350E-36 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  0.0000000E+00
 entot depart  1.34981902E-36  1.34981902E-36
 shsum :   0.0000000      1.34981902E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.34981902E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.34981902E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.34981902E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.34981902E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.34981902E-36   0.0000000       0.0000000    
 fin  1.34981902E-36   0.0000000           +Infinity
       +Infinity
       +Infinity       +Infinity
 ezero   0.0000000    
  1.34981902E-36
   95.386719    

Total energy input of :1.302E-28 eV.cm-2.s-1 (qtoteV)
             of which 6.006E-30 is reflected (qsump)
                  and 1.350E-36 is absorbed (entot) 
                         through inelastic collisions (shsum =0.000E+00)
                                           + heating (elhsum =1.350E-36)
 This refers to an energy loss of  95.39 %


 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 :  1.351E-36 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  0.0000000E+00
 entot depart  1.35057559E-36  1.35057559E-36
 shsum :   0.0000000      1.35057559E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.35057559E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.35057559E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.35057559E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.35057559E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.35057559E-36   0.0000000       0.0000000    
 fin  1.35057559E-36   0.0000000           +Infinity
       +Infinity
       +Infinity       +Infinity
 ezero   0.0000000    
  1.35057559E-36
   95.387360    

Total energy input of :1.302E-28 eV.cm-2.s-1 (qtoteV)
             of which 6.005E-30 is reflected (qsump)
                  and 1.351E-36 is absorbed (entot) 
                         through inelastic collisions (shsum =0.000E+00)
                                           + heating (elhsum =1.351E-36)
 This refers to an energy loss of  95.39 %


 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 :  1.355E-36 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  0.0000000E+00
 entot depart  1.35539964E-36  1.35539964E-36
 shsum :   0.0000000      1.35539964E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.35539964E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.35539964E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.35539964E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.35539964E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.35539964E-36   0.0000000       0.0000000    
 fin  1.35539964E-36   0.0000000           +Infinity
       +Infinity
       +Infinity       +Infinity
 ezero   0.0000000    
  1.35539964E-36
   95.387558    

Total energy input of :1.302E-28 eV.cm-2.s-1 (qtoteV)
             of which 6.005E-30 is reflected (qsump)
                  and 1.355E-36 is absorbed (entot) 
                         through inelastic collisions (shsum =0.000E+00)
                                           + heating (elhsum =1.355E-36)
 This refers to an energy loss of  95.39 %


 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 :  1.338E-36 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  0.0000000E+00
 entot depart  1.33819645E-36  1.33819645E-36
 shsum :   0.0000000      1.33819645E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.33819645E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.33819645E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.33819645E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.33819645E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.33819645E-36   0.0000000       0.0000000    
 fin  1.33819645E-36   0.0000000           +Infinity
       +Infinity
       +Infinity       +Infinity
 ezero   0.0000000    
  1.33819645E-36
   95.384613    

Total energy input of :1.302E-28 eV.cm-2.s-1 (qtoteV)
             of which 6.008E-30 is reflected (qsump)
                  and 1.338E-36 is absorbed (entot) 
                         through inelastic collisions (shsum =0.000E+00)
                                           + heating (elhsum =1.338E-36)
 This refers to an energy loss of  95.38 %


 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 :  1.349E-36 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  0.0000000E+00
 entot depart  1.34906227E-36  1.34906227E-36
 shsum :   0.0000000      1.34906227E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.34906227E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.34906227E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.34906227E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.34906227E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.34906227E-36   0.0000000       0.0000000    
 fin  1.34906227E-36   0.0000000           +Infinity
       +Infinity
       +Infinity       +Infinity
 ezero   0.0000000    
  1.34906227E-36
   95.386101    

Total energy input of :1.302E-28 eV.cm-2.s-1 (qtoteV)
             of which 6.006E-30 is reflected (qsump)
                  and 1.349E-36 is absorbed (entot) 
                         through inelastic collisions (shsum =0.000E+00)
                                           + heating (elhsum =1.349E-36)
 This refers to an energy loss of  95.39 %


 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 :  1.352E-36 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  0.0000000E+00
 entot depart  1.35185258E-36  1.35185258E-36
 shsum :   0.0000000      1.35185258E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.35185258E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.35185258E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.35185258E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.35185258E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.35185258E-36   0.0000000       0.0000000    
 fin  1.35185258E-36   0.0000000           +Infinity
       +Infinity
       +Infinity       +Infinity
 ezero   0.0000000    
  1.35185258E-36
   95.387024    

Total energy input of :1.302E-28 eV.cm-2.s-1 (qtoteV)
             of which 6.005E-30 is reflected (qsump)
                  and 1.352E-36 is absorbed (entot) 
                         through inelastic collisions (shsum =0.000E+00)
                                           + heating (elhsum =1.352E-36)
 This refers to an energy loss of  95.39 %


 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 :  1.358E-36 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  0.0000000E+00
 entot depart  1.35801265E-36  1.35801265E-36
 shsum :   0.0000000      1.35801265E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.35801265E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.35801265E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.35801265E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.35801265E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.35801265E-36   0.0000000       0.0000000    
 fin  1.35801265E-36   0.0000000           +Infinity
       +Infinity
       +Infinity       +Infinity
 ezero   0.0000000    
  1.35801265E-36
   95.387444    

Total energy input of :1.302E-28 eV.cm-2.s-1 (qtoteV)
             of which 6.005E-30 is reflected (qsump)
                  and 1.358E-36 is absorbed (entot) 
                         through inelastic collisions (shsum =0.000E+00)
                                           + heating (elhsum =1.358E-36)
 This refers to an energy loss of  95.39 %


 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 :  1.333E-36 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  0.0000000E+00
 entot depart  1.33326594E-36  1.33326594E-36
 shsum :   0.0000000      1.33326594E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.33326594E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.33326594E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.33326594E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.33326594E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.33326594E-36   0.0000000       0.0000000    
 fin  1.33326594E-36   0.0000000           +Infinity
       +Infinity
       +Infinity       +Infinity
 ezero   0.0000000    
  1.33326594E-36
   95.383690    

Total energy input of :1.302E-28 eV.cm-2.s-1 (qtoteV)
             of which 6.010E-30 is reflected (qsump)
                  and 1.333E-36 is absorbed (entot) 
                         through inelastic collisions (shsum =0.000E+00)
                                           + heating (elhsum =1.333E-36)
 This refers to an energy loss of  95.38 %


 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 :  1.346E-36 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  0.0000000E+00
 entot depart  1.34647294E-36  1.34647294E-36
 shsum :   0.0000000      1.34647294E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.34647294E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.34647294E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.34647294E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.34647294E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.34647294E-36   0.0000000       0.0000000    
 fin  1.34647294E-36   0.0000000           +Infinity
       +Infinity
       +Infinity       +Infinity
 ezero   0.0000000    
  1.34647294E-36
   95.385399    

Total energy input of :1.302E-28 eV.cm-2.s-1 (qtoteV)
             of which 6.007E-30 is reflected (qsump)
                  and 1.346E-36 is absorbed (entot) 
                         through inelastic collisions (shsum =0.000E+00)
                                           + heating (elhsum =1.346E-36)
 This refers to an energy loss of  95.39 %


 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 :  1.353E-36 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  0.0000000E+00
 entot depart  1.35250288E-36  1.35250288E-36
 shsum :   0.0000000      1.35250288E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.35250288E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.35250288E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.35250288E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.35250288E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.35250288E-36   0.0000000       0.0000000    
 fin  1.35250288E-36   0.0000000           +Infinity
       +Infinity
       +Infinity       +Infinity
 ezero   0.0000000    
  1.35250288E-36
   95.386574    

Total energy input of :1.302E-28 eV.cm-2.s-1 (qtoteV)
             of which 6.006E-30 is reflected (qsump)
                  and 1.353E-36 is absorbed (entot) 
                         through inelastic collisions (shsum =0.000E+00)
                                           + heating (elhsum =1.353E-36)
 This refers to an energy loss of  95.39 %


 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 :  1.361E-36 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  0.0000000E+00
 entot depart  1.36064933E-36  1.36064933E-36
 shsum :   0.0000000      1.36064933E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.36064933E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.36064933E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.36064933E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.36064933E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.36064933E-36   0.0000000       0.0000000    
 fin  1.36064933E-36   0.0000000           +Infinity
       +Infinity
       +Infinity       +Infinity
 ezero   0.0000000    
  1.36064933E-36
   95.387215    

Total energy input of :1.302E-28 eV.cm-2.s-1 (qtoteV)
             of which 6.005E-30 is reflected (qsump)
                  and 1.361E-36 is absorbed (entot) 
                         through inelastic collisions (shsum =0.000E+00)
                                           + heating (elhsum =1.361E-36)
 This refers to an energy loss of  95.39 %


 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 :  1.331E-36 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  0.0000000E+00
 entot depart  1.33117327E-36  1.33117327E-36
 shsum :   0.0000000      1.33117327E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.33117327E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.33117327E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.33117327E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.33117327E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.33117327E-36   0.0000000       0.0000000    
 fin  1.33117327E-36   0.0000000           +Infinity
       +Infinity
       +Infinity       +Infinity
 ezero   0.0000000    
  1.33117327E-36
   95.383003    

Total energy input of :1.302E-28 eV.cm-2.s-1 (qtoteV)
             of which 6.011E-30 is reflected (qsump)
                  and 1.331E-36 is absorbed (entot) 
                         through inelastic collisions (shsum =0.000E+00)
                                           + heating (elhsum =1.331E-36)
 This refers to an energy loss of  95.38 %


 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 :  1.339E-36 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  0.0000000E+00
 entot depart  1.33879948E-36  1.33879948E-36
 shsum :   0.0000000      1.33879948E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.33879948E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.33879948E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.33879948E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.33879948E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.33879948E-36   0.0000000       0.0000000    
 fin  1.33879948E-36   0.0000000           +Infinity
       +Infinity
       +Infinity       +Infinity
 ezero   0.0000000    
  1.33879948E-36
   95.384781    

Total energy input of :1.302E-28 eV.cm-2.s-1 (qtoteV)
             of which 6.008E-30 is reflected (qsump)
                  and 1.339E-36 is absorbed (entot) 
                         through inelastic collisions (shsum =0.000E+00)
                                           + heating (elhsum =1.339E-36)
 This refers to an energy loss of  95.38 %


 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 :  1.354E-36 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  0.0000000E+00
 entot depart  1.35377978E-36  1.35377978E-36
 shsum :   0.0000000      1.35377978E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.35377978E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.35377978E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.35377978E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.35377978E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.35377978E-36   0.0000000       0.0000000    
 fin  1.35377978E-36   0.0000000           +Infinity
       +Infinity
       +Infinity       +Infinity
 ezero   0.0000000    
  1.35377978E-36
   95.386139    

Total energy input of :1.302E-28 eV.cm-2.s-1 (qtoteV)
             of which 6.006E-30 is reflected (qsump)
                  and 1.354E-36 is absorbed (entot) 
                         through inelastic collisions (shsum =0.000E+00)
                                           + heating (elhsum =1.354E-36)
 This refers to an energy loss of  95.39 %


 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 :  1.361E-36 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  0.0000000E+00
 entot depart  1.36140599E-36  1.36140599E-36
 shsum :   0.0000000      1.36140599E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.36140599E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.36140599E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.36140599E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.36140599E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.36140599E-36   0.0000000       0.0000000    
 fin  1.36140599E-36   0.0000000           +Infinity
       +Infinity
       +Infinity       +Infinity
 ezero   0.0000000    
  1.36140599E-36
   95.386986    

Total energy input of :1.302E-28 eV.cm-2.s-1 (qtoteV)
             of which 6.005E-30 is reflected (qsump)
                  and 1.361E-36 is absorbed (entot) 
                         through inelastic collisions (shsum =0.000E+00)
                                           + heating (elhsum =1.361E-36)
 This refers to an energy loss of  95.39 %


 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 :  1.329E-36 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  0.0000000E+00
 entot depart  1.32873766E-36  1.32873766E-36
 shsum :   0.0000000      1.32873766E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.32873766E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.32873766E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.32873766E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.32873766E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.32873766E-36   0.0000000       0.0000000    
 fin  1.32873766E-36   0.0000000           +Infinity
       +Infinity
       +Infinity       +Infinity
 ezero   0.0000000    
  1.32873766E-36
   95.382652    

Total energy input of :1.302E-28 eV.cm-2.s-1 (qtoteV)
             of which 6.011E-30 is reflected (qsump)
                  and 1.329E-36 is absorbed (entot) 
                         through inelastic collisions (shsum =0.000E+00)
                                           + heating (elhsum =1.329E-36)
 This refers to an energy loss of  95.38 %


 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 :  1.338E-36 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  0.0000000E+00
 entot depart  1.33807825E-36  1.33807825E-36
 shsum :   0.0000000      1.33807825E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.33807825E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.33807825E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.33807825E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.33807825E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.33807825E-36   0.0000000       0.0000000    
 fin  1.33807825E-36   0.0000000           +Infinity
       +Infinity
       +Infinity       +Infinity
 ezero   0.0000000    
  1.33807825E-36
   95.384392    

Total energy input of :1.302E-28 eV.cm-2.s-1 (qtoteV)
             of which 6.009E-30 is reflected (qsump)
                  and 1.338E-36 is absorbed (entot) 
                         through inelastic collisions (shsum =0.000E+00)
                                           + heating (elhsum =1.338E-36)
 This refers to an energy loss of  95.38 %


 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 :  1.355E-36 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  0.0000000E+00
 entot depart  1.35486755E-36  1.35486755E-36
 shsum :   0.0000000      1.35486755E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.35486755E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.35486755E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.35486755E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.35486755E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.35486755E-36   0.0000000       0.0000000    
 fin  1.35486755E-36   0.0000000           +Infinity
       +Infinity
       +Infinity       +Infinity
 ezero   0.0000000    
  1.35486755E-36
   95.385818    

Total energy input of :1.302E-28 eV.cm-2.s-1 (qtoteV)
             of which 6.007E-30 is reflected (qsump)
                  and 1.355E-36 is absorbed (entot) 
                         through inelastic collisions (shsum =0.000E+00)
                                           + heating (elhsum =1.355E-36)
 This refers to an energy loss of  95.39 %


 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 :  1.363E-36 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  0.0000000E+00
 entot depart  1.36270657E-36  1.36270657E-36
 shsum :   0.0000000      1.36270657E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.36270657E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.36270657E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.36270657E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.36270657E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.36270657E-36   0.0000000       0.0000000    
 fin  1.36270657E-36   0.0000000           +Infinity
       +Infinity
       +Infinity       +Infinity
 ezero   0.0000000    
  1.36270657E-36
   95.386803    

Total energy input of :1.302E-28 eV.cm-2.s-1 (qtoteV)
             of which 6.006E-30 is reflected (qsump)
                  and 1.363E-36 is absorbed (entot) 
                         through inelastic collisions (shsum =0.000E+00)
                                           + heating (elhsum =1.363E-36)
 This refers to an energy loss of  95.39 %


 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 :  1.326E-36 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  0.0000000E+00
 entot depart  1.32579363E-36  1.32579363E-36
 shsum :   0.0000000      1.32579363E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.32579363E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.32579363E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.32579363E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.32579363E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.32579363E-36   0.0000000       0.0000000    
 fin  1.32579363E-36   0.0000000           +Infinity
       +Infinity
       +Infinity       +Infinity
 ezero   0.0000000    
  1.32579363E-36
   95.382576    

Total energy input of :1.302E-28 eV.cm-2.s-1 (qtoteV)
             of which 6.011E-30 is reflected (qsump)
                  and 1.326E-36 is absorbed (entot) 
                         through inelastic collisions (shsum =0.000E+00)
                                           + heating (elhsum =1.326E-36)
 This refers to an energy loss of  95.38 %


 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 :  1.337E-36 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  0.0000000E+00
 entot depart  1.33655291E-36  1.33655291E-36
 shsum :   0.0000000      1.33655291E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.33655291E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.33655291E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.33655291E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.33655291E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.33655291E-36   0.0000000       0.0000000    
 fin  1.33655291E-36   0.0000000           +Infinity
       +Infinity
       +Infinity       +Infinity
 ezero   0.0000000    
  1.33655291E-36
   95.384224    

Total energy input of :1.302E-28 eV.cm-2.s-1 (qtoteV)
             of which 6.009E-30 is reflected (qsump)
                  and 1.337E-36 is absorbed (entot) 
                         through inelastic collisions (shsum =0.000E+00)
                                           + heating (elhsum =1.337E-36)
 This refers to an energy loss of  95.38 %


 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 :  1.355E-36 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  0.0000000E+00
 entot depart  1.35486755E-36  1.35486755E-36
 shsum :   0.0000000      1.35486755E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.35486755E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.35486755E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.35486755E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.35486755E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.35486755E-36   0.0000000       0.0000000    
 fin  1.35486755E-36   0.0000000           +Infinity
       +Infinity
       +Infinity       +Infinity
 ezero   0.0000000    
  1.35486755E-36
   95.385666    

Total energy input of :1.302E-28 eV.cm-2.s-1 (qtoteV)
             of which 6.007E-30 is reflected (qsump)
                  and 1.355E-36 is absorbed (entot) 
                         through inelastic collisions (shsum =0.000E+00)
                                           + heating (elhsum =1.355E-36)
 This refers to an energy loss of  95.39 %


 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 :  1.365E-36 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  0.0000000E+00
 entot depart  1.36542621E-36  1.36542621E-36
 shsum :   0.0000000      1.36542621E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.36542621E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.36542621E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.36542621E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.36542621E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.36542621E-36   0.0000000       0.0000000    
 fin  1.36542621E-36   0.0000000           +Infinity
       +Infinity
       +Infinity       +Infinity
 ezero   0.0000000    
  1.36542621E-36
   95.386711    

Total energy input of :1.302E-28 eV.cm-2.s-1 (qtoteV)
             of which 6.006E-30 is reflected (qsump)
                  and 1.365E-36 is absorbed (entot) 
                         through inelastic collisions (shsum =0.000E+00)
                                           + heating (elhsum =1.365E-36)
 This refers to an energy loss of  95.39 %


 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 :  1.325E-36 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  0.0000000E+00
 entot depart  1.32506056E-36  1.32506056E-36
 shsum :   0.0000000      1.32506056E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.32506056E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.32506056E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.32506056E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.32506056E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.32506056E-36   0.0000000       0.0000000    
 fin  1.32506056E-36   0.0000000           +Infinity
       +Infinity
       +Infinity       +Infinity
 ezero   0.0000000    
  1.32506056E-36
   95.382698    

Total energy input of :1.302E-28 eV.cm-2.s-1 (qtoteV)
             of which 6.011E-30 is reflected (qsump)
                  and 1.325E-36 is absorbed (entot) 
                         through inelastic collisions (shsum =0.000E+00)
                                           + heating (elhsum =1.325E-36)
 This refers to an energy loss of  95.38 %


 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 :  1.335E-36 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  0.0000000E+00
 entot depart  1.33519323E-36  1.33519323E-36
 shsum :   0.0000000      1.33519323E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.33519323E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.33519323E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.33519323E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.33519323E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.33519323E-36   0.0000000       0.0000000    
 fin  1.33519323E-36   0.0000000           +Infinity
       +Infinity
       +Infinity       +Infinity
 ezero   0.0000000    
  1.33519323E-36
   95.384254    

Total energy input of :1.302E-28 eV.cm-2.s-1 (qtoteV)
             of which 6.009E-30 is reflected (qsump)
                  and 1.335E-36 is absorbed (entot) 
                         through inelastic collisions (shsum =0.000E+00)
                                           + heating (elhsum =1.335E-36)
 This refers to an energy loss of  95.38 %


 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 :  1.355E-36 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  0.0000000E+00
 entot depart  1.35486755E-36  1.35486755E-36
 shsum :   0.0000000      1.35486755E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.35486755E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.35486755E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.35486755E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.35486755E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.35486755E-36   0.0000000       0.0000000    
 fin  1.35486755E-36   0.0000000           +Infinity
       +Infinity
       +Infinity       +Infinity
 ezero   0.0000000    
  1.35486755E-36
   95.385651    

Total energy input of :1.302E-28 eV.cm-2.s-1 (qtoteV)
             of which 6.007E-30 is reflected (qsump)
                  and 1.355E-36 is absorbed (entot) 
                         through inelastic collisions (shsum =0.000E+00)
                                           + heating (elhsum =1.355E-36)
 This refers to an energy loss of  95.39 %


 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 :  1.368E-36 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  0.0000000E+00
 entot depart  1.36802720E-36  1.36802720E-36
 shsum :   0.0000000      1.36802720E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.36802720E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.36802720E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.36802720E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.36802720E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.36802720E-36   0.0000000       0.0000000    
 fin  1.36802720E-36   0.0000000           +Infinity
       +Infinity
       +Infinity       +Infinity
 ezero   0.0000000    
  1.36802720E-36
   95.386703    

Total energy input of :1.302E-28 eV.cm-2.s-1 (qtoteV)
             of which 6.006E-30 is reflected (qsump)
                  and 1.368E-36 is absorbed (entot) 
                         through inelastic collisions (shsum =0.000E+00)
                                           + heating (elhsum =1.368E-36)
 This refers to an energy loss of  95.39 %


 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 :  1.324E-36 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  0.0000000E+00
 entot depart  1.32360626E-36  1.32360626E-36
 shsum :   0.0000000      1.32360626E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.32360626E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.32360626E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.32360626E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.32360626E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.32360626E-36   0.0000000       0.0000000    
 fin  1.32360626E-36   0.0000000           +Infinity
       +Infinity
       +Infinity       +Infinity
 ezero   0.0000000    
  1.32360626E-36
   95.382950    

Total energy input of :1.302E-28 eV.cm-2.s-1 (qtoteV)
             of which 6.011E-30 is reflected (qsump)
                  and 1.324E-36 is absorbed (entot) 
                         through inelastic collisions (shsum =0.000E+00)
                                           + heating (elhsum =1.324E-36)
 This refers to an energy loss of  95.38 %


 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 :  1.335E-36 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  0.0000000E+00
 entot depart  1.33519323E-36  1.33519323E-36
 shsum :   0.0000000      1.33519323E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.33519323E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.33519323E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.33519323E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.33519323E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.33519323E-36   0.0000000       0.0000000    
 fin  1.33519323E-36   0.0000000           +Infinity
       +Infinity
       +Infinity       +Infinity
 ezero   0.0000000    
  1.33519323E-36
   95.384392    

Total energy input of :1.302E-28 eV.cm-2.s-1 (qtoteV)
             of which 6.009E-30 is reflected (qsump)
                  and 1.335E-36 is absorbed (entot) 
                         through inelastic collisions (shsum =0.000E+00)
                                           + heating (elhsum =1.335E-36)
 This refers to an energy loss of  95.38 %


 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 :  1.356E-36 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  0.0000000E+00
 entot depart  1.35551793E-36  1.35551793E-36
 shsum :   0.0000000      1.35551793E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.35551793E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.35551793E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.35551793E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.35551793E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.35551793E-36   0.0000000       0.0000000    
 fin  1.35551793E-36   0.0000000           +Infinity
       +Infinity
       +Infinity       +Infinity
 ezero   0.0000000    
  1.35551793E-36
   95.385735    

Total energy input of :1.302E-28 eV.cm-2.s-1 (qtoteV)
             of which 6.007E-30 is reflected (qsump)
                  and 1.356E-36 is absorbed (entot) 
                         through inelastic collisions (shsum =0.000E+00)
                                           + heating (elhsum =1.356E-36)
 This refers to an energy loss of  95.39 %


 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 :  1.369E-36 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  0.0000000E+00
 entot depart  1.36863023E-36  1.36863023E-36
 shsum :   0.0000000      1.36863023E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.36863023E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.36863023E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.36863023E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.36863023E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.36863023E-36   0.0000000       0.0000000    
 fin  1.36863023E-36   0.0000000           +Infinity
       +Infinity
       +Infinity       +Infinity
 ezero   0.0000000    
  1.36863023E-36
   95.386726    

Total energy input of :1.302E-28 eV.cm-2.s-1 (qtoteV)
             of which 6.006E-30 is reflected (qsump)
                  and 1.369E-36 is absorbed (entot) 
                         through inelastic collisions (shsum =0.000E+00)
                                           + heating (elhsum =1.369E-36)
 This refers to an energy loss of  95.39 %


 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 :  1.323E-36 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  0.0000000E+00
 entot depart  1.32287337E-36  1.32287337E-36
 shsum :   0.0000000      1.32287337E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.32287337E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.32287337E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.32287337E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.32287337E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.32287337E-36   0.0000000       0.0000000    
 fin  1.32287337E-36   0.0000000           +Infinity
       +Infinity
       +Infinity       +Infinity
 ezero   0.0000000    
  1.32287337E-36
   95.383301    

Total energy input of :1.302E-28 eV.cm-2.s-1 (qtoteV)
             of which 6.010E-30 is reflected (qsump)
                  and 1.323E-36 is absorbed (entot) 
                         through inelastic collisions (shsum =0.000E+00)
                                           + heating (elhsum =1.323E-36)
 This refers to an energy loss of  95.38 %


 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 :  1.335E-36 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  0.0000000E+00
 entot depart  1.33519323E-36  1.33519323E-36
 shsum :   0.0000000      1.33519323E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.33519323E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.33519323E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.33519323E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.33519323E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.33519323E-36   0.0000000       0.0000000    
 fin  1.33519323E-36   0.0000000           +Infinity
       +Infinity
       +Infinity       +Infinity
 ezero   0.0000000    
  1.33519323E-36
   95.384628    

Total energy input of :1.302E-28 eV.cm-2.s-1 (qtoteV)
             of which 6.008E-30 is reflected (qsump)
                  and 1.335E-36 is absorbed (entot) 
                         through inelastic collisions (shsum =0.000E+00)
                                           + heating (elhsum =1.335E-36)
 This refers to an energy loss of  95.38 %


 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 :  1.356E-36 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  0.0000000E+00
 entot depart  1.35627459E-36  1.35627459E-36
 shsum :   0.0000000      1.35627459E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.35627459E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.35627459E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.35627459E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.35627459E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.35627459E-36   0.0000000       0.0000000    
 fin  1.35627459E-36   0.0000000           +Infinity
       +Infinity
       +Infinity       +Infinity
 ezero   0.0000000    
  1.35627459E-36
   95.385864    

Total energy input of :1.302E-28 eV.cm-2.s-1 (qtoteV)
             of which 6.007E-30 is reflected (qsump)
                  and 1.356E-36 is absorbed (entot) 
                         through inelastic collisions (shsum =0.000E+00)
                                           + heating (elhsum =1.356E-36)
 This refers to an energy loss of  95.39 %


 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 :  1.370E-36 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  0.0000000E+00
 entot depart  1.37006085E-36  1.37006085E-36
 shsum :   0.0000000      1.37006085E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.37006085E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.37006085E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.37006085E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.37006085E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.37006085E-36   0.0000000       0.0000000    
 fin  1.37006085E-36   0.0000000           +Infinity
       +Infinity
       +Infinity       +Infinity
 ezero   0.0000000    
  1.37006085E-36
   95.386787    

Total energy input of :1.302E-28 eV.cm-2.s-1 (qtoteV)
             of which 6.006E-30 is reflected (qsump)
                  and 1.370E-36 is absorbed (entot) 
                         through inelastic collisions (shsum =0.000E+00)
                                           + heating (elhsum =1.370E-36)
 This refers to an energy loss of  95.39 %


 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 :  1.324E-36 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  0.0000000E+00
 entot depart  1.32376007E-36  1.32376007E-36
 shsum :   0.0000000      1.32376007E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.32376007E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.32376007E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.32376007E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.32376007E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.32376007E-36   0.0000000       0.0000000    
 fin  1.32376007E-36   0.0000000           +Infinity
       +Infinity
       +Infinity       +Infinity
 ezero   0.0000000    
  1.32376007E-36
   95.383705    

Total energy input of :1.302E-28 eV.cm-2.s-1 (qtoteV)
             of which 6.010E-30 is reflected (qsump)
                  and 1.324E-36 is absorbed (entot) 
                         through inelastic collisions (shsum =0.000E+00)
                                           + heating (elhsum =1.324E-36)
 This refers to an energy loss of  95.38 %


 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 :  1.337E-36 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  0.0000000E+00
 entot depart  1.33733334E-36  1.33733334E-36
 shsum :   0.0000000      1.33733334E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.33733334E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.33733334E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.33733334E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.33733334E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.33733334E-36   0.0000000       0.0000000    
 fin  1.33733334E-36   0.0000000           +Infinity
       +Infinity
       +Infinity       +Infinity
 ezero   0.0000000    
  1.33733334E-36
   95.384895    

Total energy input of :1.302E-28 eV.cm-2.s-1 (qtoteV)
             of which 6.008E-30 is reflected (qsump)
                  and 1.337E-36 is absorbed (entot) 
                         through inelastic collisions (shsum =0.000E+00)
                                           + heating (elhsum =1.337E-36)
 This refers to an energy loss of  95.38 %


 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 :  1.357E-36 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  0.0000000E+00
 entot depart  1.35693672E-36  1.35693672E-36
 shsum :   0.0000000      1.35693672E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.35693672E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.35693672E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.35693672E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.35693672E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.35693672E-36   0.0000000       0.0000000    
 fin  1.35693672E-36   0.0000000           +Infinity
       +Infinity
       +Infinity       +Infinity
 ezero   0.0000000    
  1.35693672E-36
   95.386024    

Total energy input of :1.302E-28 eV.cm-2.s-1 (qtoteV)
             of which 6.007E-30 is reflected (qsump)
                  and 1.357E-36 is absorbed (entot) 
                         through inelastic collisions (shsum =0.000E+00)
                                           + heating (elhsum =1.357E-36)
 This refers to an energy loss of  95.39 %


 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 :  1.372E-36 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  0.0000000E+00
 entot depart  1.37210626E-36  1.37210626E-36
 shsum :   0.0000000      1.37210626E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.37210626E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.37210626E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.37210626E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.37210626E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.37210626E-36   0.0000000       0.0000000    
 fin  1.37210626E-36   0.0000000           +Infinity
       +Infinity
       +Infinity       +Infinity
 ezero   0.0000000    
  1.37210626E-36
   95.386841    

Total energy input of :1.302E-28 eV.cm-2.s-1 (qtoteV)
             of which 6.006E-30 is reflected (qsump)
                  and 1.372E-36 is absorbed (entot) 
                         through inelastic collisions (shsum =0.000E+00)
                                           + heating (elhsum =1.372E-36)
 This refers to an energy loss of  95.39 %


 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 :  1.325E-36 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  0.0000000E+00
 entot depart  1.32548629E-36  1.32548629E-36
 shsum :   0.0000000      1.32548629E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.32548629E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.32548629E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.32548629E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.32548629E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.32548629E-36   0.0000000       0.0000000    
 fin  1.32548629E-36   0.0000000           +Infinity
       +Infinity
       +Infinity       +Infinity
 ezero   0.0000000    
  1.32548629E-36
   95.384148    

Total energy input of :1.302E-28 eV.cm-2.s-1 (qtoteV)
             of which 6.009E-30 is reflected (qsump)
                  and 1.325E-36 is absorbed (entot) 
                         through inelastic collisions (shsum =0.000E+00)
                                           + heating (elhsum =1.325E-36)
 This refers to an energy loss of  95.38 %


 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 :  1.338E-36 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  0.0000000E+00
 entot depart  1.33807825E-36  1.33807825E-36
 shsum :   0.0000000      1.33807825E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.33807825E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.33807825E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.33807825E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.33807825E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.33807825E-36   0.0000000       0.0000000    
 fin  1.33807825E-36   0.0000000           +Infinity
       +Infinity
       +Infinity       +Infinity
 ezero   0.0000000    
  1.33807825E-36
   95.385185    

Total energy input of :1.302E-28 eV.cm-2.s-1 (qtoteV)
             of which 6.008E-30 is reflected (qsump)
                  and 1.338E-36 is absorbed (entot) 
                         through inelastic collisions (shsum =0.000E+00)
                                           + heating (elhsum =1.338E-36)
 This refers to an energy loss of  95.39 %


 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 :  1.360E-36 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  0.0000000E+00
 entot depart  1.35978631E-36  1.35978631E-36
 shsum :   0.0000000      1.35978631E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.35978631E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.35978631E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.35978631E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.35978631E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.35978631E-36   0.0000000       0.0000000    
 fin  1.35978631E-36   0.0000000           +Infinity
       +Infinity
       +Infinity       +Infinity
 ezero   0.0000000    
  1.35978631E-36
   95.386162    

Total energy input of :1.302E-28 eV.cm-2.s-1 (qtoteV)
             of which 6.006E-30 is reflected (qsump)
                  and 1.360E-36 is absorbed (entot) 
                         through inelastic collisions (shsum =0.000E+00)
                                           + heating (elhsum =1.360E-36)
 This refers to an energy loss of  95.39 %


 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 :  1.375E-36 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  0.0000000E+00
 entot depart  1.37539305E-36  1.37539305E-36
 shsum :   0.0000000      1.37539305E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.37539305E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.37539305E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.37539305E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.37539305E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.37539305E-36   0.0000000       0.0000000    
 fin  1.37539305E-36   0.0000000           +Infinity
       +Infinity
       +Infinity       +Infinity
 ezero   0.0000000    
  1.37539305E-36
   95.386871    

Total energy input of :1.302E-28 eV.cm-2.s-1 (qtoteV)
             of which 6.005E-30 is reflected (qsump)
                  and 1.375E-36 is absorbed (entot) 
                         through inelastic collisions (shsum =0.000E+00)
                                           + heating (elhsum =1.375E-36)
 This refers to an energy loss of  95.39 %


 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 :  1.327E-36 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  0.0000000E+00
 entot depart  1.32704695E-36  1.32704695E-36
 shsum :   0.0000000      1.32704695E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.32704695E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.32704695E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.32704695E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.32704695E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.32704695E-36   0.0000000       0.0000000    
 fin  1.32704695E-36   0.0000000           +Infinity
       +Infinity
       +Infinity       +Infinity
 ezero   0.0000000    
  1.32704695E-36
   95.384583    

Total energy input of :1.302E-28 eV.cm-2.s-1 (qtoteV)
             of which 6.008E-30 is reflected (qsump)
                  and 1.327E-36 is absorbed (entot) 
                         through inelastic collisions (shsum =0.000E+00)
                                           + heating (elhsum =1.327E-36)
 This refers to an energy loss of  95.38 %


 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 :  1.343E-36 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  0.0000000E+00
 entot depart  1.34313870E-36  1.34313870E-36
 shsum :   0.0000000      1.34313870E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.34313870E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.34313870E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.34313870E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.34313870E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.34313870E-36   0.0000000       0.0000000    
 fin  1.34313870E-36   0.0000000           +Infinity
       +Infinity
       +Infinity       +Infinity
 ezero   0.0000000    
  1.34313870E-36
   95.385452    

Total energy input of :1.302E-28 eV.cm-2.s-1 (qtoteV)
             of which 6.007E-30 is reflected (qsump)
                  and 1.343E-36 is absorbed (entot) 
                         through inelastic collisions (shsum =0.000E+00)
                                           + heating (elhsum =1.343E-36)
 This refers to an energy loss of  95.39 %


 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 :  1.362E-36 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  0.0000000E+00
 entot depart  1.36187906E-36  1.36187906E-36
 shsum :   0.0000000      1.36187906E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.36187906E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.36187906E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.36187906E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.36187906E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.36187906E-36   0.0000000       0.0000000    
 fin  1.36187906E-36   0.0000000           +Infinity
       +Infinity
       +Infinity       +Infinity
 ezero   0.0000000    
  1.36187906E-36
   95.386284    

Total energy input of :1.302E-28 eV.cm-2.s-1 (qtoteV)
             of which 6.006E-30 is reflected (qsump)
                  and 1.362E-36 is absorbed (entot) 
                         through inelastic collisions (shsum =0.000E+00)
                                           + heating (elhsum =1.362E-36)
 This refers to an energy loss of  95.39 %


 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 :  1.378E-36 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  0.0000000E+00
 entot depart  1.37754482E-36  1.37754482E-36
 shsum :   0.0000000      1.37754482E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.37754482E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.37754482E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.37754482E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.37754482E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.37754482E-36   0.0000000       0.0000000    
 fin  1.37754482E-36   0.0000000           +Infinity
       +Infinity
       +Infinity       +Infinity
 ezero   0.0000000    
  1.37754482E-36
   95.386856    

Total energy input of :1.302E-28 eV.cm-2.s-1 (qtoteV)
             of which 6.006E-30 is reflected (qsump)
                  and 1.378E-36 is absorbed (entot) 
                         through inelastic collisions (shsum =0.000E+00)
                                           + heating (elhsum =1.378E-36)
 This refers to an energy loss of  95.39 %


 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 :  1.328E-36 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  0.0000000E+00
 entot depart  1.32778002E-36  1.32778002E-36
 shsum :   0.0000000      1.32778002E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.32778002E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.32778002E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.32778002E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.32778002E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.32778002E-36   0.0000000       0.0000000    
 fin  1.32778002E-36   0.0000000           +Infinity
       +Infinity
       +Infinity       +Infinity
 ezero   0.0000000    
  1.32778002E-36
   95.384941    

Total energy input of :1.302E-28 eV.cm-2.s-1 (qtoteV)
             of which 6.008E-30 is reflected (qsump)
                  and 1.328E-36 is absorbed (entot) 
                         through inelastic collisions (shsum =0.000E+00)
                                           + heating (elhsum =1.328E-36)
 This refers to an energy loss of  95.38 %


 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 :  1.345E-36 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  0.0000000E+00
 entot depart  1.34486492E-36  1.34486492E-36
 shsum :   0.0000000      1.34486492E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.34486492E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.34486492E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.34486492E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.34486492E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.34486492E-36   0.0000000       0.0000000    
 fin  1.34486492E-36   0.0000000           +Infinity
       +Infinity
       +Infinity       +Infinity
 ezero   0.0000000    
  1.34486492E-36
   95.385651    

Total energy input of :1.302E-28 eV.cm-2.s-1 (qtoteV)
             of which 6.007E-30 is reflected (qsump)
                  and 1.345E-36 is absorbed (entot) 
                         through inelastic collisions (shsum =0.000E+00)
                                           + heating (elhsum =1.345E-36)
 This refers to an energy loss of  95.39 %


 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 :  1.363E-36 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  0.0000000E+00
 entot depart  1.36321498E-36  1.36321498E-36
 shsum :   0.0000000      1.36321498E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.36321498E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.36321498E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.36321498E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.36321498E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.36321498E-36   0.0000000       0.0000000    
 fin  1.36321498E-36   0.0000000           +Infinity
       +Infinity
       +Infinity       +Infinity
 ezero   0.0000000    
  1.36321498E-36
   95.386330    

Total energy input of :1.302E-28 eV.cm-2.s-1 (qtoteV)
             of which 6.006E-30 is reflected (qsump)
                  and 1.363E-36 is absorbed (entot) 
                         through inelastic collisions (shsum =0.000E+00)
                                           + heating (elhsum =1.363E-36)
 This refers to an energy loss of  95.39 %


 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 :  1.379E-36 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  0.0000000E+00
 entot depart  1.37891643E-36  1.37891643E-36
 shsum :   0.0000000      1.37891643E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.37891643E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.37891643E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.37891643E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.37891643E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.37891643E-36   0.0000000       0.0000000    
 fin  1.37891643E-36   0.0000000           +Infinity
       +Infinity
       +Infinity       +Infinity
 ezero   0.0000000    
  1.37891643E-36
   95.386787    

Total energy input of :1.302E-28 eV.cm-2.s-1 (qtoteV)
             of which 6.006E-30 is reflected (qsump)
                  and 1.379E-36 is absorbed (entot) 
                         through inelastic collisions (shsum =0.000E+00)
                                           + heating (elhsum =1.379E-36)
 This refers to an energy loss of  95.39 %


 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 :  1.328E-36 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  0.0000000E+00
 entot depart  1.32845399E-36  1.32845399E-36
 shsum :   0.0000000      1.32845399E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.32845399E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.32845399E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.32845399E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.32845399E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.32845399E-36   0.0000000       0.0000000    
 fin  1.32845399E-36   0.0000000           +Infinity
       +Infinity
       +Infinity       +Infinity
 ezero   0.0000000    
  1.32845399E-36
   95.385178    

Total energy input of :1.302E-28 eV.cm-2.s-1 (qtoteV)
             of which 6.008E-30 is reflected (qsump)
                  and 1.328E-36 is absorbed (entot) 
                         through inelastic collisions (shsum =0.000E+00)
                                           + heating (elhsum =1.328E-36)
 This refers to an energy loss of  95.39 %


 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 :  1.346E-36 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  0.0000000E+00
 entot depart  1.34647294E-36  1.34647294E-36
 shsum :   0.0000000      1.34647294E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.34647294E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.34647294E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.34647294E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.34647294E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.34647294E-36   0.0000000       0.0000000    
 fin  1.34647294E-36   0.0000000           +Infinity
       +Infinity
       +Infinity       +Infinity
 ezero   0.0000000    
  1.34647294E-36
   95.385735    

Total energy input of :1.302E-28 eV.cm-2.s-1 (qtoteV)
             of which 6.007E-30 is reflected (qsump)
                  and 1.346E-36 is absorbed (entot) 
                         through inelastic collisions (shsum =0.000E+00)
                                           + heating (elhsum =1.346E-36)
 This refers to an energy loss of  95.39 %


 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 :  1.365E-36 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  0.0000000E+00
 entot depart  1.36527240E-36  1.36527240E-36
 shsum :   0.0000000      1.36527240E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.36527240E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.36527240E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.36527240E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.36527240E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.36527240E-36   0.0000000       0.0000000    
 fin  1.36527240E-36   0.0000000           +Infinity
       +Infinity
       +Infinity       +Infinity
 ezero   0.0000000    
  1.36527240E-36
   95.386276    

Total energy input of :1.302E-28 eV.cm-2.s-1 (qtoteV)
             of which 6.006E-30 is reflected (qsump)
                  and 1.365E-36 is absorbed (entot) 
                         through inelastic collisions (shsum =0.000E+00)
                                           + heating (elhsum =1.365E-36)
 This refers to an energy loss of  95.39 %


 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 : 5.9403E+05 [eV/cm2/s]
                                                             or : 9.5176E-07 [erg/cm2/s]
 That variable "errorgaupin" is:           81

 MAIN : Total energy deposition in [CO2] is 1.347E+05 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 2.118E+04 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 1.197E+04 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 6.255E+04 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 8.792E-04 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 1.642E-04 [eV.cm-2.s-1] ("shsum").
   1713.5042               2          21
   1805.5994               2          23

 Total Heating :  5.797E-01 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  1.3112472E-08
 entot depart  0.57966679      0.57966679    
 shsum :   6826.3682       134704.45       134703.88       134703.88    
 shsum :   7322.9399       155881.34       21176.893       155880.77    
 shsum :   7590.5947       167851.17       11969.822       167850.59    
 shsum :   10070.089       230400.48       62549.316       230399.91    
 shsum :   10070.089       230400.48      8.79152562E-04   230399.91    
 shsum :   10070.089       230400.48      1.64170604E-04   230399.91    
 fin   230400.48       10070.089       58.989929    
   22.879686    
   19.988060       58.989929    
 ezero   0.0000000    
   230400.48    
   4.9019017    

Total energy input of :5.940E+05 eV.cm-2.s-1 (qtoteV)
             of which 3.928E+05 is reflected (qsump)
                  and 2.304E+05 is absorbed (entot) 
                         through inelastic collisions (shsum =2.304E+05)
                                           + heating (elhsum =5.797E-01)
 This refers to an energy gain of   4.90 %


 The average E. loss per ion pair is :  58.99 eV (from qtoteV)
                                  or :  22.88 eV (from (entot))
                                  or :  19.99 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 :  1.328E-36 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  0.0000000E+00
 entot depart  1.32845399E-36  1.32845399E-36
 shsum :   0.0000000      1.32845399E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.32845399E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.32845399E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.32845399E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.32845399E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.32845399E-36   0.0000000       0.0000000    
 fin  1.32845399E-36   0.0000000           +Infinity
       +Infinity
       +Infinity       +Infinity
 ezero   0.0000000    
  1.32845399E-36
   95.385208    

Total energy input of :1.302E-28 eV.cm-2.s-1 (qtoteV)
             of which 6.008E-30 is reflected (qsump)
                  and 1.328E-36 is absorbed (entot) 
                         through inelastic collisions (shsum =0.000E+00)
                                           + heating (elhsum =1.328E-36)
 This refers to an energy loss of  95.39 %


 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 :  1.348E-36 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  0.0000000E+00
 entot depart  1.34779720E-36  1.34779720E-36
 shsum :   0.0000000      1.34779720E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.34779720E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.34779720E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.34779720E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.34779720E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.34779720E-36   0.0000000       0.0000000    
 fin  1.34779720E-36   0.0000000           +Infinity
       +Infinity
       +Infinity       +Infinity
 ezero   0.0000000    
  1.34779720E-36
   95.385666    

Total energy input of :1.302E-28 eV.cm-2.s-1 (qtoteV)
             of which 6.007E-30 is reflected (qsump)
                  and 1.348E-36 is absorbed (entot) 
                         through inelastic collisions (shsum =0.000E+00)
                                           + heating (elhsum =1.348E-36)
 This refers to an energy loss of  95.39 %


 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 : 1.4455E+05 [eV/cm2/s]
                                                             or : 2.3160E-07 [erg/cm2/s]
 That variable "errorgaupin" is:           82

 MAIN : Total energy deposition in [CO2] is 3.341E+04 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 5.161E+03 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 2.909E+03 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 1.501E+04 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 2.068E-04 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 3.890E-05 [eV.cm-2.s-1] ("shsum").
   415.63196               2          21
   438.44025               2          23

 Total Heating :  1.400E-01 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  3.2031804E-09
 entot depart  0.13998374      0.13998374    
 shsum :   1630.5327       33407.891       33407.750       33407.750    
 shsum :   1751.8378       38569.156       5161.2666       38569.016    
 shsum :   1816.9430       41478.027       2908.8711       41477.887    
 shsum :   2412.1387       56488.188       15010.158       56488.047    
 shsum :   2412.1387       56488.188      2.06771991E-04   56488.047    
 shsum :   2412.1387       56488.188      3.89047091E-05   56488.047    
 fin   56488.188       2412.1387       59.926643    
   23.418301    
   19.924616       59.926643    
 ezero   0.0000000    
   56488.188    
   5.8299341    

Total energy input of :1.446E+05 eV.cm-2.s-1 (qtoteV)
             of which 9.649E+04 is reflected (qsump)
                  and 5.649E+04 is absorbed (entot) 
                         through inelastic collisions (shsum =5.649E+04)
                                           + heating (elhsum =1.400E-01)
 This refers to an energy gain of   5.83 %


 The average E. loss per ion pair is :  59.93 eV (from qtoteV)
                                  or :  23.42 eV (from (entot))
                                  or :  19.92 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 : 2.0916E+07 [eV/cm2/s]
                                                             or : 3.3512E-05 [erg/cm2/s]
 That variable "errorgaupin" is:           84

 MAIN : Total energy deposition in [CO2] is 3.758E+06 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 7.378E+05 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 4.481E+05 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 2.648E+06 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 3.810E-02 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 5.688E-03 [eV.cm-2.s-1] ("shsum").
   76110.969               2          21
   79771.719               2          23

 Total Heating :  2.332E+01 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  4.1328272E-07
 entot depart   23.323139       23.323139    
 shsum :   390155.03       3758349.3       3758326.0       3758326.0    
 shsum :   405806.13       4496106.5       737757.38       4496083.5    
 shsum :   414777.97       4944164.5       448058.03       4944141.5    
 shsum :   514681.75       7591762.5       2647598.0       7591739.5    
 shsum :   514681.75       7591762.5      3.80996466E-02   7591739.5    
 shsum :   514681.75       7591762.5      5.68840001E-03   7591739.5    
 fin   7591762.5       514681.75       40.638977    
   14.750401    
   13.370616       40.638977    
 ezero   0.0000000    
   7591762.5    
   3.3952274    

Total energy input of :2.092E+07 eV.cm-2.s-1 (qtoteV)
             of which 1.403E+07 is reflected (qsump)
                  and 7.592E+06 is absorbed (entot) 
                         through inelastic collisions (shsum =7.592E+06)
                                           + heating (elhsum =2.332E+01)
 This refers to an energy gain of   3.40 %


 The average E. loss per ion pair is :  40.64 eV (from qtoteV)
                                  or :  14.75 eV (from (entot))
                                  or :  13.37 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 :  1.328E-36 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  0.0000000E+00
 entot depart  1.32778002E-36  1.32778002E-36
 shsum :   0.0000000      1.32778002E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.32778002E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.32778002E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.32778002E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.32778002E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.32778002E-36   0.0000000       0.0000000    
 fin  1.32778002E-36   0.0000000           +Infinity
       +Infinity
       +Infinity       +Infinity
 ezero   0.0000000    
  1.32778002E-36
   95.385010    

Total energy input of :1.302E-28 eV.cm-2.s-1 (qtoteV)
             of which 6.008E-30 is reflected (qsump)
                  and 1.328E-36 is absorbed (entot) 
                         through inelastic collisions (shsum =0.000E+00)
                                           + heating (elhsum =1.328E-36)
 This refers to an energy loss of  95.39 %


 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 : 4.3825E+05 [eV/cm2/s]
                                                             or : 7.0216E-07 [erg/cm2/s]
 That variable "errorgaupin" is:          110

 MAIN : Total energy deposition in [CO2] is 1.001E+05 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 1.565E+04 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 8.842E+03 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 4.595E+04 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 6.315E-04 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 1.182E-04 [eV.cm-2.s-1] ("shsum").
   1281.6783               2          21
   1353.1113               2          23

 Total Heating :  4.228E-01 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  9.7025268E-09
 entot depart  0.42279002      0.42279002    
 shsum :   5003.8311       100105.43       100105.01       100105.01    
 shsum :   5371.2676       115757.97       15652.538       115757.55    
 shsum :   5569.1255       124600.41       8842.4453       124599.99    
 shsum :   7390.7661       170552.53       45952.125       170552.13    
 shsum :   7390.7661       170552.53      6.31523319E-04   170552.13    
 shsum :   7390.7661       170552.53      1.18152784E-04   170552.13    
 fin   170552.53       7390.7661       59.296997    
   23.076435    
   19.997957       59.296997    
 ezero   0.0000000    
   170552.53    
   5.1916256    

Total energy input of :4.383E+05 eV.cm-2.s-1 (qtoteV)
             of which 2.905E+05 is reflected (qsump)
                  and 1.706E+05 is absorbed (entot) 
                         through inelastic collisions (shsum =1.706E+05)
                                           + heating (elhsum =4.228E-01)
 This refers to an energy gain of   5.19 %


 The average E. loss per ion pair is :  59.30 eV (from qtoteV)
                                  or :  23.08 eV (from (entot))
                                  or :  20.00 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 : 1.9503E+07 [eV/cm2/s]
                                                             or : 3.1247E-05 [erg/cm2/s]
 That variable "errorgaupin" is:           95

 MAIN : Total energy deposition in [CO2] is 3.555E+06 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 6.898E+05 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 4.171E+05 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 2.452E+06 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 3.498E-02 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 5.287E-03 [eV.cm-2.s-1] ("shsum").
   70586.570               2          21
   74058.375               2          23

 Total Heating :  2.142E+01 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  3.8903687E-07
 entot depart   21.418371       21.418371    
 shsum :   354615.91       3555119.8       3555098.3       3555098.3    
 shsum :   369348.81       4244944.5       689824.56       4244923.0    
 shsum :   377767.59       4662086.5       417142.16       4662065.0    
 shsum :   470578.38       7113732.0       2451645.3       7113710.0    
 shsum :   470578.38       7113732.0      3.49803828E-02   7113710.0    
 shsum :   470578.38       7113732.0      5.28744282E-03   7113710.0    
 fin   7113732.0       470578.38       41.444401    
   15.116998    
   13.688619       41.444401    
 ezero   0.0000000    
   7113732.0    
   3.4464934    

Total energy input of :1.950E+07 eV.cm-2.s-1 (qtoteV)
             of which 1.306E+07 is reflected (qsump)
                  and 7.114E+06 is absorbed (entot) 
                         through inelastic collisions (shsum =7.114E+06)
                                           + heating (elhsum =2.142E+01)
 This refers to an energy gain of   3.45 %


 The average E. loss per ion pair is :  41.44 eV (from qtoteV)
                                  or :  15.12 eV (from (entot))
                                  or :  13.69 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 : 2.2528E+08 [eV/cm2/s]
                                                             or : 3.6094E-04 [erg/cm2/s]
 That variable "errorgaupin" is:           85

 MAIN : Total energy deposition in [CO2] is 3.152E+07 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 8.001E+06 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 5.408E+06 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 3.348E+07 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 4.351E-01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 4.678E-02 [eV.cm-2.s-1] ("shsum").
   1299007.5               2          21
   1349867.1               2          23

 Total Heating :  3.448E+02 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  3.7171317E-06
 entot depart   344.78839       344.78839    
 shsum :   7413894.0       31525192.       31524848.       31524848.    
 shsum :   7554662.5       39525964.       8000771.5       39525620.    
 shsum :   7641486.0       44934204.       5408241.0       44933860.    
 shsum :   8794962.0       78411136.       33476934.       78410792.    
 shsum :   8794962.0       78411136.      0.43505901       78410792.    
 shsum :   8794962.0       78411136.      4.67761308E-02   78410792.    
 fin   78411136.       8794962.0       25.614201    
   8.9154606    
   8.2627754       25.614201    
 ezero   0.0000000    
   78411136.    
   2.5481355    

Total energy input of :2.253E+08 eV.cm-2.s-1 (qtoteV)
             of which 1.526E+08 is reflected (qsump)
                  and 7.841E+07 is absorbed (entot) 
                         through inelastic collisions (shsum =7.841E+07)
                                           + heating (elhsum =3.448E+02)
 This refers to an energy gain of   2.55 %


 The average E. loss per ion pair is :  25.61 eV (from qtoteV)
                                  or :   8.92 eV (from (entot))
                                  or :   8.26 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 : 5.3557E+06 [eV/cm2/s]
                                                             or : 8.5809E-06 [erg/cm2/s]
 That variable "errorgaupin" is:           84

 MAIN : Total energy deposition in [CO2] is 1.122E+06 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 1.915E+05 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 1.107E+05 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 6.098E+05 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 8.526E-03 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 1.478E-03 [eV.cm-2.s-1] ("shsum").
   17163.059               2          21
   18101.463               2          23

 Total Heating :  5.325E+00 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  1.1527392E-07
 entot depart   5.3251343       5.3251343    
 shsum :   72463.406       1122347.1       1122341.8       1122341.8    
 shsum :   76828.852       1313844.1       191497.03       1313838.8    
 shsum :   79235.313       1424551.4       110707.20       1424546.0    
 shsum :   103092.30       2034372.8       609821.44       2034367.5    
 shsum :   103092.30       2034372.8      8.52609985E-03   2034367.5    
 shsum :   103092.30       2034372.8      1.47784245E-03   2034367.5    
 fin   2034372.8       103092.30       51.950443    
   19.733509    
   17.676870       51.950443    
 ezero   0.0000000    
   2034372.8    
   3.9588451    

Total energy input of :5.356E+06 eV.cm-2.s-1 (qtoteV)
             of which 3.533E+06 is reflected (qsump)
                  and 2.034E+06 is absorbed (entot) 
                         through inelastic collisions (shsum =2.034E+06)
                                           + heating (elhsum =5.325E+00)
 This refers to an energy gain of   3.96 %


 The average E. loss per ion pair is :  51.95 eV (from qtoteV)
                                  or :  19.73 eV (from (entot))
                                  or :  17.68 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 : 5.6820E+07 [eV/cm2/s]
                                                             or : 9.1036E-05 [erg/cm2/s]
 That variable "errorgaupin" is:           81

 MAIN : Total energy deposition in [CO2] is 9.110E+06 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 1.996E+06 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 1.268E+06 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 7.714E+06 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 1.052E-01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 1.375E-02 [eV.cm-2.s-1] ("shsum").
   246788.53               2          21
   258231.98               2          23

 Total Heating :  6.984E+01 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  1.0408789E-06
 entot depart   69.841782       69.841782    
 shsum :   1365382.9       9110254.0       9110184.0       9110184.0    
 shsum :   1404801.1       11106753.       1996499.1       11106683.    
 shsum :   1428117.0       12374389.       1267635.8       12374319.    
 shsum :   1708744.3       20088124.       7713735.0       20088054.    
 shsum :   1708744.3       20088124.      0.10522352       20088054.    
 shsum :   1708744.3       20088124.      1.37478746E-02   20088054.    
 fin   20088124.       1708744.3       33.252243    
   11.756074    
   10.727613       33.252243    
 ezero   0.0000000    
   20088124.    
   3.0929060    

Total energy input of :5.682E+07 eV.cm-2.s-1 (qtoteV)
             of which 3.849E+07 is reflected (qsump)
                  and 2.009E+07 is absorbed (entot) 
                         through inelastic collisions (shsum =2.009E+07)
                                           + heating (elhsum =6.984E+01)
 This refers to an energy gain of   3.09 %


 The average E. loss per ion pair is :  33.25 eV (from qtoteV)
                                  or :  11.76 eV (from (entot))
                                  or :  10.73 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 : 3.0750E+08 [eV/cm2/s]
                                                             or : 4.9268E-04 [erg/cm2/s]
 That variable "errorgaupin" is:           98

 MAIN : Total energy deposition in [CO2] is 4.299E+07 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 1.111E+07 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 7.579E+06 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 4.670E+07 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 5.875E-01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 6.108E-02 [eV.cm-2.s-1] ("shsum").
   1908802.3               2          21
   1982725.1               2          23

 Total Heating :  4.891E+02 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  5.0653498E-06
 entot depart   489.13324       489.13324    
 shsum :   10601087.       42993612.       42993124.       42993124.    
 shsum :   10792913.       54100632.       11107019.       54100144.    
 shsum :   10911930.       61679900.       7579267.5       61679412.    
 shsum :   12505896.      1.08376608E+08   46696704.      1.08376112E+08
 shsum :   12505896.      1.08376608E+08  0.58750641      1.08376112E+08
 shsum :   12505896.      1.08376608E+08  6.10817522E-02  1.08376112E+08
 fin  1.08376608E+08   12505896.       24.588430    
   8.6660414    
   8.0537281       24.588430    
 ezero   0.0000000    
  1.08376608E+08
   2.4902475    

Total energy input of :3.075E+08 eV.cm-2.s-1 (qtoteV)
             of which 2.068E+08 is reflected (qsump)
                  and 1.084E+08 is absorbed (entot) 
                         through inelastic collisions (shsum =1.084E+08)
                                           + heating (elhsum =4.891E+02)
 This refers to an energy gain of   2.49 %


 The average E. loss per ion pair is :  24.59 eV (from qtoteV)
                                  or :   8.67 eV (from (entot))
                                  or :   8.05 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 : 9.4649E+08 [eV/cm2/s]
                                                             or : 1.5165E-03 [erg/cm2/s]
 That variable "errorgaupin" is:           89

 MAIN : Total energy deposition in [CO2] is 1.415E+08 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 3.791E+07 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 2.666E+07 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 1.590E+08 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 1.805E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 1.673E-01 [eV.cm-2.s-1] ("shsum").
   7647358.5               2          21
   7907972.5               2          23

 Total Heating :  1.854E+03 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  1.6246180E-05
 entot depart   1854.4249       1854.4249    
 shsum :   37453328.      1.41537008E+08  1.41535152E+08  1.41535152E+08
 shsum :   38068572.      1.79449856E+08   37912848.      1.79448000E+08
 shsum :   38456864.      2.06106336E+08   26656472.      2.06104480E+08
 shsum :   43707856.      3.65113472E+08  1.59007136E+08  3.65111616E+08
 shsum :   43707856.      3.65113472E+08   1.8054446      3.65111616E+08
 shsum :   43707856.      3.65113472E+08  0.16725409      3.65111616E+08
 fin  3.65113472E+08   43707856.       21.654882    
   8.3534975    
   7.8437715       21.654882    
 ezero   0.0000000    
  3.65113472E+08
   2.3538628    

Total energy input of :9.465E+08 eV.cm-2.s-1 (qtoteV)
             of which 6.037E+08 is reflected (qsump)
                  and 3.651E+08 is absorbed (entot) 
                         through inelastic collisions (shsum =3.651E+08)
                                           + heating (elhsum =1.854E+03)
 This refers to an energy gain of   2.35 %


 The average E. loss per ion pair is :  21.65 eV (from qtoteV)
                                  or :   8.35 eV (from (entot))
                                  or :   7.84 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 : 2.8699E+08 [eV/cm2/s]
                                                             or : 4.5982E-04 [erg/cm2/s]
 That variable "errorgaupin" is:           80

 MAIN : Total energy deposition in [CO2] is 4.080E+07 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 1.040E+07 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 7.058E+06 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 4.335E+07 [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 5.639E-02 [eV.cm-2.s-1] ("shsum").
   1767175.8               2          21
   1839550.6               2          23

 Total Heating :  4.414E+02 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  4.7931171E-06
 entot depart   441.36697       441.36697    
 shsum :   9675111.0       40802932.       40802492.       40802492.    
 shsum :   9856627.0       51201048.       10398117.       51200608.    
 shsum :   9968838.0       58258940.       7057891.0       58258500.    
 shsum :   11454623.      1.01604080E+08   43345144.      1.01603648E+08
 shsum :   11454623.      1.01604080E+08  0.53411174      1.01603648E+08
 shsum :   11454623.      1.01604080E+08  5.63906208E-02  1.01603648E+08
 fin  1.01604080E+08   11454623.       25.054649    
   8.8701372    
   8.2282953       25.054649    
 ezero   0.0000000    
  1.01604080E+08
   2.5617702    

Total energy input of :2.870E+08 eV.cm-2.s-1 (qtoteV)
             of which 1.927E+08 is reflected (qsump)
                  and 1.016E+08 is absorbed (entot) 
                         through inelastic collisions (shsum =1.016E+08)
                                           + heating (elhsum =4.414E+02)
 This refers to an energy gain of   2.56 %


 The average E. loss per ion pair is :  25.05 eV (from qtoteV)
                                  or :   8.87 eV (from (entot))
                                  or :   8.23 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 : 6.9693E+08 [eV/cm2/s]
                                                             or : 1.1166E-03 [erg/cm2/s]
 That variable "errorgaupin" is:           67

 MAIN : Total energy deposition in [CO2] is 1.017E+08 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 2.700E+07 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 1.883E+07 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 1.134E+08 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 1.307E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 1.251E-01 [eV.cm-2.s-1] ("shsum").
   5264182.5               2          21
   5455427.0               2          23

 Total Heating :  1.261E+03 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  1.1789660E-05
 entot depart   1260.6384       1260.6384    
 shsum :   26588948.      1.01664000E+08  1.01662736E+08  1.01662736E+08
 shsum :   27035424.      1.28666624E+08   27002626.      1.28665360E+08
 shsum :   27315892.      1.47492416E+08   18825800.      1.47491168E+08
 shsum :   31097636.      2.60903248E+08  1.13410832E+08  2.60902000E+08
 shsum :   31097636.      2.60903248E+08   1.3066729      2.60902000E+08
 shsum :   31097636.      2.60903248E+08  0.12514073      2.60902000E+08
 fin  2.60903248E+08   31097636.       22.411114    
   8.3898096    
   7.8531728       22.411114    
 ezero   0.0000000    
  2.60903248E+08
   2.3945131    

Total energy input of :6.969E+08 eV.cm-2.s-1 (qtoteV)
             of which 4.527E+08 is reflected (qsump)
                  and 2.609E+08 is absorbed (entot) 
                         through inelastic collisions (shsum =2.609E+08)
                                           + heating (elhsum =1.261E+03)
 This refers to an energy gain of   2.39 %


 The average E. loss per ion pair is :  22.41 eV (from qtoteV)
                                  or :   8.39 eV (from (entot))
                                  or :   7.85 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 : 1.4143E+09 [eV/cm2/s]
                                                             or : 2.2660E-03 [erg/cm2/s]
 That variable "errorgaupin" is:           87

 MAIN : Total energy deposition in [CO2] is 2.296E+08 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 6.062E+07 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 4.290E+07 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 2.487E+08 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 2.624E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 2.352E-01 [eV.cm-2.s-1] ("shsum").
   12677404.               2          21
   13132072.               2          23

 Total Heating :  2.981E+03 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  2.5576141E-05
 entot depart   2980.6692       2980.6692    
 shsum :   57525384.      2.29589456E+08  2.29586480E+08  2.29586480E+08
 shsum :   58493956.      2.90213184E+08   60623712.      2.90210176E+08
 shsum :   59106448.      3.33113856E+08   42900656.      3.33110848E+08
 shsum :   67227136.      5.81768384E+08  2.48654544E+08  5.81765376E+08
 shsum :   67227136.      5.81768384E+08   2.6241269      5.81765376E+08
 shsum :   67227136.      5.81768384E+08  0.23519966      5.81765376E+08
 fin  5.81768384E+08   67227136.       21.037584    
   8.6537733    
   8.1462784       21.037584    
 ezero   0.0000000    
  5.81768384E+08
   2.4123256    

Total energy input of :1.414E+09 eV.cm-2.s-1 (qtoteV)
             of which 8.666E+08 is reflected (qsump)
                  and 5.818E+08 is absorbed (entot) 
                         through inelastic collisions (shsum =5.818E+08)
                                           + heating (elhsum =2.981E+03)
 This refers to an energy gain of   2.41 %


 The average E. loss per ion pair is :  21.04 eV (from qtoteV)
                                  or :   8.65 eV (from (entot))
                                  or :   8.15 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 : 2.5758E+09 [eV/cm2/s]
                                                             or : 4.1269E-03 [erg/cm2/s]
 That variable "errorgaupin" is:           82

 MAIN : Total energy deposition in [CO2] is 4.924E+08 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 1.249E+08 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 8.939E+07 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 4.875E+08 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 4.602E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 3.903E-01 [eV.cm-2.s-1] ("shsum").
   26487944.               2          21
   27587004.               2          23

 Total Heating :  6.324E+03 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  5.1090203E-05
 entot depart   6323.7100       6323.7100    
 shsum :  1.08677992E+08  4.92425920E+08  4.92419584E+08  4.92419584E+08
 shsum :  1.10612784E+08  6.17329472E+08  1.24903568E+08  6.17323136E+08
 shsum :  1.11838296E+08  7.06719872E+08   89390392.      7.06713536E+08
 shsum :  1.27423144E+08  1.19418317E+09  4.87463296E+08  1.19417677E+09
 shsum :  1.27423144E+08  1.19418317E+09   4.6021442      1.19417677E+09
 shsum :  1.27423144E+08  1.19418317E+09  0.39027184      1.19417677E+09
 fin  1.19418317E+09  1.27423144E+08   20.214451    
   9.3717918    
   8.8598185       20.214451    
 ezero   0.0000000    
  1.19418317E+09
   2.5327096    

Total energy input of :2.576E+09 eV.cm-2.s-1 (qtoteV)
             of which 1.447E+09 is reflected (qsump)
                  and 1.194E+09 is absorbed (entot) 
                         through inelastic collisions (shsum =1.194E+09)
                                           + heating (elhsum =6.324E+03)
 This refers to an energy gain of   2.53 %


 The average E. loss per ion pair is :  20.21 eV (from qtoteV)
                                  or :   9.37 eV (from (entot))
                                  or :   8.86 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 : 1.9069E+09 [eV/cm2/s]
                                                             or : 3.0552E-03 [erg/cm2/s]
 That variable "errorgaupin" is:           90

 MAIN : Total energy deposition in [CO2] is 3.386E+08 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 8.712E+07 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 6.186E+07 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 3.474E+08 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 3.387E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 2.969E-01 [eV.cm-2.s-1] ("shsum").
   18560718.               2          21
   19291262.               2          23

 Total Heating :  4.216E+03 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  3.6392259E-05
 entot depart   4215.8350       4215.8350    
 shsum :   78551304.      3.38583936E+08  3.38579712E+08  3.38579712E+08
 shsum :   79929488.      4.25702336E+08   87118384.      4.25698112E+08
 shsum :   80800400.      4.87565312E+08   61862976.      4.87561088E+08
 shsum :   92044960.      8.34924416E+08  3.47359104E+08  8.34920192E+08
 shsum :   92044960.      8.34924416E+08   3.3867450      8.34920192E+08
 shsum :   92044960.      8.34924416E+08  0.29689047      8.34920192E+08
 fin  8.34924416E+08   92044960.       20.717056    
   9.0708323    
   8.5520391       20.717056    
 ezero   0.0000000    
  8.34924416E+08
   2.5041850    

Total energy input of :1.907E+09 eV.cm-2.s-1 (qtoteV)
             of which 1.120E+09 is reflected (qsump)
                  and 8.349E+08 is absorbed (entot) 
                         through inelastic collisions (shsum =8.349E+08)
                                           + heating (elhsum =4.216E+03)
 This refers to an energy gain of   2.50 %


 The average E. loss per ion pair is :  20.72 eV (from qtoteV)
                                  or :   9.07 eV (from (entot))
                                  or :   8.55 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 : 2.8063E+09 [eV/cm2/s]
                                                             or : 4.4962E-03 [erg/cm2/s]
 That variable "errorgaupin" is:           83

 MAIN : Total energy deposition in [CO2] is 5.587E+08 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 1.395E+08 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 9.986E+07 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 5.358E+08 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 4.851E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 4.092E-01 [eV.cm-2.s-1] ("shsum").
   29768582.               2          21
   31061332.               2          23

 Total Heating :  6.902E+03 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  5.6909405E-05
 entot depart   6901.9648       6901.9648    
 shsum :  1.18376944E+08  5.58740352E+08  5.58733440E+08  5.58733440E+08
 shsum :  1.20532112E+08  6.98213248E+08  1.39472912E+08  6.98206336E+08
 shsum :  1.21895328E+08  7.98074624E+08   99861392.      7.98067712E+08
 shsum :  1.38972880E+08  1.33390797E+09  5.35833408E+08  1.33390106E+09
 shsum :  1.38972880E+08  1.33390797E+09   4.8508644      1.33390106E+09
 shsum :  1.38972880E+08  1.33390797E+09  0.40917608      1.33390106E+09
 fin  1.33390797E+09  1.38972880E+08   20.193077    
   9.5983334    
   9.0757713       20.193077    
 ezero   0.0000000    
  1.33390797E+09
   2.5878229    

Total energy input of :2.806E+09 eV.cm-2.s-1 (qtoteV)
             of which 1.545E+09 is reflected (qsump)
                  and 1.334E+09 is absorbed (entot) 
                         through inelastic collisions (shsum =1.334E+09)
                                           + heating (elhsum =6.902E+03)
 This refers to an energy gain of   2.59 %


 The average E. loss per ion pair is :  20.19 eV (from qtoteV)
                                  or :   9.60 eV (from (entot))
                                  or :   9.08 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 : 4.0415E+09 [eV/cm2/s]
                                                             or : 6.4753E-03 [erg/cm2/s]
 That variable "errorgaupin" is:           78

 MAIN : Total energy deposition in [CO2] is 9.160E+08 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 2.194E+08 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 1.583E+08 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 8.036E+08 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 6.691E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 5.423E-01 [eV.cm-2.s-1] ("shsum").
   45935256.               2          21
   48116056.               2          23

 Total Heating :  1.107E+04 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  8.7064225E-05
 entot depart   11069.062       11069.062    
 shsum :  1.73848336E+08  9.16015552E+08  9.16004480E+08  9.16004480E+08
 shsum :  1.77145472E+08  1.13540198E+09  2.19386464E+08  1.13539098E+09
 shsum :  1.79227984E+08  1.29372160E+09  1.58319632E+08  1.29371059E+09
 shsum :  2.04381312E+08  2.09737062E+09  8.03649024E+08  2.09735962E+09
 shsum :  2.04381312E+08  2.09737062E+09   6.6907067      2.09735962E+09
 shsum :  2.04381312E+08  2.09737062E+09  0.54233980      2.09735962E+09
 fin  2.09737062E+09  2.04381312E+08   19.774450    
   10.262047    
   9.7310801       19.774450    
 ezero   0.0000000    
  2.09737062E+09
   2.6851151    

Total energy input of :4.042E+09 eV.cm-2.s-1 (qtoteV)
             of which 2.053E+09 is reflected (qsump)
                  and 2.097E+09 is absorbed (entot) 
                         through inelastic collisions (shsum =2.097E+09)
                                           + heating (elhsum =1.107E+04)
 This refers to an energy gain of   2.69 %


 The average E. loss per ion pair is :  19.77 eV (from qtoteV)
                                  or :  10.26 eV (from (entot))
                                  or :   9.73 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 : 5.7133E+09 [eV/cm2/s]
                                                             or : 9.1539E-03 [erg/cm2/s]
 That variable "errorgaupin" is:           79

 MAIN : Total energy deposition in [CO2] is 1.486E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 3.383E+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 1.170E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 8.887E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 6.908E-01 [eV.cm-2.s-1] ("shsum").
   68382624.               2          21
   71833400.               2          23

 Total Heating :  1.734E+04 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  1.2987634E-04
 entot depart   17341.580       17341.580    
 shsum :  2.49947216E+08  1.48587981E+09  1.48586253E+09  1.48586253E+09
 shsum :  2.54865664E+08  1.82416525E+09  3.38285472E+08  1.82414797E+09
 shsum :  2.57958848E+08  2.07013747E+09  2.45972192E+08  2.07012019E+09
 shsum :  2.93819200E+08  3.24029030E+09  1.17015270E+09  3.24027290E+09
 shsum :  2.93819200E+08  3.24029030E+09   8.8867598      3.24027290E+09
 shsum :  2.93819200E+08  3.24029030E+09  0.69075906      3.24027290E+09
 fin  3.24029030E+09  2.93819200E+08   19.445036    
   11.028177    
   10.488626       19.445036    
 ezero   0.0000000    
  3.24029030E+09
   2.7747512    

Total energy input of :5.713E+09 eV.cm-2.s-1 (qtoteV)
             of which 2.632E+09 is reflected (qsump)
                  and 3.240E+09 is absorbed (entot) 
                         through inelastic collisions (shsum =3.240E+09)
                                           + heating (elhsum =1.734E+04)
 This refers to an energy gain of   2.77 %


 The average E. loss per ion pair is :  19.45 eV (from qtoteV)
                                  or :  11.03 eV (from (entot))
                                  or :  10.49 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 : 6.3551E+09 [eV/cm2/s]
                                                             or : 1.0182E-02 [erg/cm2/s]
 That variable "errorgaupin" is:           96

 MAIN : Total energy deposition in [CO2] is 1.751E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 3.878E+08 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 2.821E+08 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 1.305E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 9.333E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 7.176E-01 [eV.cm-2.s-1] ("shsum").
   78863472.               2          21
   83082216.               2          23

 Total Heating :  1.928E+04 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  1.4754206E-04
 entot depart   19282.559       19282.559    
 shsum :  2.78012416E+08  1.75062976E+09  1.75061043E+09  1.75061043E+09
 shsum :  2.83599872E+08  2.13839334E+09  3.87763648E+08  2.13837414E+09
 shsum :  2.87098080E+08  2.42045747E+09  2.82064032E+08  2.42043827E+09
 shsum :  3.26821856E+08  3.72580992E+09  1.30535245E+09  3.72579072E+09
 shsum :  3.26821856E+08  3.72580992E+09   9.3334532      3.72579072E+09
 shsum :  3.26821856E+08  3.72580992E+09  0.71758604      3.72579072E+09
 fin  3.72580992E+09  3.26821856E+08   19.445240    
   11.400125    
   10.849184       19.445240    
 ezero   0.0000000    
  3.72580992E+09
   2.8332922    

Total energy input of :6.355E+09 eV.cm-2.s-1 (qtoteV)
             of which 2.809E+09 is reflected (qsump)
                  and 3.726E+09 is absorbed (entot) 
                         through inelastic collisions (shsum =3.726E+09)
                                           + heating (elhsum =1.928E+04)
 This refers to an energy gain of   2.83 %


 The average E. loss per ion pair is :  19.45 eV (from qtoteV)
                                  or :  11.40 eV (from (entot))
                                  or :  10.85 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 : 7.6443E+09 [eV/cm2/s]
                                                             or : 1.2248E-02 [erg/cm2/s]
 That variable "errorgaupin" is:           74

 MAIN : Total energy deposition in [CO2] is 2.263E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 4.872E+08 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 3.560E+08 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 1.584E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 1.078E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 8.077E-01 [eV.cm-2.s-1] ("shsum").
   96579688.               2          21
  1.01830920E+08           2          23

 Total Heating :  2.454E+04 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  1.8109565E-04
 entot depart   24538.373       24538.373    
 shsum :  3.37997440E+08  2.26298394E+09  2.26295936E+09  2.26295936E+09
 shsum :  3.44855552E+08  2.75017523E+09  4.87191264E+08  2.75015066E+09
 shsum :  3.49134784E+08  3.10612710E+09  3.55951968E+08  3.10610253E+09
 shsum :  3.96660512E+08  4.68974899E+09  1.58362189E+09  4.68972442E+09
 shsum :  3.96660512E+08  4.68974899E+09   10.784865      4.68972442E+09
 shsum :  3.96660512E+08  4.68974899E+09  0.80771035      4.68972442E+09
 fin  4.68974899E+09  3.96660512E+08   19.271736    
   11.823080    
   11.271225       19.271736    
 ezero   0.0000000    
  4.68974899E+09
   2.8635440    

Total energy input of :7.644E+09 eV.cm-2.s-1 (qtoteV)
             of which 3.173E+09 is reflected (qsump)
                  and 4.690E+09 is absorbed (entot) 
                         through inelastic collisions (shsum =4.690E+09)
                                           + heating (elhsum =2.454E+04)
 This refers to an energy gain of   2.86 %


 The average E. loss per ion pair is :  19.27 eV (from qtoteV)
                                  or :  11.82 eV (from (entot))
                                  or :  11.27 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 : 9.1980E+09 [eV/cm2/s]
                                                             or : 1.4737E-02 [erg/cm2/s]
 That variable "errorgaupin" is:           82

 MAIN : Total energy deposition in [CO2] is 2.931E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 6.110E+08 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 4.479E+08 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 1.912E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 1.238E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 9.022E-01 [eV.cm-2.s-1] ("shsum").
  1.17342320E+08           2          21
  1.23778152E+08           2          23

 Total Heating :  3.113E+04 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  2.2148657E-04
 entot depart   31132.121       31132.121    
 shsum :  4.10820448E+08  2.93117568E+09  2.93114445E+09  2.93114445E+09
 shsum :  4.19208192E+08  3.54221773E+09  6.11042176E+08  3.54218650E+09
 shsum :  4.24414688E+08  3.99015680E+09  4.47939040E+08  3.99012557E+09
 shsum :  4.80944704E+08  5.90219930E+09  1.91204262E+09  5.90216806E+09
 shsum :  4.80944704E+08  5.90219930E+09   12.377674      5.90216806E+09
 shsum :  4.80944704E+08  5.90219930E+09  0.90224504      5.90216806E+09
 fin  5.90219930E+09  4.80944704E+08   19.124926    
   12.272096    
   11.720656       19.124926    
 ezero   0.0000000    
  5.90219930E+09
   2.8833549    

Total energy input of :9.198E+09 eV.cm-2.s-1 (qtoteV)
             of which 3.561E+09 is reflected (qsump)
                  and 5.902E+09 is absorbed (entot) 
                         through inelastic collisions (shsum =5.902E+09)
                                           + heating (elhsum =3.113E+04)
 This refers to an energy gain of   2.88 %


 The average E. loss per ion pair is :  19.12 eV (from qtoteV)
                                  or :  12.27 eV (from (entot))
                                  or :  11.72 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 : 1.1064E+10 [eV/cm2/s]
                                                             or : 1.7727E-02 [erg/cm2/s]
 That variable "errorgaupin" is:           80

 MAIN : Total energy deposition in [CO2] is 3.798E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 7.638E+08 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 5.613E+08 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 2.294E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 1.409E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 9.991E-01 [eV.cm-2.s-1] ("shsum").
  1.41404672E+08           2          21
  1.49184352E+08           2          23

 Total Heating :  3.927E+04 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  2.6955374E-04
 entot depart   39271.535       39271.535    
 shsum :  4.98777120E+08  3.79774669E+09  3.79770752E+09  3.79770752E+09
 shsum :  5.08985184E+08  4.56152832E+09  7.63781504E+08  4.56148890E+09
 shsum :  5.15278976E+08  5.12282214E+09  5.61293824E+08  5.12278272E+09
 shsum :  5.82035968E+08  7.41694054E+09  2.29411840E+09  7.41690112E+09
 shsum :  5.82035968E+08  7.41694054E+09   14.088768      7.41690112E+09
 shsum :  5.82035968E+08  7.41694054E+09  0.99907649      7.41690112E+09
 fin  7.41694054E+09  5.82035968E+08   19.009163    
   12.743096    
   12.194184       19.009163    
 ezero   0.0000000    
  7.41694054E+09
   2.8876173    

Total energy input of :1.106E+10 eV.cm-2.s-1 (qtoteV)
             of which 3.967E+09 is reflected (qsump)
                  and 7.417E+09 is absorbed (entot) 
                         through inelastic collisions (shsum =7.417E+09)
                                           + heating (elhsum =3.927E+04)
 This refers to an energy gain of   2.89 %


 The average E. loss per ion pair is :  19.01 eV (from qtoteV)
                                  or :  12.74 eV (from (entot))
                                  or :  12.19 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 : 1.5483E+10 [eV/cm2/s]
                                                             or : 2.4806E-02 [erg/cm2/s]
 That variable "errorgaupin" is:           93

 MAIN : Total energy deposition in [CO2] is 6.113E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 1.136E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 8.351E+08 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 3.130E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 1.683E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 1.136E+00 [eV.cm-2.s-1] ("shsum").
  2.02680960E+08           2          21
  2.14727856E+08           2          23

 Total Heating :  5.663E+04 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  3.8081786E-04
 entot depart   56631.066       56631.066    
 shsum :  7.06724032E+08  6.11266202E+09  6.11260518E+09  6.11260518E+09
 shsum :  7.21145664E+08  7.24844954E+09  1.13578778E+09  7.24839322E+09
 shsum :  7.29882112E+08  8.08358758E+09  8.35138176E+08  8.08353126E+09
 shsum :  8.18180160E+08  1.12139356E+10  3.13034803E+09  1.12138793E+10
 shsum :  8.18180160E+08  1.12139356E+10   16.834135      1.12138793E+10
 shsum :  8.18180160E+08  1.12139356E+10   1.1355116      1.12138793E+10
 fin  1.12139356E+10  8.18180160E+08   18.923109    
   13.705949    
   13.158570       18.923109    
 ezero   0.0000000    
  1.12139356E+10
   2.8926480    

Total energy input of :1.548E+10 eV.cm-2.s-1 (qtoteV)
             of which 4.716E+09 is reflected (qsump)
                  and 1.121E+10 is absorbed (entot) 
                         through inelastic collisions (shsum =1.121E+10)
                                           + heating (elhsum =5.663E+04)
 This refers to an energy gain of   2.89 %


 The average E. loss per ion pair is :  18.92 eV (from qtoteV)
                                  or :  13.71 eV (from (entot))
                                  or :  13.16 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 : 1.6564E+10 [eV/cm2/s]
                                                             or : 2.6538E-02 [erg/cm2/s]
 That variable "errorgaupin" is:           80

 MAIN : Total energy deposition in [CO2] is 6.690E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 1.228E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 9.035E+08 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 3.332E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 1.766E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 1.178E+00 [eV.cm-2.s-1] ("shsum").
  2.15098576E+08           2          21
  2.27748560E+08           2          23

 Total Heating :  6.168E+04 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  4.0677664E-04
 entot depart   61683.688       61683.688    
 shsum :  7.59660992E+08  6.68969421E+09  6.68963277E+09  6.68963277E+09
 shsum :  7.75065728E+08  7.91766067E+09  1.22796659E+09  7.91759923E+09
 shsum :  7.84373504E+08  8.82120602E+09  9.03545728E+08  8.82114458E+09
 shsum :  8.77726080E+08  1.21532088E+10  3.33200230E+09  1.21531474E+10
 shsum :  8.77726080E+08  1.21532088E+10   17.657246      1.21531474E+10
 shsum :  8.77726080E+08  1.21532088E+10   1.1775353      1.21531474E+10
 fin  1.21532088E+10  8.77726080E+08   18.871109    
   13.846243    
   13.302023       18.871109    
 ezero   0.0000000    
  1.21532088E+10
   2.8838820    

Total energy input of :1.656E+10 eV.cm-2.s-1 (qtoteV)
             of which 4.888E+09 is reflected (qsump)
                  and 1.215E+10 is absorbed (entot) 
                         through inelastic collisions (shsum =1.215E+10)
                                           + heating (elhsum =6.168E+04)
 This refers to an energy gain of   2.88 %


 The average E. loss per ion pair is :  18.87 eV (from qtoteV)
                                  or :  13.85 eV (from (entot))
                                  or :  13.30 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 : 1.7780E+10 [eV/cm2/s]
                                                             or : 2.8486E-02 [erg/cm2/s]
 That variable "errorgaupin" is:          100

 MAIN : Total energy deposition in [CO2] is 7.361E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 1.331E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 9.794E+08 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 3.552E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 1.852E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 1.221E+00 [eV.cm-2.s-1] ("shsum").
  2.28080592E+08           2          21
  2.41328064E+08           2          23

 Total Heating :  6.731E+04 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  4.3549886E-04
 entot depart   67307.453       67307.453    
 shsum :  8.18884416E+08  7.36095027E+09  7.36088320E+09  7.36088320E+09
 shsum :  8.35376832E+08  8.69214413E+09  1.33119424E+09  8.69207757E+09
 shsum :  8.45305984E+08  9.67158784E+09  9.79443264E+08  9.67152128E+09
 shsum :  9.44111360E+08  1.32231291E+10  3.55154176E+09  1.32230636E+10
 shsum :  9.44111360E+08  1.32231291E+10   18.524223      1.32230636E+10
 shsum :  9.44111360E+08  1.32231291E+10   1.2212096      1.32230636E+10
 fin  1.32231291E+10  9.44111360E+08   18.832064    
   14.005899    
   13.465862       18.832064    
 ezero   0.0000000    
  1.32231291E+10
   2.8676505    

Total energy input of :1.778E+10 eV.cm-2.s-1 (qtoteV)
             of which 5.066E+09 is reflected (qsump)
                  and 1.322E+10 is absorbed (entot) 
                         through inelastic collisions (shsum =1.322E+10)
                                           + heating (elhsum =6.731E+04)
 This refers to an energy gain of   2.87 %


 The average E. loss per ion pair is :  18.83 eV (from qtoteV)
                                  or :  14.01 eV (from (entot))
                                  or :  13.47 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 : 1.9147E+10 [eV/cm2/s]
                                                             or : 3.0677E-02 [erg/cm2/s]
 That variable "errorgaupin" is:           89

 MAIN : Total energy deposition in [CO2] is 8.139E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 1.447E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 1.064E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 3.791E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 1.943E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 1.266E+00 [eV.cm-2.s-1] ("shsum").
  2.41810128E+08           2          21
  2.55664720E+08           2          23

 Total Heating :  7.357E+04 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  4.6739730E-04
 entot depart   73568.930       73568.930    
 shsum :  8.85120320E+08  8.13880832E+09  8.13873459E+09  8.13873459E+09
 shsum :  9.02820736E+08  9.58588928E+09  1.44708096E+09  9.58581555E+09
 shsum :  9.13430208E+08  1.06499676E+10  1.06407795E+09  1.06498939E+10
 shsum :  1.01811552E+09  1.44405617E+10  3.79059430E+09  1.44404879E+10
 shsum :  1.01811552E+09  1.44405617E+10   19.433273      1.44404879E+10
 shsum :  1.01811552E+09  1.44405617E+10   1.2663568      1.44404879E+10
 fin  1.44405617E+10  1.01811552E+09   18.805868    
   14.183618    
   13.649137       18.805868    
 ezero   0.0000000    
  1.44405617E+10
   2.8420990    

Total energy input of :1.915E+10 eV.cm-2.s-1 (qtoteV)
             of which 5.250E+09 is reflected (qsump)
                  and 1.444E+10 is absorbed (entot) 
                         through inelastic collisions (shsum =1.444E+10)
                                           + heating (elhsum =7.357E+04)
 This refers to an energy gain of   2.84 %


 The average E. loss per ion pair is :  18.81 eV (from qtoteV)
                                  or :  14.18 eV (from (entot))
                                  or :  13.65 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 : 3.0205E+10 [eV/cm2/s]
                                                             or : 4.8394E-02 [erg/cm2/s]
 That variable "errorgaupin" is:          108

 MAIN : Total energy deposition in [CO2] is 1.505E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 2.380E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 1.733E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 5.503E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 2.396E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 1.455E+00 [eV.cm-2.s-1] ("shsum").
  3.65946432E+08           2          21
  3.88581536E+08           2          23

 Total Heating :  1.152E+05 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  7.0996862E-04
 entot depart   115231.50       115231.50    
 shsum :  1.42188595E+09  1.50536428E+10  1.50535270E+10  1.50535270E+10
 shsum :  1.44877261E+09  1.74340833E+10  2.38044109E+09  1.74339686E+10
 shsum :  1.46435635E+09  1.91666319E+10  1.73254950E+09  1.91665172E+10
 shsum :  1.60940454E+09  2.46697636E+10  5.50313165E+09  2.46696489E+10
 shsum :  1.60940454E+09  2.46697636E+10   23.964943      2.46696489E+10
 shsum :  1.60940454E+09  2.46697636E+10   1.4549578      2.46696489E+10
 fin  2.46697636E+10  1.60940454E+09   18.767807    
   15.328504    
   14.818747       18.767807    
 ezero   0.0000000    
  2.46697636E+10
   2.7161279    

Total energy input of :3.020E+10 eV.cm-2.s-1 (qtoteV)
             of which 6.356E+09 is reflected (qsump)
                  and 2.467E+10 is absorbed (entot) 
                         through inelastic collisions (shsum =2.467E+10)
                                           + heating (elhsum =1.152E+05)
 This refers to an energy gain of   2.72 %


 The average E. loss per ion pair is :  18.77 eV (from qtoteV)
                                  or :  15.33 eV (from (entot))
                                  or :  14.82 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 : 3.0132E+10 [eV/cm2/s]
                                                             or : 4.8278E-02 [erg/cm2/s]
 That variable "errorgaupin" is:           89

 MAIN : Total energy deposition in [CO2] is 1.499E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 2.376E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 1.730E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 5.499E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 2.412E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 1.464E+00 [eV.cm-2.s-1] ("shsum").
  3.62979264E+08           2          21
  3.85060736E+08           2          23

 Total Heating :  1.159E+05 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  7.0839480E-04
 entot depart   115883.94       115883.94    
 shsum :  1.41970752E+09  1.49881405E+10  1.49880248E+10  1.49880248E+10
 shsum :  1.44653453E+09  1.73636403E+10  2.37550054E+09  1.73635256E+10
 shsum :  1.46209677E+09  1.90935839E+10  1.72994278E+09  1.90934692E+10
 shsum :  1.60705536E+09  2.45927444E+10  5.49915955E+09  2.45926298E+10
 shsum :  1.60705536E+09  2.45927444E+10   24.115891      2.45926298E+10
 shsum :  1.60705536E+09  2.45927444E+10   1.4639263      2.45926298E+10
 fin  2.45927444E+10  1.60705536E+09   18.749861    
   15.302985    
   14.792623       18.749861    
 ezero   0.0000000    
  2.45927444E+10
   2.7219541    

Total energy input of :3.013E+10 eV.cm-2.s-1 (qtoteV)
             of which 6.360E+09 is reflected (qsump)
                  and 2.459E+10 is absorbed (entot) 
                         through inelastic collisions (shsum =2.459E+10)
                                           + heating (elhsum =1.159E+05)
 This refers to an energy gain of   2.72 %


 The average E. loss per ion pair is :  18.75 eV (from qtoteV)
                                  or :  15.30 eV (from (entot))
                                  or :  14.79 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 : 3.0084E+10 [eV/cm2/s]
                                                             or : 4.8201E-02 [erg/cm2/s]
 That variable "errorgaupin" is:           91

 MAIN : Total energy deposition in [CO2] is 1.495E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 2.371E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 1.727E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 5.495E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 2.426E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 1.473E+00 [eV.cm-2.s-1] ("shsum").
  3.59437312E+08           2          21
  3.80916768E+08           2          23

 Total Heating :  1.165E+05 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  7.0703693E-04
 entot depart   116528.29       116528.29    
 shsum :  1.41817421E+09  1.49467443E+10  1.49466276E+10  1.49466276E+10
 shsum :  1.44494989E+09  1.73178819E+10  2.37113754E+09  1.73177651E+10
 shsum :  1.46048909E+09  1.90450545E+10  1.72717248E+09  1.90449377E+10
 shsum :  1.60536934E+09  2.45404815E+10  5.49542758E+09  2.45403648E+10
 shsum :  1.60536934E+09  2.45404815E+10   24.259539      2.45403648E+10
 shsum :  1.60536934E+09  2.45404815E+10   1.4728271      2.45403648E+10
 fin  2.45404815E+10  1.60536934E+09   18.739912    
   15.286502    
   14.776868       18.739912    
 ezero   0.0000000    
  2.45404815E+10
   2.7195134    

Total energy input of :3.008E+10 eV.cm-2.s-1 (qtoteV)
             of which 6.362E+09 is reflected (qsump)
                  and 2.454E+10 is absorbed (entot) 
                         through inelastic collisions (shsum =2.454E+10)
                                           + heating (elhsum =1.165E+05)
 This refers to an energy gain of   2.72 %


 The average E. loss per ion pair is :  18.74 eV (from qtoteV)
                                  or :  15.29 eV (from (entot))
                                  or :  14.78 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 : 3.0071E+10 [eV/cm2/s]
                                                             or : 4.8180E-02 [erg/cm2/s]
 That variable "errorgaupin" is:          100

 MAIN : Total energy deposition in [CO2] is 1.493E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 2.370E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 1.726E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 5.495E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 2.441E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 1.482E+00 [eV.cm-2.s-1] ("shsum").
  3.55633696E+08           2          21
  3.76484384E+08           2          23

 Total Heating :  1.173E+05 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  7.0664380E-04
 entot depart   117279.70       117279.70    
 shsum :  1.41771213E+09  1.49310290E+10  1.49309112E+10  1.49309112E+10
 shsum :  1.44447283E+09  1.73006275E+10  2.36959821E+09  1.73005087E+10
 shsum :  1.46000064E+09  1.90263235E+10  1.72569677E+09  1.90262047E+10
 shsum :  1.60488909E+09  2.45213983E+10  5.49507482E+09  2.45212795E+10
 shsum :  1.60488909E+09  2.45213983E+10   24.408329      2.45212795E+10
 shsum :  1.60488909E+09  2.45213983E+10   1.4823121      2.45212795E+10
 fin  2.45213983E+10  1.60488909E+09   18.737396    
   15.279185    
   14.771821       18.737396    
 ezero   0.0000000    
  2.45213983E+10
   2.7077663    

Total energy input of :3.007E+10 eV.cm-2.s-1 (qtoteV)
             of which 6.364E+09 is reflected (qsump)
                  and 2.452E+10 is absorbed (entot) 
                         through inelastic collisions (shsum =2.452E+10)
                                           + heating (elhsum =1.173E+05)
 This refers to an energy gain of   2.71 %


 The average E. loss per ion pair is :  18.74 eV (from qtoteV)
                                  or :  15.28 eV (from (entot))
                                  or :  14.77 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 : 4.9742E+10 [eV/cm2/s]
                                                             or : 7.9697E-02 [erg/cm2/s]
 That variable "errorgaupin" is:           71

 MAIN : Total energy deposition in [CO2] is 2.864E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 3.966E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 2.822E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 7.965E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 2.995E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 1.685E+00 [eV.cm-2.s-1] ("shsum").
  5.27512864E+08           2          21
  5.60867904E+08           2          23

 Total Heating :  1.823E+05 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  1.0819648E-03
 entot depart   182326.23       182326.23    
 shsum :  2.39146829E+09  2.86445629E+10  2.86443807E+10  2.86443807E+10
 shsum :  2.43244237E+09  3.26106665E+10  3.96610432E+09  3.26104842E+10
 shsum :  2.45513344E+09  3.54323169E+10  2.82164890E+09  3.54321326E+10
 shsum :  2.65447629E+09  4.33971282E+10  7.96481126E+09  4.33969439E+10
 shsum :  2.65447629E+09  4.33971282E+10   29.953638      4.33969439E+10
 shsum :  2.65447629E+09  4.33971282E+10   1.6848657      4.33969439E+10
 fin  4.33971282E+10  2.65447629E+09   18.738911    
   16.348660    
   15.881237       18.738911    
 ezero   0.0000000    
  4.33971282E+10
   2.4943922    

Total energy input of :4.974E+10 eV.cm-2.s-1 (qtoteV)
             of which 7.586E+09 is reflected (qsump)
                  and 4.340E+10 is absorbed (entot) 
                         through inelastic collisions (shsum =4.340E+10)
                                           + heating (elhsum =1.823E+05)
 This refers to an energy gain of   2.49 %


 The average E. loss per ion pair is :  18.74 eV (from qtoteV)
                                  or :  16.35 eV (from (entot))
                                  or :  15.88 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 : 4.7693E+10 [eV/cm2/s]
                                                             or : 7.6413E-02 [erg/cm2/s]
 That variable "errorgaupin" is:           93

 MAIN : Total energy deposition in [CO2] is 2.715E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 3.805E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 2.714E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 7.736E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 2.962E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 1.676E+00 [eV.cm-2.s-1] ("shsum").
  5.08855776E+08           2          21
  5.40415680E+08           2          23

 Total Heating :  1.770E+05 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  1.0452254E-03
 entot depart   177046.17       177046.17    
 shsum :  2.29016166E+09  2.71493960E+10  2.71492198E+10  2.71492198E+10
 shsum :  2.32974464E+09  3.09539738E+10  3.80457805E+09  3.09537976E+10
 shsum :  2.35176550E+09  3.36678953E+10  2.71392179E+09  3.36677192E+10
 shsum :  2.54620698E+09  4.14040064E+10  7.73611315E+09  4.14038344E+10
 shsum :  2.54620698E+09  4.14040064E+10   29.616863      4.14038344E+10
 shsum :  2.54620698E+09  4.14040064E+10   1.6761432      4.14038344E+10
 fin  4.14040064E+10  2.54620698E+09   18.730814    
   16.261053    
   15.788855       18.730814    
 ezero   0.0000000    
  4.14040064E+10
   2.5209720    

Total energy input of :4.769E+10 eV.cm-2.s-1 (qtoteV)
             of which 7.491E+09 is reflected (qsump)
                  and 4.140E+10 is absorbed (entot) 
                         through inelastic collisions (shsum =4.140E+10)
                                           + heating (elhsum =1.770E+05)
 This refers to an energy gain of   2.52 %


 The average E. loss per ion pair is :  18.73 eV (from qtoteV)
                                  or :  16.26 eV (from (entot))
                                  or :  15.79 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 : 4.5566E+10 [eV/cm2/s]
                                                             or : 7.3006E-02 [erg/cm2/s]
 That variable "errorgaupin" is:          101

 MAIN : Total energy deposition in [CO2] is 2.561E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 3.634E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 2.599E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 7.491E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 2.921E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 1.665E+00 [eV.cm-2.s-1] ("shsum").
  4.88907264E+08           2          21
  5.18640576E+08           2          23

 Total Heating :  1.712E+05 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  1.0062598E-03
 entot depart   171165.33       171165.33    
 shsum :  2.18464410E+09  2.56147907E+10  2.56146186E+10  2.56146186E+10
 shsum :  2.22275123E+09  2.92490486E+10  3.63425792E+09  2.92488765E+10
 shsum :  2.24405094E+09  3.18482514E+10  2.59920384E+09  3.18480794E+10
 shsum :  2.43320730E+09  3.93388360E+10  7.49058406E+09  3.93386639E+10
 shsum :  2.43320730E+09  3.93388360E+10   29.213301      3.93386639E+10
 shsum :  2.43320730E+09  3.93388360E+10   1.6648173      3.93386639E+10
 fin  3.93388360E+10  2.43320730E+09   18.726742    
   16.167482    
   15.691732       18.726742    
 ezero   0.0000000    
  3.93388360E+10
   2.5404866    

Total energy input of :4.557E+10 eV.cm-2.s-1 (qtoteV)
             of which 7.385E+09 is reflected (qsump)
                  and 3.934E+10 is absorbed (entot) 
                         through inelastic collisions (shsum =3.934E+10)
                                           + heating (elhsum =1.712E+05)
 This refers to an energy gain of   2.54 %


 The average E. loss per ion pair is :  18.73 eV (from qtoteV)
                                  or :  16.17 eV (from (entot))
                                  or :  15.69 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 : 4.3394E+10 [eV/cm2/s]
                                                             or : 6.9526E-02 [erg/cm2/s]
 That variable "errorgaupin" is:           92

 MAIN : Total energy deposition in [CO2] is 2.406E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 3.460E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 2.480E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 7.234E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 2.877E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 1.652E+00 [eV.cm-2.s-1] ("shsum").
  4.67766976E+08           2          21
  4.95625120E+08           2          23

 Total Heating :  1.649E+05 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  9.6640136E-04
 entot depart   164945.17       164945.17    
 shsum :  2.07645926E+09  2.40595476E+10  2.40593818E+10  2.40593818E+10
 shsum :  2.11305702E+09  2.75195884E+10  3.46004122E+09  2.75194225E+10
 shsum :  2.13360307E+09  2.99996938E+10  2.48010547E+09  2.99995279E+10
 shsum :  2.31720474E+09  3.72332012E+10  7.23350579E+09  3.72330332E+10
 shsum :  2.31720474E+09  3.72332012E+10   28.767691      3.72330332E+10
 shsum :  2.31720474E+09  3.72332012E+10   1.6521342      3.72330332E+10
 fin  3.72332012E+10  2.31720474E+09   18.726957    
   16.068153    
   15.590359       18.726957    
 ezero   0.0000000    
  3.72332012E+10
   2.5513754    

Total energy input of :4.339E+10 eV.cm-2.s-1 (qtoteV)
             of which 7.268E+09 is reflected (qsump)
                  and 3.723E+10 is absorbed (entot) 
                         through inelastic collisions (shsum =3.723E+10)
                                           + heating (elhsum =1.649E+05)
 This refers to an energy gain of   2.55 %


 The average E. loss per ion pair is :  18.73 eV (from qtoteV)
                                  or :  16.07 eV (from (entot))
                                  or :  15.59 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 : 7.2597E+10 [eV/cm2/s]
                                                             or : 1.1632E-01 [erg/cm2/s]
 That variable "errorgaupin" is:           89

 MAIN : Total energy deposition in [CO2] is 4.584E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 5.712E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 3.967E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 1.027E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 3.484E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 1.854E+00 [eV.cm-2.s-1] ("shsum").
  6.67635712E+08           2          21
  7.10518464E+08           2          23

 Total Heating :  2.478E+05 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  1.4605960E-03
 entot depart   247790.05       247790.05    
 shsum :  3.54479309E+09  4.58404864E+10  4.58402406E+10  4.58402406E+10
 shsum :  3.60010624E+09  5.15521659E+10  5.71167795E+09  5.15519201E+10
 shsum :  3.62954368E+09  5.55189821E+10  3.96681651E+09  5.55187364E+10
 shsum :  3.87700070E+09  6.57908326E+10  1.02718505E+10  6.57905869E+10
 shsum :  3.87700070E+09  6.57908326E+10   34.836899      6.57905869E+10
 shsum :  3.87700070E+09  6.57908326E+10   1.8537519      6.57905869E+10
 fin  6.57908326E+10  3.87700070E+09   18.725111    
   16.969519    
   16.538675       18.725111    
 ezero   0.0000000    
  6.57908326E+10
   2.3008764    

Total energy input of :7.260E+10 eV.cm-2.s-1 (qtoteV)
             of which 8.477E+09 is reflected (qsump)
                  and 6.579E+10 is absorbed (entot) 
                         through inelastic collisions (shsum =6.579E+10)
                                           + heating (elhsum =2.478E+05)
 This refers to an energy gain of   2.30 %


 The average E. loss per ion pair is :  18.73 eV (from qtoteV)
                                  or :  16.97 eV (from (entot))
                                  or :  16.54 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 : 6.8148E+10 [eV/cm2/s]
                                                             or : 1.0919E-01 [erg/cm2/s]
 That variable "errorgaupin" is:           87

 MAIN : Total energy deposition in [CO2] is 4.241E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 5.380E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 3.753E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 9.858E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 3.419E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 1.836E+00 [eV.cm-2.s-1] ("shsum").
  6.37801984E+08           2          21
  6.77909568E+08           2          23

 Total Heating :  2.374E+05 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  1.3899244E-03
 entot depart   237395.00       237395.00    
 shsum :  3.31977702E+09  4.24145142E+10  4.24142766E+10  4.24142766E+10
 shsum :  3.37241370E+09  4.77941473E+10  5.37963418E+09  4.77939098E+10
 shsum :  3.40062592E+09  5.15472548E+10  3.75310643E+09  5.15470172E+10
 shsum :  3.63960678E+09  6.14056182E+10  9.85836339E+09  6.14053806E+10
 shsum :  3.63960678E+09  6.14056182E+10   34.190998      6.14053806E+10
 shsum :  3.63960678E+09  6.14056182E+10   1.8362219      6.14053806E+10
 fin  6.14056182E+10  3.63960678E+09   18.723978    
   16.871498    
   16.433464       18.723978    
 ezero   0.0000000    
  6.14056182E+10
   2.3394256    

Total energy input of :6.815E+10 eV.cm-2.s-1 (qtoteV)
             of which 8.337E+09 is reflected (qsump)
                  and 6.141E+10 is absorbed (entot) 
                         through inelastic collisions (shsum =6.141E+10)
                                           + heating (elhsum =2.374E+05)
 This refers to an energy gain of   2.34 %


 The average E. loss per ion pair is :  18.72 eV (from qtoteV)
                                  or :  16.87 eV (from (entot))
                                  or :  16.43 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 : 6.3485E+10 [eV/cm2/s]
                                                             or : 1.0172E-01 [erg/cm2/s]
 That variable "errorgaupin" is:           85

 MAIN : Total energy deposition in [CO2] is 3.886E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 5.026E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 3.523E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 9.407E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 3.342E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 1.814E+00 [eV.cm-2.s-1] ("shsum").
  6.05790912E+08           2          21
  6.43112960E+08           2          23

 Total Heating :  2.256E+05 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  1.3140172E-03
 entot depart   225629.98       225629.98    
 shsum :  3.08418330E+09  3.88600791E+10  3.88598538E+10  3.88598538E+10
 shsum :  3.13394534E+09  4.38862848E+10  5.02620570E+09  4.38860595E+10
 shsum :  3.16082381E+09  4.74097091E+10  3.52342630E+09  4.74094879E+10
 shsum :  3.39048883E+09  5.68167096E+10  9.40700058E+09  5.68164884E+10
 shsum :  3.39048883E+09  5.68167096E+10   33.418362      5.68164884E+10
 shsum :  3.39048883E+09  5.68167096E+10   1.8137705      5.68164884E+10
 fin  5.68167096E+10  3.39048883E+09   18.724503    
   16.757675    
   16.313225       18.724503    
 ezero   0.0000000    
  5.68167096E+10
   2.3736331    

Total energy input of :6.349E+10 eV.cm-2.s-1 (qtoteV)
             of which 8.175E+09 is reflected (qsump)
                  and 5.682E+10 is absorbed (entot) 
                         through inelastic collisions (shsum =5.682E+10)
                                           + heating (elhsum =2.256E+05)
 This refers to an energy gain of   2.37 %


 The average E. loss per ion pair is :  18.72 eV (from qtoteV)
                                  or :  16.76 eV (from (entot))
                                  or :  16.31 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 : 5.8677E+10 [eV/cm2/s]
                                                             or : 9.4013E-02 [erg/cm2/s]
 That variable "errorgaupin" is:          104

 MAIN : Total energy deposition in [CO2] is 3.523E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 4.659E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 3.281E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 8.924E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 3.255E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 1.788E+00 [eV.cm-2.s-1] ("shsum").
  5.71155712E+08           2          21
  6.05577664E+08           2          23

 Total Heating :  2.129E+05 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  1.2346182E-03
 entot depart   212908.02       212908.02    
 shsum :  2.84147866E+09  3.52302367E+10  3.52300237E+10  3.52300237E+10
 shsum :  2.88823398E+09  3.98893588E+10  4.65912166E+09  3.98891459E+10
 shsum :  2.91368832E+09  4.31705866E+10  3.28122624E+09  4.31703736E+10
 shsum :  3.13330355E+09  5.20941650E+10  8.92357837E+09  5.20939520E+10
 shsum :  3.13330355E+09  5.20941650E+10   32.551449      5.20939520E+10
 shsum :  3.13330355E+09  5.20941650E+10   1.7880118      5.20939520E+10
 fin  5.20941650E+10  3.13330355E+09   18.726934    
   16.625956    
   16.176176       18.726934    
 ezero   0.0000000    
  5.20941650E+10
   2.4017763    

Total energy input of :5.868E+10 eV.cm-2.s-1 (qtoteV)
             of which 7.992E+09 is reflected (qsump)
                  and 5.209E+10 is absorbed (entot) 
                         through inelastic collisions (shsum =5.209E+10)
                                           + heating (elhsum =2.129E+05)
 This refers to an energy gain of   2.40 %


 The average E. loss per ion pair is :  18.73 eV (from qtoteV)
                                  or :  16.63 eV (from (entot))
                                  or :  16.18 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 : 9.7042E+10 [eV/cm2/s]
                                                             or : 1.5548E-01 [erg/cm2/s]
 That variable "errorgaupin" is:           96

 MAIN : Total energy deposition in [CO2] is 6.515E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 7.468E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 5.078E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 1.232E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 3.878E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 1.981E+00 [eV.cm-2.s-1] ("shsum").
  7.81197888E+08           2          21
  8.31950528E+08           2          23

 Total Heating :  3.064E+05 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  1.8230488E-03
 entot depart   306446.28       306446.28    
 shsum :  4.79434496E+09  6.51472568E+10  6.51469496E+10  6.51469496E+10
 shsum :  4.86338406E+09  7.26149366E+10  7.46768077E+09  7.26146335E+10
 shsum :  4.89895629E+09  7.76924774E+10  5.07753933E+09  7.76921743E+10
 shsum :  5.18742579E+09  9.00075602E+10  1.23150828E+10  9.00072571E+10
 shsum :  5.18742579E+09  9.00075602E+10   38.781559      9.00072571E+10
 shsum :  5.18742579E+09  9.00075602E+10   1.9809120      9.00072571E+10
 fin  9.00075602E+10  5.18742579E+09   18.707094    
   17.351103    
   16.949579       18.707094    
 ezero   0.0000000    
  9.00075602E+10
   2.1463702    

Total energy input of :9.704E+10 eV.cm-2.s-1 (qtoteV)
             of which 9.117E+09 is reflected (qsump)
                  and 9.001E+10 is absorbed (entot) 
                         through inelastic collisions (shsum =9.001E+10)
                                           + heating (elhsum =3.064E+05)
 This refers to an energy gain of   2.15 %


 The average E. loss per ion pair is :  18.71 eV (from qtoteV)
                                  or :  17.35 eV (from (entot))
                                  or :  16.95 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 : 9.0057E+10 [eV/cm2/s]
                                                             or : 1.4429E-01 [erg/cm2/s]
 That variable "errorgaupin" is:           93

 MAIN : Total energy deposition in [CO2] is 5.956E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 6.974E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 4.769E+09 [eV.cm-2.s-1] ("shsum").

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

 MAIN : Total energy deposition in [O2]  is 3.793E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 1.958E+00 [eV.cm-2.s-1] ("shsum").
  7.45046080E+08           2          21
  7.92435264E+08           2          23

 Total Heating :  2.922E+05 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  1.7221683E-03
 entot depart   292187.34       292187.34    
 shsum :  4.43634227E+09  5.95634381E+10  5.95631473E+10  5.95631473E+10
 shsum :  4.50156134E+09  6.65374392E+10  6.97400013E+09  6.65371484E+10
 shsum :  4.53545523E+09  7.13067807E+10  4.76933990E+09  7.13064858E+10
 shsum :  4.81294746E+09  8.30696407E+10  1.17628570E+10  8.30693458E+10
 shsum :  4.81294746E+09  8.30696407E+10   37.932133      8.30693458E+10
 shsum :  4.81294746E+09  8.30696407E+10   1.9583178      8.30693458E+10
 fin  8.30696407E+10  4.81294746E+09   18.711451    
   17.259619    
   16.849798       18.711451    
 ezero   0.0000000    
  8.30696407E+10
   2.1902132    

Total energy input of :9.006E+10 eV.cm-2.s-1 (qtoteV)
             of which 8.960E+09 is reflected (qsump)
                  and 8.307E+10 is absorbed (entot) 
                         through inelastic collisions (shsum =8.307E+10)
                                           + heating (elhsum =2.922E+05)
 This refers to an energy gain of   2.19 %


 The average E. loss per ion pair is :  18.71 eV (from qtoteV)
                                  or :  17.26 eV (from (entot))
                                  or :  16.85 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 : 8.2695E+10 [eV/cm2/s]
                                                             or : 1.3249E-01 [erg/cm2/s]
 That variable "errorgaupin" is:           91

 MAIN : Total energy deposition in [CO2] is 5.373E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 6.444E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 4.435E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 1.115E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 3.692E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 1.930E+00 [eV.cm-2.s-1] ("shsum").
  7.05170240E+08           2          21
  7.49071552E+08           2          23

 Total Heating :  2.759E+05 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  1.6129189E-03
 entot depart   275909.25       275909.25    
 shsum :  4.05984947E+09  5.37330565E+10  5.37327821E+10  5.37327821E+10
 shsum :  4.12093107E+09  6.01773015E+10  6.44424602E+09  6.01770271E+10
 shsum :  4.15298227E+09  6.46124585E+10  4.43515648E+09  6.46121841E+10
 shsum :  4.41824870E+09  7.57646950E+10  1.11522335E+10  7.57644165E+10
 shsum :  4.41824870E+09  7.57646950E+10   36.920666      7.57644165E+10
 shsum :  4.41824870E+09  7.57646950E+10   1.9299376      7.57644165E+10
 fin  7.57646950E+10  4.41824870E+09   18.716663    
   17.148129    
   16.730469       18.716663    
 ezero   0.0000000    
  7.57646950E+10
   2.2314825    

Total energy input of :8.269E+10 eV.cm-2.s-1 (qtoteV)
             of which 8.776E+09 is reflected (qsump)
                  and 7.576E+10 is absorbed (entot) 
                         through inelastic collisions (shsum =7.576E+10)
                                           + heating (elhsum =2.759E+05)
 This refers to an energy gain of   2.23 %


 The average E. loss per ion pair is :  18.72 eV (from qtoteV)
                                  or :  17.15 eV (from (entot))
                                  or :  16.73 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 : 7.5057E+10 [eV/cm2/s]
                                                             or : 1.2026E-01 [erg/cm2/s]
 That variable "errorgaupin" is:           91

 MAIN : Total energy deposition in [CO2] is 4.775E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 5.888E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 4.078E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 1.049E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 3.576E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 1.896E+00 [eV.cm-2.s-1] ("shsum").
  6.61253120E+08           2          21
  7.01490496E+08           2          23

 Total Heating :  2.579E+05 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  1.4972294E-03
 entot depart   257919.08       257919.08    
 shsum :  3.67028429E+09  4.77477315E+10  4.77474734E+10  4.77474734E+10
 shsum :  3.72698470E+09  5.36358543E+10  5.88812288E+09  5.36355963E+10
 shsum :  3.75704141E+09  5.77142579E+10  4.07840333E+09  5.77139999E+10
 shsum :  4.00887219E+09  6.82011607E+10  1.04869028E+10  6.82009027E+10
 shsum :  4.00887219E+09  6.82011607E+10   35.764511      6.82009027E+10
 shsum :  4.00887219E+09  6.82011607E+10   1.8964896      6.82009027E+10
 fin  6.82011607E+10  4.00887219E+09   18.722805    
   17.012556    
   16.587507       18.722805    
 ezero   0.0000000    
  6.82011607E+10
   2.2702174    

Total energy input of :7.506E+10 eV.cm-2.s-1 (qtoteV)
             of which 8.560E+09 is reflected (qsump)
                  and 6.820E+10 is absorbed (entot) 
                         through inelastic collisions (shsum =6.820E+10)
                                           + heating (elhsum =2.579E+05)
 This refers to an energy gain of   2.27 %


 The average E. loss per ion pair is :  18.72 eV (from qtoteV)
                                  or :  17.01 eV (from (entot))
                                  or :  16.59 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 : 1.2207E+11 [eV/cm2/s]
                                                             or : 1.9557E-01 [erg/cm2/s]
 That variable "errorgaupin" is:          100

 MAIN : Total energy deposition in [CO2] is 8.556E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 9.170E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 6.123E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 1.410E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 4.200E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 2.080E+00 [eV.cm-2.s-1] ("shsum").
  8.72530176E+08           2          21
  9.29745856E+08           2          23

 Total Heating :  3.574E+05 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  2.1639108E-03
 entot depart   357387.41       357387.41    
 shsum :  6.08582042E+09  8.55565025E+10  8.55561421E+10  8.55561421E+10
 shsum :  6.16776806E+09  9.47267912E+10  9.17028659E+09  9.47264307E+10
 shsum :  6.20888678E+09  1.00849746E+11  6.12295885E+09  1.00849385E+11
 shsum :  6.53223066E+09  1.14949128E+11  1.40993812E+10  1.14948768E+11
 shsum :  6.53223066E+09  1.14949128E+11   42.001762      1.14948768E+11
 shsum :  6.53223066E+09  1.14949128E+11   2.0795434      1.14948768E+11
 fin  1.14949128E+11  6.53223066E+09   18.686617    
   17.597225    
   17.218973       18.686617    
 ezero   0.0000000    
  1.14949128E+11
   2.0241807    

Total energy input of :1.221E+11 eV.cm-2.s-1 (qtoteV)
             of which 9.587E+09 is reflected (qsump)
                  and 1.149E+11 is absorbed (entot) 
                         through inelastic collisions (shsum =1.149E+11)
                                           + heating (elhsum =3.574E+05)
 This refers to an energy gain of   2.02 %


 The average E. loss per ion pair is :  18.69 eV (from qtoteV)
                                  or :  17.60 eV (from (entot))
                                  or :  17.22 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 : 1.1254E+11 [eV/cm2/s]
                                                             or : 1.8031E-01 [erg/cm2/s]
 That variable "errorgaupin" is:           94

 MAIN : Total energy deposition in [CO2] is 7.773E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 8.528E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 5.732E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 1.344E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 4.102E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 2.054E+00 [eV.cm-2.s-1] ("shsum").
  8.32954880E+08           2          21
  8.86450624E+08           2          23

 Total Heating :  3.404E+05 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  2.0360290E-03
 entot depart   340415.22       340415.22    
 shsum :  5.59297178E+09  7.77348956E+10  7.77345516E+10  7.77345516E+10
 shsum :  5.67007642E+09  8.62632919E+10  8.52839680E+09  8.62629478E+10
 shsum :  5.70913434E+09  9.19953736E+10  5.73207910E+09  9.19950295E+10
 shsum :  6.01971968E+09  1.05438732E+11  1.34433587E+10  1.05438388E+11
 shsum :  6.01971968E+09  1.05438732E+11   41.020893      1.05438388E+11
 shsum :  6.01971968E+09  1.05438732E+11   2.0541749      1.05438388E+11
 fin  1.05438732E+11  6.01971968E+09   18.694792    
   17.515554    
   17.128786       18.694792    
 ezero   0.0000000    
  1.05438732E+11
   2.0688589    

Total energy input of :1.125E+11 eV.cm-2.s-1 (qtoteV)
             of which 9.427E+09 is reflected (qsump)
                  and 1.054E+11 is absorbed (entot) 
                         through inelastic collisions (shsum =1.054E+11)
                                           + heating (elhsum =3.404E+05)
 This refers to an energy gain of   2.07 %


 The average E. loss per ion pair is :  18.69 eV (from qtoteV)
                                  or :  17.52 eV (from (entot))
                                  or :  17.13 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 : 1.0245E+11 [eV/cm2/s]
                                                             or : 1.6415E-01 [erg/cm2/s]
 That variable "errorgaupin" is:           94

 MAIN : Total energy deposition in [CO2] is 6.953E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 7.835E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 5.306E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 1.271E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 3.985E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 2.022E+00 [eV.cm-2.s-1] ("shsum").
  7.88241024E+08           2          21
  8.37761472E+08           2          23

 Total Heating :  3.208E+05 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  1.8967788E-03
 entot depart   320825.44       320825.44    
 shsum :  5.07267533E+09  6.95284531E+10  6.95281336E+10  6.95281336E+10
 shsum :  5.14450688E+09  7.73636260E+10  7.83516928E+09  7.73633065E+10
 shsum :  5.18129357E+09  8.26694205E+10  5.30579814E+09  8.26691011E+10
 shsum :  5.47753626E+09  9.53804063E+10  1.27109878E+10  9.53800868E+10
 shsum :  5.47753626E+09  9.53804063E+10   39.848854      9.53800868E+10
 shsum :  5.47753626E+09  9.53804063E+10   2.0224023      9.53800868E+10
 fin  9.53804063E+10  5.47753626E+09   18.703894    
   17.413012    
   17.017885       18.703894    
 ezero   0.0000000    
  9.53804063E+10
   2.1125345    

Total energy input of :1.025E+11 eV.cm-2.s-1 (qtoteV)
             of which 9.235E+09 is reflected (qsump)
                  and 9.538E+10 is absorbed (entot) 
                         through inelastic collisions (shsum =9.538E+10)
                                           + heating (elhsum =3.208E+05)
 This refers to an energy gain of   2.11 %


 The average E. loss per ion pair is :  18.70 eV (from qtoteV)
                                  or :  17.41 eV (from (entot))
                                  or :  17.02 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 : 9.1939E+10 [eV/cm2/s]
                                                             or : 1.4731E-01 [erg/cm2/s]
 That variable "errorgaupin" is:           77

 MAIN : Total energy deposition in [CO2] is 6.106E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 7.102E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 4.847E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 1.190E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 3.849E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 1.984E+00 [eV.cm-2.s-1] ("shsum").
  7.38167040E+08           2          21
  7.83461440E+08           2          23

 Total Heating :  2.988E+05 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  1.7482592E-03
 entot depart   298780.00       298780.00    
 shsum :  4.53209651E+09  6.10647368E+10  6.10644378E+10  6.10644378E+10
 shsum :  4.59830323E+09  6.81665536E+10  7.10181581E+09  6.81662546E+10
 shsum :  4.63261133E+09  7.30130842E+10  4.84653312E+09  7.30127892E+10
 shsum :  4.91289088E+09  8.49159700E+10  1.19028859E+10  8.49156751E+10
 shsum :  4.91289088E+09  8.49159700E+10   38.489914      8.49156751E+10
 shsum :  4.91289088E+09  8.49159700E+10   1.9842507      8.49156751E+10
 fin  8.49159700E+10  4.91289088E+09   18.713882    
   17.284319    
   16.880638       18.713882    
 ezero   0.0000000    
  8.49159700E+10
   2.1571131    

Total energy input of :9.194E+10 eV.cm-2.s-1 (qtoteV)
             of which 9.007E+09 is reflected (qsump)
                  and 8.492E+10 is absorbed (entot) 
                         through inelastic collisions (shsum =8.492E+10)
                                           + heating (elhsum =2.988E+05)
 This refers to an energy gain of   2.16 %


 The average E. loss per ion pair is :  18.71 eV (from qtoteV)
                                  or :  17.28 eV (from (entot))
                                  or :  16.88 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 : 1.4701E+11 [eV/cm2/s]
                                                             or : 2.3555E-01 [erg/cm2/s]
 That variable "errorgaupin" is:           85

 MAIN : Total energy deposition in [CO2] is 1.064E+11 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 1.079E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 7.094E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 1.566E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 4.467E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 2.159E+00 [eV.cm-2.s-1] ("shsum").
  9.45708608E+08           2          21
  1.00812525E+09           2          23

 Total Heating :  4.012E+05 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  2.4828685E-03
 entot depart   401208.53       401208.53    
 shsum :  7.38266726E+09  1.06362470E+11  1.06362069E+11  1.06362069E+11
 shsum :  7.47669402E+09  1.17155160E+11  1.07926927E+10  1.17154759E+11
 shsum :  7.52283648E+09  1.24248941E+11  7.09378355E+09  1.24248539E+11
 shsum :  7.87602739E+09  1.39904418E+11  1.56554813E+10  1.39904025E+11
 shsum :  7.87602739E+09  1.39904418E+11   44.670750      1.39904025E+11
 shsum :  7.87602739E+09  1.39904418E+11   2.1585364      1.39904025E+11
 fin  1.39904418E+11  7.87602739E+09   18.666136    
   17.763323    
   17.403965       18.666136    
 ezero   0.0000000    
  1.39904418E+11
   1.9251910    

Total energy input of :1.470E+11 eV.cm-2.s-1 (qtoteV)
             of which 9.941E+09 is reflected (qsump)
                  and 1.399E+11 is absorbed (entot) 
                         through inelastic collisions (shsum =1.399E+11)
                                           + heating (elhsum =4.012E+05)
 This refers to an energy gain of   1.93 %


 The average E. loss per ion pair is :  18.67 eV (from qtoteV)
                                  or :  17.76 eV (from (entot))
                                  or :  17.40 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 : 1.3500E+11 [eV/cm2/s]
                                                             or : 2.1629E-01 [erg/cm2/s]
 That variable "errorgaupin" is:           90

 MAIN : Total energy deposition in [CO2] is 9.630E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 1.001E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 6.631E+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 4.360E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 2.131E+00 [eV.cm-2.s-1] ("shsum").
  9.05031616E+08           2          21
  9.63633472E+08           2          23

 Total Heating :  3.823E+05 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  2.3302338E-03
 entot depart   382281.69       382281.69    
 shsum :  6.75686502E+09  9.63050455E+10  9.63046605E+10  9.63046605E+10
 shsum :  6.84511130E+09  1.06319716E+11  1.00146698E+10  1.06319331E+11
 shsum :  6.88886118E+09  1.12950280E+11  6.63056128E+09  1.12949895E+11
 shsum :  7.22797158E+09  1.27870247E+11  1.49199667E+10  1.27869862E+11
 shsum :  7.22797158E+09  1.27870247E+11   43.595512      1.27869862E+11
 shsum :  7.22797158E+09  1.27870247E+11   2.1311328      1.27869862E+11
 fin  1.27870247E+11  7.22797158E+09   18.676867    
   17.691029    
   17.323292       18.676867    
 ezero   0.0000000    
  1.27870247E+11
   1.9689378    

Total energy input of :1.350E+11 eV.cm-2.s-1 (qtoteV)
             of which 9.784E+09 is reflected (qsump)
                  and 1.279E+11 is absorbed (entot) 
                         through inelastic collisions (shsum =1.279E+11)
                                           + heating (elhsum =3.823E+05)
 This refers to an energy gain of   1.97 %


 The average E. loss per ion pair is :  18.68 eV (from qtoteV)
                                  or :  17.69 eV (from (entot))
                                  or :  17.32 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 : 1.2223E+11 [eV/cm2/s]
                                                             or : 1.9584E-01 [erg/cm2/s]
 That variable "errorgaupin" is:           92

 MAIN : Total energy deposition in [CO2] is 8.571E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 9.171E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 6.123E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 1.409E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 4.231E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 2.097E+00 [eV.cm-2.s-1] ("shsum").
  8.57360256E+08           2          21
  9.11647616E+08           2          23

 Total Heating :  3.603E+05 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  2.1636016E-03
 entot depart   360320.84       360320.84    
 shsum :  6.09427098E+09  8.57144197E+10  8.57140593E+10  8.57140593E+10
 shsum :  6.17620685E+09  9.48854784E+10  9.17106074E+09  9.48851180E+10
 shsum :  6.21731430E+09  1.01008654E+11  6.12317952E+09  1.01008294E+11
 shsum :  6.54049894E+09  1.15101958E+11  1.40933038E+10  1.15101598E+11
 shsum :  6.54049894E+09  1.15101958E+11   42.313492      1.15101598E+11
 shsum :  6.54049894E+09  1.15101958E+11   2.0973728      1.15101598E+11
 fin  1.15101958E+11  6.54049894E+09   18.688833    
   17.598345    
   17.222204       18.688833    
 ezero   0.0000000    
  1.15101958E+11
   2.0126493    

Total energy input of :1.222E+11 eV.cm-2.s-1 (qtoteV)
             of which 9.592E+09 is reflected (qsump)
                  and 1.151E+11 is absorbed (entot) 
                         through inelastic collisions (shsum =1.151E+11)
                                           + heating (elhsum =3.603E+05)
 This refers to an energy gain of   2.01 %


 The average E. loss per ion pair is :  18.69 eV (from qtoteV)
                                  or :  17.60 eV (from (entot))
                                  or :  17.22 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 : 1.0889E+11 [eV/cm2/s]
                                                             or : 1.7446E-01 [erg/cm2/s]
 That variable "errorgaupin" is:           88

 MAIN : Total energy deposition in [CO2] is 7.475E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 8.274E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 5.573E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 1.317E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 4.081E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 2.056E+00 [eV.cm-2.s-1] ("shsum").
  8.03322368E+08           2          21
  8.52978624E+08           2          23

 Total Heating :  3.352E+05 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  1.9852153E-03
 entot depart   335205.81       335205.81    
 shsum :  5.40344269E+09  7.47490673E+10  7.47487314E+10  7.47487314E+10
 shsum :  5.47862323E+09  8.30230610E+10  8.27399066E+09  8.30227251E+10
 shsum :  5.51683379E+09  8.85961114E+10  5.57304832E+09  8.85957755E+10
 shsum :  5.82213837E+09  1.01768929E+11  1.31728159E+10  1.01768593E+11
 shsum :  5.82213837E+09  1.01768929E+11   40.807964      1.01768593E+11
 shsum :  5.82213837E+09  1.01768929E+11   2.0561733      1.01768593E+11
 fin  1.01768929E+11  5.82213837E+09   18.702084    
   17.479649    
   17.094316       18.702084    
 ezero   0.0000000    
  1.01768929E+11
   2.0603664    

Total energy input of :1.089E+11 eV.cm-2.s-1 (qtoteV)
             of which 9.361E+09 is reflected (qsump)
                  and 1.018E+11 is absorbed (entot) 
                         through inelastic collisions (shsum =1.018E+11)
                                           + heating (elhsum =3.352E+05)
 This refers to an energy gain of   2.06 %


 The average E. loss per ion pair is :  18.70 eV (from qtoteV)
                                  or :  17.48 eV (from (entot))
                                  or :  17.09 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 : 1.7142E+11 [eV/cm2/s]
                                                             or : 2.7466E-01 [erg/cm2/s]
 That variable "errorgaupin" is:          101

 MAIN : Total energy deposition in [CO2] is 1.270E+11 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 1.232E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 7.989E+09 [eV.cm-2.s-1] ("shsum").

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

 MAIN : Total energy deposition in [O2]  is 4.689E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 2.222E+00 [eV.cm-2.s-1] ("shsum").
  1.00505421E+09           2          21
  1.07171232E+09           2          23

 Total Heating :  4.385E+05 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  2.7803956E-03
 entot depart   438514.75       438514.75    
 shsum :  8.65824666E+09  1.27046025E+11  1.27045583E+11  1.27045583E+11
 shsum :  8.76354048E+09  1.39368038E+11  1.23220173E+10  1.39367596E+11
 shsum :  8.81424179E+09  1.47356697E+11  7.98865766E+09  1.47356254E+11
 shsum :  9.19314330E+09  1.64371137E+11  1.70144358E+10  1.64370694E+11
 shsum :  9.19314330E+09  1.64371137E+11   46.886875      1.64370694E+11
 shsum :  9.19314330E+09  1.64371137E+11   2.2222648      1.64370694E+11
 fin  1.64371137E+11  9.19314330E+09   18.647017    
   17.879753    
   17.536036       18.647017    
 ezero   0.0000000    
  1.64371137E+11
   1.8432882    

Total energy input of :1.714E+11 eV.cm-2.s-1 (qtoteV)
             of which 1.021E+10 is reflected (qsump)
                  and 1.644E+11 is absorbed (entot) 
                         through inelastic collisions (shsum =1.644E+11)
                                           + heating (elhsum =4.385E+05)
 This refers to an energy gain of   1.84 %


 The average E. loss per ion pair is :  18.65 eV (from qtoteV)
                                  or :  17.88 eV (from (entot))
                                  or :  17.54 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 : 1.5701E+11 [eV/cm2/s]
                                                             or : 2.5155E-01 [erg/cm2/s]
 That variable "errorgaupin" is:           98

 MAIN : Total energy deposition in [CO2] is 1.148E+11 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 1.142E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 7.462E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 1.622E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 4.576E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 2.194E+00 [eV.cm-2.s-1] ("shsum").
  9.63904192E+08           2          21
  1.02669312E+09           2          23

 Total Heating :  4.184E+05 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  2.6047784E-03
 entot depart   418396.94       418396.94    
 shsum :  7.90379622E+09  1.14805613E+11  1.14805195E+11  1.14805195E+11
 shsum :  8.00243968E+09  1.26224220E+11  1.14186076E+10  1.26223802E+11
 shsum :  8.05045504E+09  1.33685780E+11  7.46155930E+09  1.33685363E+11
 shsum :  8.41427046E+09  1.49902754E+11  1.62169795E+10  1.49902344E+11
 shsum :  8.41427046E+09  1.49902754E+11   45.758606      1.49902344E+11
 shsum :  8.41427046E+09  1.49902754E+11   2.1941192      1.49902344E+11
 fin  1.49902754E+11  8.41427046E+09   18.659380    
   17.815300    
   17.463648       18.659380    
 ezero   0.0000000    
  1.49902754E+11
   1.8845896    

Total energy input of :1.570E+11 eV.cm-2.s-1 (qtoteV)
             of which 1.006E+10 is reflected (qsump)
                  and 1.499E+11 is absorbed (entot) 
                         through inelastic collisions (shsum =1.499E+11)
                                           + heating (elhsum =4.184E+05)
 This refers to an energy gain of   1.88 %


 The average E. loss per ion pair is :  18.66 eV (from qtoteV)
                                  or :  17.82 eV (from (entot))
                                  or :  17.46 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 : 1.4166E+11 [eV/cm2/s]
                                                             or : 2.2696E-01 [erg/cm2/s]
 That variable "errorgaupin" is:           79

 MAIN : Total energy deposition in [CO2] is 1.019E+11 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 1.044E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 6.882E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 1.532E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 4.440E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 2.159E+00 [eV.cm-2.s-1] ("shsum").
  9.14838656E+08           2          21
  9.73146496E+08           2          23

 Total Heating :  3.947E+05 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  2.4128736E-03
 entot depart   394706.72       394706.72    
 shsum :  7.10301030E+09  1.01879702E+11  1.01879308E+11  1.01879308E+11
 shsum :  7.19438643E+09  1.12316449E+11  1.04367503E+10  1.12316056E+11
 shsum :  7.23943066E+09  1.19198884E+11  6.88243251E+09  1.19198491E+11
 shsum :  7.58609920E+09  1.34514754E+11  1.53158738E+10  1.34514360E+11
 shsum :  7.58609920E+09  1.34514754E+11   44.395729      1.34514360E+11
 shsum :  7.58609920E+09  1.34514754E+11   2.1588902      1.34514360E+11
 fin  1.34514754E+11  7.58609920E+09   18.673384    
   17.731743    
   17.371759       18.673384    
 ezero   0.0000000    
  1.34514754E+11
   1.9277880    

Total energy input of :1.417E+11 eV.cm-2.s-1 (qtoteV)
             of which 9.874E+09 is reflected (qsump)
                  and 1.345E+11 is absorbed (entot) 
                         through inelastic collisions (shsum =1.345E+11)
                                           + heating (elhsum =3.947E+05)
 This refers to an energy gain of   1.93 %


 The average E. loss per ion pair is :  18.67 eV (from qtoteV)
                                  or :  17.73 eV (from (entot))
                                  or :  17.37 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 : 1.2556E+11 [eV/cm2/s]
                                                             or : 2.0118E-01 [erg/cm2/s]
 That variable "errorgaupin" is:           91

 MAIN : Total energy deposition in [CO2] is 8.845E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 9.389E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 6.252E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 1.431E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 4.278E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 2.116E+00 [eV.cm-2.s-1] ("shsum").
  8.58373120E+08           2          21
  9.11768448E+08           2          23

 Total Heating :  3.673E+05 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  2.2070848E-03
 entot depart   367302.72       367302.72    
 shsum :  6.26579456E+09  8.84541358E+10  8.84537672E+10  8.84537672E+10
 shsum :  6.34937702E+09  9.78432164E+10  9.38908262E+09  9.78428477E+10
 shsum :  6.39115674E+09  1.04094958E+11  6.25173811E+09  1.04094589E+11
 shsum :  6.71845683E+09  1.18400729E+11  1.43057705E+10  1.18400360E+11
 shsum :  6.71845683E+09  1.18400729E+11   42.783531      1.18400360E+11
 shsum :  6.71845683E+09  1.18400729E+11   2.1156740      1.18400360E+11
 fin  1.18400729E+11  6.71845683E+09   18.689186    
   17.623203    
   17.253681       18.689186    
 ezero   0.0000000    
  1.18400729E+11
   1.9771974    

Total energy input of :1.256E+11 eV.cm-2.s-1 (qtoteV)
             of which 9.644E+09 is reflected (qsump)
                  and 1.184E+11 is absorbed (entot) 
                         through inelastic collisions (shsum =1.184E+11)
                                           + heating (elhsum =3.673E+05)
 This refers to an energy gain of   1.98 %


 The average E. loss per ion pair is :  18.69 eV (from qtoteV)
                                  or :  17.62 eV (from (entot))
                                  or :  17.25 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 : 1.9494E+11 [eV/cm2/s]
                                                             or : 3.1233E-01 [erg/cm2/s]
 That variable "errorgaupin" is:           76

 MAIN : Total energy deposition in [CO2] is 1.472E+11 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 1.375E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 8.809E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 1.820E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 4.872E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 2.274E+00 [eV.cm-2.s-1] ("shsum").
  1.05336538E+09           2          21
  1.12347354E+09           2          23

 Total Heating :  4.700E+05 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  3.0568629E-03
 entot depart   469993.09       469993.09    
 shsum :  9.89203251E+09  1.47204964E+11  1.47204489E+11  1.47204489E+11
 shsum :  1.00077967E+10  1.60956072E+11  1.37511055E+10  1.60955597E+11
 shsum :  1.00626381E+10  1.69764749E+11  8.80868557E+09  1.69764291E+11
 shsum :  1.04638013E+10  1.87967717E+11  1.82029722E+10  1.87967259E+11
 shsum :  1.04638013E+10  1.87967717E+11   48.723164      1.87967259E+11
 shsum :  1.04638013E+10  1.87967717E+11   2.2738020      1.87967259E+11
 fin  1.87967717E+11  1.04638013E+10   18.629740    
   17.963617    
   17.633245       18.629740    
 ezero   0.0000000    
  1.87967717E+11
   1.7733555    

Total energy input of :1.949E+11 eV.cm-2.s-1 (qtoteV)
             of which 1.043E+10 is reflected (qsump)
                  and 1.880E+11 is absorbed (entot) 
                         through inelastic collisions (shsum =1.880E+11)
                                           + heating (elhsum =4.700E+05)
 This refers to an energy gain of   1.77 %


 The average E. loss per ion pair is :  18.63 eV (from qtoteV)
                                  or :  17.96 eV (from (entot))
                                  or :  17.63 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 : 1.7823E+11 [eV/cm2/s]
                                                             or : 2.8556E-01 [erg/cm2/s]
 That variable "errorgaupin" is:           78

 MAIN : Total energy deposition in [CO2] is 1.329E+11 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 1.273E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 8.225E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 1.736E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 4.757E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 2.245E+00 [eV.cm-2.s-1] ("shsum").
  1.01227194E+09           2          21
  1.07851456E+09           2          23

 Total Heating :  4.492E+05 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  2.8599463E-03
 entot depart   449185.94       449185.94    
 shsum :  9.01466829E+09  1.32867613E+11  1.32867162E+11  1.32867162E+11
 shsum :  9.12297472E+09  1.45600332E+11  1.27327212E+10  1.45599889E+11
 shsum :  9.17486490E+09  1.53825100E+11  8.22476902E+09  1.53824657E+11
 shsum :  9.56015821E+09  1.71181539E+11  1.73564334E+10  1.71181097E+11
 shsum :  9.56015821E+09  1.71181539E+11   47.565865      1.71181097E+11
 shsum :  9.56015821E+09  1.71181539E+11   2.2454653      1.71181097E+11
 fin  1.71181539E+11  9.56015821E+09   18.643175    
   17.905722    
   17.567812       18.643175    
 ezero   0.0000000    
  1.71181539E+11
   1.8125184    

Total energy input of :1.782E+11 eV.cm-2.s-1 (qtoteV)
             of which 1.028E+10 is reflected (qsump)
                  and 1.712E+11 is absorbed (entot) 
                         through inelastic collisions (shsum =1.712E+11)
                                           + heating (elhsum =4.492E+05)
 This refers to an energy gain of   1.81 %


 The average E. loss per ion pair is :  18.64 eV (from qtoteV)
                                  or :  17.91 eV (from (entot))
                                  or :  17.57 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 : 1.6042E+11 [eV/cm2/s]
                                                             or : 2.5702E-01 [erg/cm2/s]
 That variable "errorgaupin" is:           75

 MAIN : Total energy deposition in [CO2] is 1.177E+11 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 1.162E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 7.582E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 1.640E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 4.615E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 2.210E+00 [eV.cm-2.s-1] ("shsum").
  9.62571136E+08           2          21
  1.02424179E+09           2          23

 Total Heating :  4.244E+05 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  2.6444141E-03
 entot depart   424358.34       424358.34    
 shsum :  8.08169472E+09  1.17696291E+11  1.17695865E+11  1.17695865E+11
 shsum :  8.18183936E+09  1.29319313E+11  1.16230226E+10  1.29318887E+11
 shsum :  8.23046298E+09  1.36901083E+11  7.58176973E+09  1.36900657E+11
 shsum :  8.59763712E+09  1.53296306E+11  1.63952282E+10  1.53295880E+11
 shsum :  8.59763712E+09  1.53296306E+11   46.152088      1.53295880E+11
 shsum :  8.59763712E+09  1.53296306E+11   2.2095366      1.53295880E+11
 fin  1.53296306E+11  8.59763712E+09   18.658592    
   17.830051    
   17.483942       18.658592    
 ezero   0.0000000    
  1.53296306E+11
   1.8549525    

Total energy input of :1.604E+11 eV.cm-2.s-1 (qtoteV)
             of which 1.010E+10 is reflected (qsump)
                  and 1.533E+11 is absorbed (entot) 
                         through inelastic collisions (shsum =1.533E+11)
                                           + heating (elhsum =4.244E+05)
 This refers to an energy gain of   1.85 %


 The average E. loss per ion pair is :  18.66 eV (from qtoteV)
                                  or :  17.83 eV (from (entot))
                                  or :  17.48 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 : 1.4170E+11 [eV/cm2/s]
                                                             or : 2.2703E-01 [erg/cm2/s]
 That variable "errorgaupin" is:           93

 MAIN : Total energy deposition in [CO2] is 1.019E+11 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 1.044E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 6.880E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 1.531E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 4.447E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 2.165E+00 [eV.cm-2.s-1] ("shsum").
  9.04764928E+08           2          21
  9.61344384E+08           2          23

 Total Heating :  3.953E+05 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  2.4133739E-03
 entot depart   395301.00       395301.00    
 shsum :  7.10410906E+09  1.01897216E+11  1.01896823E+11  1.01896823E+11
 shsum :  7.19550413E+09  1.12334389E+11  1.04371712E+10  1.12333996E+11
 shsum :  7.24053606E+09  1.19213900E+11  6.87950643E+09  1.19213507E+11
 shsum :  7.58715494E+09  1.34526321E+11  1.53124229E+10  1.34525927E+11
 shsum :  7.58715494E+09  1.34526321E+11   44.465092      1.34525927E+11
 shsum :  7.58715494E+09  1.34526321E+11   2.1650777      1.34525927E+11
 fin  1.34526321E+11  7.58715494E+09   18.676310    
   17.730799    
   17.374924       18.676310    
 ezero   0.0000000    
  1.34526321E+11
   1.9054919    

Total energy input of :1.417E+11 eV.cm-2.s-1 (qtoteV)
             of which 9.874E+09 is reflected (qsump)
                  and 1.345E+11 is absorbed (entot) 
                         through inelastic collisions (shsum =1.345E+11)
                                           + heating (elhsum =3.953E+05)
 This refers to an energy gain of   1.91 %


 The average E. loss per ion pair is :  18.68 eV (from qtoteV)
                                  or :  17.73 eV (from (entot))
                                  or :  17.37 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 : 2.1726E+11 [eV/cm2/s]
                                                             or : 3.4810E-01 [erg/cm2/s]
 That variable "errorgaupin" is:           98

 MAIN : Total energy deposition in [CO2] is 1.665E+11 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 1.507E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 9.556E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 1.924E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 5.023E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 2.315E+00 [eV.cm-2.s-1] ("shsum").
  1.09274522E+09           2          21
  1.16564698E+09           2          23

 Total Heating :  4.962E+05 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  3.3122734E-03
 entot depart   496242.66       496242.66    
 shsum :  1.10672998E+10  1.66514033E+11  1.66513541E+11  1.66513541E+11
 shsum :  1.11927357E+10  1.81588804E+11  1.50747771E+10  1.81588312E+11
 shsum :  1.12513270E+10  1.91144395E+11  9.55559936E+09  1.91143903E+11
 shsum :  1.16718285E+10  2.10387304E+11  1.92429015E+10  2.10386813E+11
 shsum :  1.16718285E+10  2.10387304E+11   50.230652      2.10386813E+11
 shsum :  1.16718285E+10  2.10387304E+11   2.3151157      2.10386813E+11
 fin  2.10387304E+11  1.16718285E+10   18.614426    
   18.025223    
   17.706514       18.614426    
 ezero   0.0000000    
  2.10387304E+11
   1.7121561    

Total energy input of :2.173E+11 eV.cm-2.s-1 (qtoteV)
             of which 1.060E+10 is reflected (qsump)
                  and 2.104E+11 is absorbed (entot) 
                         through inelastic collisions (shsum =2.104E+11)
                                           + heating (elhsum =4.962E+05)
 This refers to an energy gain of   1.71 %


 The average E. loss per ion pair is :  18.61 eV (from qtoteV)
                                  or :  18.03 eV (from (entot))
                                  or :  17.71 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 : 1.9841E+11 [eV/cm2/s]
                                                             or : 3.1789E-01 [erg/cm2/s]
 That variable "errorgaupin" is:           89

 MAIN : Total energy deposition in [CO2] is 1.502E+11 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 1.395E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 8.921E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 1.836E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 4.906E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 2.287E+00 [eV.cm-2.s-1] ("shsum").
  1.05186797E+09           2          21
  1.12092557E+09           2          23

 Total Heating :  4.751E+05 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  3.0957842E-03
 entot depart   475120.44       475120.44    
 shsum :  1.00739297E+10  1.50191063E+11  1.50190588E+11  1.50190588E+11
 shsum :  1.01911675E+10  1.64142940E+11  1.39518740E+10  1.64142465E+11
 shsum :  1.02465690E+10  1.73063930E+11  8.92098150E+09  1.73063438E+11
 shsum :  1.06505820E+10  1.91421055E+11  1.83571313E+10  1.91420563E+11
 shsum :  1.06505820E+10  1.91421055E+11   49.062122      1.91420563E+11
 shsum :  1.06505820E+10  1.91421055E+11   2.2870054      1.91420563E+11
 fin  1.91421055E+11  1.06505820E+10   18.628603    
   17.972826    
   17.646866       18.628603    
 ezero   0.0000000    
  1.91421055E+11
   1.7497778    

Total energy input of :1.984E+11 eV.cm-2.s-1 (qtoteV)
             of which 1.046E+10 is reflected (qsump)
                  and 1.914E+11 is absorbed (entot) 
                         through inelastic collisions (shsum =1.914E+11)
                                           + heating (elhsum =4.751E+05)
 This refers to an energy gain of   1.75 %


 The average E. loss per ion pair is :  18.63 eV (from qtoteV)
                                  or :  17.97 eV (from (entot))
                                  or :  17.65 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 : 1.7827E+11 [eV/cm2/s]
                                                             or : 2.8563E-01 [erg/cm2/s]
 That variable "errorgaupin" is:          102

 MAIN : Total energy deposition in [CO2] is 1.329E+11 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 1.272E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 8.221E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 1.735E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 4.762E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 2.251E+00 [eV.cm-2.s-1] ("shsum").
  1.00199238E+09           2          21
  1.06642950E+09           2          23

 Total Heating :  4.496E+05 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  2.8580215E-03
 entot depart   449630.44       449630.44    
 shsum :  9.01616230E+09  1.32894974E+11  1.32894523E+11  1.32894523E+11
 shsum :  9.12439603E+09  1.45618502E+11  1.27235195E+10  1.45618043E+11
 shsum :  9.17626163E+09  1.53839157E+11  8.22066176E+09  1.53838698E+11
 shsum :  9.56134298E+09  1.71184914E+11  1.73457531E+10  1.71184456E+11
 shsum :  9.56134298E+09  1.71184914E+11   47.622406      1.71184456E+11
 shsum :  9.56134298E+09  1.71184914E+11   2.2510176      1.71184456E+11
 fin  1.71184914E+11  9.56134298E+09   18.644999    
   17.903856    
   17.569782       18.644999    
 ezero   0.0000000    
  1.71184914E+11
   1.7917689    

Total energy input of :1.783E+11 eV.cm-2.s-1 (qtoteV)
             of which 1.028E+10 is reflected (qsump)
                  and 1.712E+11 is absorbed (entot) 
                         through inelastic collisions (shsum =1.712E+11)
                                           + heating (elhsum =4.496E+05)
 This refers to an energy gain of   1.79 %


 The average E. loss per ion pair is :  18.64 eV (from qtoteV)
                                  or :  17.90 eV (from (entot))
                                  or :  17.57 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 : 1.5708E+11 [eV/cm2/s]
                                                             or : 2.5167E-01 [erg/cm2/s]
 That variable "errorgaupin" is:           72

 MAIN : Total energy deposition in [CO2] is 1.148E+11 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 1.141E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 7.455E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 1.620E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 4.589E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 2.206E+00 [eV.cm-2.s-1] ("shsum").
  9.43662656E+08           2          21
  1.00291571E+09           2          23

 Total Heating :  4.195E+05 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  2.6037109E-03
 entot depart   419465.88       419465.88    
 shsum :  7.90582682E+09  1.14842706E+11  1.14842288E+11  1.14842288E+11
 shsum :  8.00442982E+09  1.26254039E+11  1.14113341E+10  1.26253621E+11
 shsum :  8.05241037E+09  1.33708775E+11  7.45473997E+09  1.33708358E+11
 shsum :  8.41596518E+09  1.49911765E+11  1.62029906E+10  1.49911355E+11
 shsum :  8.41596518E+09  1.49911765E+11   45.889317      1.49911355E+11
 shsum :  8.41596518E+09  1.49911765E+11   2.2060397      1.49911355E+11
 fin  1.49911765E+11  8.41596518E+09   18.664150    
   17.812784    
   17.468721       18.664150    
 ezero   0.0000000    
  1.49911765E+11
   1.8434353    

Total energy input of :1.571E+11 eV.cm-2.s-1 (qtoteV)
             of which 1.006E+10 is reflected (qsump)
                  and 1.499E+11 is absorbed (entot) 
                         through inelastic collisions (shsum =1.499E+11)
                                           + heating (elhsum =4.195E+05)
 This refers to an energy gain of   1.84 %


 The average E. loss per ion pair is :  18.66 eV (from qtoteV)
                                  or :  17.81 eV (from (entot))
                                  or :  17.47 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 : 2.3816E+11 [eV/cm2/s]
                                                             or : 3.8158E-01 [erg/cm2/s]
 That variable "errorgaupin" is:           87

 MAIN : Total energy deposition in [CO2] is 1.847E+11 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 1.629E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 1.023E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 2.015E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 5.145E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 2.348E+00 [eV.cm-2.s-1] ("shsum").
  1.12438003E+09           2          21
  1.19947686E+09           2          23

 Total Heating :  5.178E+05 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  3.5462473E-03
 entot depart   517821.84       517821.84    
 shsum :  1.21700024E+10  1.84703992E+11  1.84703468E+11  1.84703468E+11
 shsum :  1.23042990E+10  2.00992358E+11  1.62883738E+10  2.00991834E+11
 shsum :  1.23662705E+10  2.11223036E+11  1.02306775E+10  2.11222512E+11
 shsum :  1.28035779E+10  2.31374340E+11  2.01513042E+10  2.31373816E+11
 shsum :  1.28035779E+10  2.31374340E+11   51.449924      2.31373816E+11
 shsum :  1.28035779E+10  2.31374340E+11   2.3477201      2.31373816E+11
 fin  2.31374340E+11  1.28035779E+10   18.601002    
   18.071070    
   17.762712       18.601002    
 ezero   0.0000000    
  2.31374340E+11
   1.6577423    

Total energy input of :2.382E+11 eV.cm-2.s-1 (qtoteV)
             of which 1.073E+10 is reflected (qsump)
                  and 2.314E+11 is absorbed (entot) 
                         through inelastic collisions (shsum =2.314E+11)
                                           + heating (elhsum =5.178E+05)
 This refers to an energy gain of   1.66 %


 The average E. loss per ion pair is :  18.60 eV (from qtoteV)
                                  or :  18.07 eV (from (entot))
                                  or :  17.76 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 : 2.1730E+11 [eV/cm2/s]
                                                             or : 3.4815E-01 [erg/cm2/s]
 That variable "errorgaupin" is:           90

 MAIN : Total energy deposition in [CO2] is 1.665E+11 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 1.507E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 9.551E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 1.923E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 5.028E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 2.320E+00 [eV.cm-2.s-1] ("shsum").
  1.08394048E+09           2          21
  1.15523994E+09           2          23

 Total Heating :  4.966E+05 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  3.3119950E-03
 entot depart   496615.72       496615.72    
 shsum :  1.10684959E+10  1.66526747E+11  1.66526255E+11  1.66526255E+11
 shsum :  1.11939215E+10  1.81598274E+11  1.50715208E+10  1.81597782E+11
 shsum :  1.12524892E+10  1.91149212E+11  9.55094323E+09  1.91148720E+11
 shsum :  1.16728115E+10  2.10383045E+11  1.92338330E+10  2.10382553E+11
 shsum :  1.16728115E+10  2.10383045E+11   50.280910      2.10382553E+11
 shsum :  1.16728115E+10  2.10383045E+11   2.3200164      2.10382553E+11
 fin  2.10383045E+11  1.16728115E+10   18.615728    
   18.023340    
   17.707859       18.615728    
 ezero   0.0000000    
  2.10383045E+11
   1.6946936    

Total energy input of :2.173E+11 eV.cm-2.s-1 (qtoteV)
             of which 1.060E+10 is reflected (qsump)
                  and 2.104E+11 is absorbed (entot) 
                         through inelastic collisions (shsum =2.104E+11)
                                           + heating (elhsum =4.966E+05)
 This refers to an energy gain of   1.69 %


 The average E. loss per ion pair is :  18.62 eV (from qtoteV)
                                  or :  18.02 eV (from (entot))
                                  or :  17.71 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 : 1.9500E+11 [eV/cm2/s]
                                                             or : 3.1243E-01 [erg/cm2/s]
 That variable "errorgaupin" is:           96

 MAIN : Total energy deposition in [CO2] is 1.473E+11 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 1.373E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 8.799E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 1.818E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 4.884E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 2.285E+00 [eV.cm-2.s-1] ("shsum").
  1.03424563E+09           2          21
  1.10090854E+09           2          23

 Total Heating :  4.708E+05 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  3.0533606E-03
 entot depart   470846.59       470846.59    
 shsum :  9.89446758E+09  1.47250495E+11  1.47250020E+11  1.47250020E+11
 shsum :  1.00100987E+10  1.60983712E+11  1.37332173E+10  1.60983237E+11
 shsum :  1.00648817E+10  1.69782739E+11  8.79902720E+09  1.69782264E+11
 shsum :  1.04655708E+10  1.87962229E+11  1.81794877E+10  1.87961754E+11
 shsum :  1.04655708E+10  1.87962229E+11   48.836430      1.87961754E+11
 shsum :  1.04655708E+10  1.87962229E+11   2.2845230      1.87961754E+11
 fin  1.87962229E+11  1.04655708E+10   18.632788    
   17.960054    
   17.636423       18.632788    
 ezero   0.0000000    
  1.87962229E+11
   1.7368978    

Total energy input of :1.950E+11 eV.cm-2.s-1 (qtoteV)
             of which 1.043E+10 is reflected (qsump)
                  and 1.880E+11 is absorbed (entot) 
                         through inelastic collisions (shsum =1.880E+11)
                                           + heating (elhsum =4.708E+05)
 This refers to an energy gain of   1.74 %


 The average E. loss per ion pair is :  18.63 eV (from qtoteV)
                                  or :  17.96 eV (from (entot))
                                  or :  17.64 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 : 1.7150E+11 [eV/cm2/s]
                                                             or : 2.7478E-01 [erg/cm2/s]
 That variable "errorgaupin" is:           92

 MAIN : Total energy deposition in [CO2] is 1.271E+11 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 1.231E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 7.977E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 1.699E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 4.708E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 2.240E+00 [eV.cm-2.s-1] ("shsum").
  9.76069312E+08           2          21
  1.03753203E+09           2          23

 Total Heating :  4.400E+05 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  2.7777115E-03
 entot depart   440048.72       440048.72    
 shsum :  8.66027110E+09  1.27091491E+11  1.27091048E+11  1.27091048E+11
 shsum :  8.76546355E+09  1.39397726E+11  1.23062415E+10  1.39397284E+11
 shsum :  8.81609933E+09  1.47374309E+11  7.97658880E+09  1.47373867E+11
 shsum :  9.19444787E+09  1.64360782E+11  1.69864663E+10  1.64360339E+11
 shsum :  9.19444787E+09  1.64360782E+11   47.083542      1.64360339E+11
 shsum :  9.19444787E+09  1.64360782E+11   2.2397046      1.64360339E+11
 fin  1.64360782E+11  9.19444787E+09   18.653038    
   17.876091    
   17.542200       18.653038    
 ezero   0.0000000    
  1.64360782E+11
   1.7900043    

Total energy input of :1.715E+11 eV.cm-2.s-1 (qtoteV)
             of which 1.021E+10 is reflected (qsump)
                  and 1.644E+11 is absorbed (entot) 
                         through inelastic collisions (shsum =1.644E+11)
                                           + heating (elhsum =4.400E+05)
 This refers to an energy gain of   1.79 %


 The average E. loss per ion pair is :  18.65 eV (from qtoteV)
                                  or :  17.88 eV (from (entot))
                                  or :  17.54 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 : 2.5741E+11 [eV/cm2/s]
                                                             or : 4.1242E-01 [erg/cm2/s]
 That variable "errorgaupin" is:           88

 MAIN : Total energy deposition in [CO2] is 2.015E+11 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 1.739E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 1.083E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 2.094E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 5.241E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 2.373E+00 [eV.cm-2.s-1] ("shsum").
  1.14907968E+09           2          21
  1.22580621E+09           2          23

 Total Heating :  5.352E+05 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  3.7581408E-03
 entot depart   535228.13       535228.13    
 shsum :  1.31880090E+10  2.01546416E+11  2.01545875E+11  2.01545875E+11
 shsum :  1.33303306E+10  2.18933674E+11  1.73872599E+10  2.18933133E+11
 shsum :  1.33953219E+10  2.29768380E+11  1.08347064E+10  2.29767840E+11
 shsum :  1.38471895E+10  2.50709492E+11  2.09411113E+10  2.50708951E+11
 shsum :  1.38471895E+10  2.50709492E+11   52.414185      2.50708951E+11
 shsum :  1.38471895E+10  2.50709492E+11   2.3727829      2.50708951E+11
 fin  2.50709492E+11  1.38471895E+10   18.589371    
   18.105442    
   17.806353       18.589371    
 ezero   0.0000000    
  2.50709492E+11
   1.6089270    

Total energy input of :2.574E+11 eV.cm-2.s-1 (qtoteV)
             of which 1.084E+10 is reflected (qsump)
                  and 2.507E+11 is absorbed (entot) 
                         through inelastic collisions (shsum =2.507E+11)
                                           + heating (elhsum =5.352E+05)
 This refers to an energy gain of   1.61 %


 The average E. loss per ion pair is :  18.59 eV (from qtoteV)
                                  or :  18.11 eV (from (entot))
                                  or :  17.81 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 : 2.3471E+11 [eV/cm2/s]
                                                             or : 3.7605E-01 [erg/cm2/s]
 That variable "errorgaupin" is:           93

 MAIN : Total energy deposition in [CO2] is 1.817E+11 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 1.609E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 1.011E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 2.000E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 5.125E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 2.346E+00 [eV.cm-2.s-1] ("shsum").
  1.10944794E+09           2          21
  1.18246861E+09           2          23

 Total Heating :  5.141E+05 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  3.5079941E-03
 entot depart   514059.91       514059.91    
 shsum :  1.19871140E+10  1.81663973E+11  1.81663465E+11  1.81663465E+11
 shsum :  1.21199626E+10  1.97751112E+11  1.60871301E+10  1.97750587E+11
 shsum :  1.21813586E+10  2.07866069E+11  1.01149645E+10  2.07865545E+11
 shsum :  1.26158326E+10  2.27863626E+11  1.99975629E+10  2.27863101E+11
 shsum :  1.26158326E+10  2.27863626E+11   51.250561      2.27863101E+11
 shsum :  1.26158326E+10  2.27863626E+11   2.3455114      2.27863101E+11
 fin  2.27863626E+11  1.26158326E+10   18.604527    
   18.061720    
   17.755470       18.604527    
 ezero   0.0000000    
  2.27863626E+11
   1.6460953    

Total energy input of :2.347E+11 eV.cm-2.s-1 (qtoteV)
             of which 1.071E+10 is reflected (qsump)
                  and 2.279E+11 is absorbed (entot) 
                         through inelastic collisions (shsum =2.279E+11)
                                           + heating (elhsum =5.141E+05)
 This refers to an energy gain of   1.65 %


 The average E. loss per ion pair is :  18.60 eV (from qtoteV)
                                  or :  18.06 eV (from (entot))
                                  or :  17.76 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 : 2.1043E+11 [eV/cm2/s]
                                                             or : 3.3716E-01 [erg/cm2/s]
 That variable "errorgaupin" is:           83

 MAIN : Total energy deposition in [CO2] is 1.606E+11 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 1.465E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 9.317E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 1.891E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 4.982E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 2.311E+00 [eV.cm-2.s-1] ("shsum").
  1.06027226E+09           2          21
  1.12867328E+09           2          23

 Total Heating :  4.883E+05 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  3.2309771E-03
 entot depart   488323.81       488323.81    
 shsum :  1.07061647E+10  1.60563724E+11  1.60563233E+11  1.60563233E+11
 shsum :  1.08285225E+10  1.75215919E+11  1.46521948E+10  1.75215428E+11
 shsum :  1.08859116E+10  1.84533156E+11  9.31723878E+09  1.84532664E+11
 shsum :  1.13001820E+10  2.03441308E+11  1.89081580E+10  2.03440816E+11
 shsum :  1.13001820E+10  2.03441308E+11   49.819061      2.03440816E+11
 shsum :  1.13001820E+10  2.03441308E+11   2.3109961      2.03440816E+11
 fin  2.03441308E+11  1.13001820E+10   18.622147    
   18.003366    
   17.688793       18.622147    
 ezero   0.0000000    
  2.03441308E+11
   1.6892364    

Total energy input of :2.104E+11 eV.cm-2.s-1 (qtoteV)
             of which 1.055E+10 is reflected (qsump)
                  and 2.034E+11 is absorbed (entot) 
                         through inelastic collisions (shsum =2.034E+11)
                                           + heating (elhsum =4.883E+05)
 This refers to an energy gain of   1.69 %


 The average E. loss per ion pair is :  18.62 eV (from qtoteV)
                                  or :  18.00 eV (from (entot))
                                  or :  17.69 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 : 1.8482E+11 [eV/cm2/s]
                                                             or : 2.9612E-01 [erg/cm2/s]
 That variable "errorgaupin" is:           72

 MAIN : Total energy deposition in [CO2] is 1.385E+11 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 1.312E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 8.444E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 1.767E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 4.807E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 2.267E+00 [eV.cm-2.s-1] ("shsum").
  1.00273549E+09           2          21
  1.06597446E+09           2          23

 Total Heating :  4.573E+05 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  2.9349630E-03
 entot depart   457319.91       457319.91    
 shsum :  9.35828890E+09  1.38473488E+11  1.38473030E+11  1.38473030E+11
 shsum :  9.46943693E+09  1.51591092E+11  1.31175967E+10  1.51590633E+11
 shsum :  9.52244019E+09  1.60035586E+11  8.44449126E+09  1.60035127E+11
 shsum :  9.91362970E+09  1.77705992E+11  1.76704041E+10  1.77705533E+11
 shsum :  9.91362970E+09  1.77705992E+11   48.071976      1.77705533E+11
 shsum :  9.91362970E+09  1.77705992E+11   2.2670500      1.77705533E+11
 fin  1.77705992E+11  9.91362970E+09   18.643177    
   17.925421    
   17.600288       18.643177    
 ezero   0.0000000    
  1.77705992E+11
   1.7439835    

Total energy input of :1.848E+11 eV.cm-2.s-1 (qtoteV)
             of which 1.034E+10 is reflected (qsump)
                  and 1.777E+11 is absorbed (entot) 
                         through inelastic collisions (shsum =1.777E+11)
                                           + heating (elhsum =4.573E+05)
 This refers to an energy gain of   1.74 %


 The average E. loss per ion pair is :  18.64 eV (from qtoteV)
                                  or :  17.93 eV (from (entot))
                                  or :  17.60 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 : 2.7483E+11 [eV/cm2/s]
                                                             or : 4.4033E-01 [erg/cm2/s]
 That variable "errorgaupin" is:           90

 MAIN : Total energy deposition in [CO2] is 2.168E+11 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 1.837E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 1.137E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 2.162E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 5.316E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 2.391E+00 [eV.cm-2.s-1] ("shsum").
  1.16767462E+09           2          21
  1.24552064E+09           2          23

 Total Heating :  5.489E+05 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  3.9470904E-03
 entot depart   548949.31       548949.31    
 shsum :  1.41105981E+10  2.16841028E+11  2.16840471E+11  2.16840471E+11
 shsum :  1.42600755E+10  2.35207721E+11  1.83666852E+10  2.35207164E+11
 shsum :  1.43277302E+10  2.46575612E+11  1.13678909E+10  2.46575055E+11
 shsum :  1.47921224E+10  2.68197675E+11  2.16220692E+10  2.68197118E+11
 shsum :  1.47921224E+10  2.68197675E+11   53.155132      2.68197118E+11
 shsum :  1.47921224E+10  2.68197675E+11   2.3913510      2.68197118E+11
 fin  2.68197675E+11  1.47921224E+10   18.579201    
   18.131115    
   17.840258       18.579201    
 ezero   0.0000000    
  2.68197675E+11
   1.5655028    

Total energy input of :2.748E+11 eV.cm-2.s-1 (qtoteV)
             of which 1.093E+10 is reflected (qsump)
                  and 2.682E+11 is absorbed (entot) 
                         through inelastic collisions (shsum =2.682E+11)
                                           + heating (elhsum =5.489E+05)
 This refers to an energy gain of   1.57 %


 The average E. loss per ion pair is :  18.58 eV (from qtoteV)
                                  or :  18.13 eV (from (entot))
                                  or :  17.84 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 : 2.5047E+11 [eV/cm2/s]
                                                             or : 4.0131E-01 [erg/cm2/s]
 That variable "errorgaupin" is:           96

 MAIN : Total energy deposition in [CO2] is 1.954E+11 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 1.699E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 1.061E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 2.065E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 5.200E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 2.365E+00 [eV.cm-2.s-1] ("shsum").
  1.12927488E+09           2          21
  1.20355661E+09           2          23

 Total Heating :  5.279E+05 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  3.6820581E-03
 entot depart   527881.38       527881.38    
 shsum :  1.28201667E+10  1.95429220E+11  1.95428696E+11  1.95428696E+11
 shsum :  1.29596068E+10  2.12418920E+11  1.69897021E+10  2.12418396E+11
 shsum :  1.30235003E+10  2.23032754E+11  1.06138327E+10  2.23032230E+11
 shsum :  1.34700954E+10  2.43686834E+11  2.06540800E+10  2.43686310E+11
 shsum :  1.34700954E+10  2.43686834E+11   52.001659      2.43686310E+11
 shsum :  1.34700954E+10  2.43686834E+11   2.3645039      2.43686310E+11
 fin  2.43686834E+11  1.34700954E+10   18.594833    
   18.090950    
   17.792776       18.594833    
 ezero   0.0000000    
  2.43686834E+11
   1.6035342    

Total energy input of :2.505E+11 eV.cm-2.s-1 (qtoteV)
             of which 1.080E+10 is reflected (qsump)
                  and 2.437E+11 is absorbed (entot) 
                         through inelastic collisions (shsum =2.437E+11)
                                           + heating (elhsum =5.279E+05)
 This refers to an energy gain of   1.60 %


 The average E. loss per ion pair is :  18.59 eV (from qtoteV)
                                  or :  18.09 eV (from (entot))
                                  or :  17.79 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 : 2.2441E+11 [eV/cm2/s]
                                                             or : 3.5955E-01 [erg/cm2/s]
 That variable "errorgaupin" is:          104

 MAIN : Total energy deposition in [CO2] is 1.727E+11 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 1.547E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 9.776E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 1.954E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 5.060E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 2.331E+00 [eV.cm-2.s-1] ("shsum").
  1.08097971E+09           2          21
  1.15070144E+09           2          23

 Total Heating :  5.024E+05 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  3.3897483E-03
 entot depart   502399.19       502399.19    
 shsum :  1.14424340E+10  1.72673778E+11  1.72673270E+11  1.72673270E+11
 shsum :  1.15708047E+10  1.88147761E+11  1.54739876E+10  1.88147253E+11
 shsum :  1.16304988E+10  1.97923832E+11  9.77606656E+09  1.97923324E+11
 shsum :  1.20564726E+10  2.17462014E+11  1.95381740E+10  2.17461490E+11
 shsum :  1.20564726E+10  2.17462014E+11   50.595009      2.17461490E+11
 shsum :  1.20564726E+10  2.17462014E+11   2.3312798      2.17461490E+11
 fin  2.17462014E+11  1.20564726E+10   18.612995    
   18.036951    
   17.730146       18.612995    
 ezero   0.0000000    
  2.17462014E+11
   1.6483433    

Total energy input of :2.244E+11 eV.cm-2.s-1 (qtoteV)
             of which 1.064E+10 is reflected (qsump)
                  and 2.175E+11 is absorbed (entot) 
                         through inelastic collisions (shsum =2.175E+11)
                                           + heating (elhsum =5.024E+05)
 This refers to an energy gain of   1.65 %


 The average E. loss per ion pair is :  18.61 eV (from qtoteV)
                                  or :  18.04 eV (from (entot))
                                  or :  17.73 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 : 1.9689E+11 [eV/cm2/s]
                                                             or : 3.1545E-01 [erg/cm2/s]
 That variable "errorgaupin" is:           87

 MAIN : Total energy deposition in [CO2] is 1.488E+11 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 1.384E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 8.858E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 1.826E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 4.888E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 2.289E+00 [eV.cm-2.s-1] ("shsum").
  1.02445517E+09           2          21
  1.08909363E+09           2          23

 Total Heating :  4.715E+05 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  3.0749878E-03
 entot depart   471539.44       471539.44    
 shsum :  9.99195443E+09  1.48842758E+11  1.48842283E+11  1.48842283E+11
 shsum :  1.01084047E+10  1.62684338E+11  1.38415852E+10  1.62683863E+11
 shsum :  1.01634929E+10  1.71542364E+11  8.85802803E+09  1.71541889E+11
 shsum :  1.05657211E+10  1.89803397E+11  1.82610330E+10  1.89802922E+11
 shsum :  1.05657211E+10  1.89803397E+11   48.875145      1.89802922E+11
 shsum :  1.05657211E+10  1.89803397E+11   2.2888134      1.89802922E+11
 fin  1.89803397E+11  1.05657211E+10   18.634581    
   17.964075    
   17.646357       18.634581    
 ezero   0.0000000    
  1.89803397E+11
   1.7049903    

Total energy input of :1.969E+11 eV.cm-2.s-1 (qtoteV)
             of which 1.044E+10 is reflected (qsump)
                  and 1.898E+11 is absorbed (entot) 
                         through inelastic collisions (shsum =1.898E+11)
                                           + heating (elhsum =4.715E+05)
 This refers to an energy gain of   1.70 %


 The average E. loss per ion pair is :  18.63 eV (from qtoteV)
                                  or :  17.96 eV (from (entot))
                                  or :  17.65 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 : 2.9020E+11 [eV/cm2/s]
                                                             or : 4.6496E-01 [erg/cm2/s]
 That variable "errorgaupin" is:           91

 MAIN : Total energy deposition in [CO2] is 2.304E+11 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 1.922E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 1.183E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 2.220E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 5.371E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 2.404E+00 [eV.cm-2.s-1] ("shsum").
  1.18122534E+09           2          21
  1.25978317E+09           2          23

 Total Heating :  5.595E+05 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  4.1116672E-03
 entot depart   559485.50       559485.50    
 shsum :  1.49273641E+10  2.30380552E+11  2.30379995E+11  2.30379995E+11
 shsum :  1.50830735E+10  2.49601294E+11  1.92207462E+10  2.49600737E+11
 shsum :  1.51530301E+10  2.61430788E+11  1.18294917E+10  2.61430231E+11
 shsum :  1.56280556E+10  2.83631944E+11  2.22011617E+10  2.83631387E+11
 shsum :  1.56280556E+10  2.83631944E+11   53.705734      2.83631387E+11
 shsum :  1.56280556E+10  2.83631944E+11   2.4044585      2.83631387E+11
 fin  2.83631944E+11  1.56280556E+10   18.569168    
   18.148895    
   17.865261       18.569168    
 ezero   0.0000000    
  2.83631944E+11
   1.5274495    

Total energy input of :2.902E+11 eV.cm-2.s-1 (qtoteV)
             of which 1.100E+10 is reflected (qsump)
                  and 2.836E+11 is absorbed (entot) 
                         through inelastic collisions (shsum =2.836E+11)
                                           + heating (elhsum =5.595E+05)
 This refers to an energy gain of   1.53 %


 The average E. loss per ion pair is :  18.57 eV (from qtoteV)
                                  or :  18.15 eV (from (entot))
                                  or :  17.87 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 : 2.6444E+11 [eV/cm2/s]
                                                             or : 4.2368E-01 [erg/cm2/s]
 That variable "errorgaupin" is:          108

 MAIN : Total energy deposition in [CO2] is 2.077E+11 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 1.778E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 1.105E+10 [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 5.257E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 2.378E+00 [eV.cm-2.s-1] ("shsum").
  1.14426778E+09           2          21
  1.21942400E+09           2          23

 Total Heating :  5.386E+05 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  3.8341638E-03
 entot depart   538557.63       538557.63    
 shsum :  1.35590502E+10  2.07664071E+11  2.07663530E+11  2.07663530E+11
 shsum :  1.37042504E+10  2.25442513E+11  1.77784361E+10  2.25441972E+11
 shsum :  1.37703066E+10  2.36488950E+11  1.10464389E+10  2.36488409E+11
 shsum :  1.42271795E+10  2.57700954E+11  2.12120084E+10  2.57700413E+11
 shsum :  1.42271795E+10  2.57700954E+11   52.565365      2.57700413E+11
 shsum :  1.42271795E+10  2.57700954E+11   2.3780622      2.57700413E+11
 fin  2.57700954E+11  1.42271795E+10   18.586613    
   18.113285    
   17.822031       18.586613    
 ezero   0.0000000    
  2.57700954E+11
   1.5670110    

Total energy input of :2.644E+11 eV.cm-2.s-1 (qtoteV)
             of which 1.088E+10 is reflected (qsump)
                  and 2.577E+11 is absorbed (entot) 
                         through inelastic collisions (shsum =2.577E+11)
                                           + heating (elhsum =5.386E+05)
 This refers to an energy gain of   1.57 %


 The average E. loss per ion pair is :  18.59 eV (from qtoteV)
                                  or :  18.11 eV (from (entot))
                                  or :  17.82 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 : 2.3679E+11 [eV/cm2/s]
                                                             or : 3.7938E-01 [erg/cm2/s]
 That variable "errorgaupin" is:           96

 MAIN : Total energy deposition in [CO2] is 1.834E+11 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 1.619E+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 2.008E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 5.119E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 2.346E+00 [eV.cm-2.s-1] ("shsum").
  1.09726118E+09           2          21
  1.16796941E+09           2          23

 Total Heating :  5.134E+05 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  3.5290360E-03
 entot depart   513444.41       513444.41    
 shsum :  1.20955873E+10  1.83440589E+11  1.83440081E+11  1.83440081E+11
 shsum :  1.22292326E+10  1.99635436E+11  1.61948426E+10  1.99634928E+11
 shsum :  1.22909286E+10  2.09810227E+11  1.01747876E+10  2.09809719E+11
 shsum :  1.27268495E+10  2.29885264E+11  2.00750326E+10  2.29884756E+11
 shsum :  1.27268495E+10  2.29885264E+11   51.190437      2.29884756E+11
 shsum :  1.27268495E+10  2.29885264E+11   2.3462348      2.29884756E+11
 fin  2.29885264E+11  1.27268495E+10   18.605276    
   18.063015    
   17.762774       18.605276    
 ezero   0.0000000    
  2.29885264E+11
   1.6137358    

Total energy input of :2.368E+11 eV.cm-2.s-1 (qtoteV)
             of which 1.072E+10 is reflected (qsump)
                  and 2.299E+11 is absorbed (entot) 
                         through inelastic collisions (shsum =2.299E+11)
                                           + heating (elhsum =5.134E+05)
 This refers to an energy gain of   1.61 %


 The average E. loss per ion pair is :  18.61 eV (from qtoteV)
                                  or :  18.06 eV (from (entot))
                                  or :  17.76 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 : 2.0758E+11 [eV/cm2/s]
                                                             or : 3.3259E-01 [erg/cm2/s]
 That variable "errorgaupin" is:          107

 MAIN : Total energy deposition in [CO2] is 1.581E+11 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 1.447E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 9.217E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 1.876E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 4.951E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 2.306E+00 [eV.cm-2.s-1] ("shsum").
  1.04203674E+09           2          21
  1.10777318E+09           2          23

 Total Heating :  4.830E+05 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  3.1973086E-03
 entot depart   482987.69       482987.69    
 shsum :  1.05544294E+10  1.58073700E+11  1.58073225E+11  1.58073225E+11
 shsum :  1.06755123E+10  1.72548588E+11  1.44748892E+10  1.72548112E+11
 shsum :  1.07324047E+10  1.81765603E+11  9.21701376E+09  1.81765128E+11
 shsum :  1.11439933E+10  2.00529297E+11  1.87636920E+10  2.00528822E+11
 shsum :  1.11439933E+10  2.00529297E+11   49.513012      2.00528822E+11
 shsum :  1.11439933E+10  2.00529297E+11   2.3056679      2.00528822E+11
 fin  2.00529297E+11  1.11439933E+10   18.627285    
   17.994385    
   17.682873       18.627285    
 ezero   0.0000000    
  2.00529297E+11
   1.6723361    

Total energy input of :2.076E+11 eV.cm-2.s-1 (qtoteV)
             of which 1.052E+10 is reflected (qsump)
                  and 2.005E+11 is absorbed (entot) 
                         through inelastic collisions (shsum =2.005E+11)
                                           + heating (elhsum =4.830E+05)
 This refers to an energy gain of   1.67 %


 The average E. loss per ion pair is :  18.63 eV (from qtoteV)
                                  or :  17.99 eV (from (entot))
                                  or :  17.68 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 : 3.0344E+11 [eV/cm2/s]
                                                             or : 4.8617E-01 [erg/cm2/s]
 That variable "errorgaupin" is:          105

 MAIN : Total energy deposition in [CO2] is 2.421E+11 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 1.996E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 1.222E+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 5.410E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 2.413E+00 [eV.cm-2.s-1] ("shsum").
  1.19082944E+09           2          21
  1.26980339E+09           2          23

 Total Heating :  5.673E+05 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  4.2539639E-03
 entot depart   567347.81       567347.81    
 shsum :  1.56312474E+10  2.42052284E+11  2.42051711E+11  2.42051711E+11
 shsum :  1.57923461E+10  2.62009389E+11  1.99571108E+10  2.62008816E+11
 shsum :  1.58642831E+10  2.74234032E+11  1.22246441E+10  2.74233459E+11
 shsum :  1.63482583E+10  2.96922317E+11  2.26882847E+10  2.96921727E+11
 shsum :  1.63482583E+10  2.96922317E+11   54.099739      2.96921727E+11
 shsum :  1.63482583E+10  2.96922317E+11   2.4132135      2.96921727E+11
 fin  2.96922317E+11  1.63482583E+10   18.561068    
   18.162321    
   17.884792       18.561068    
 ezero   0.0000000    
  2.96922317E+11
   1.4952235    

Total energy input of :3.034E+11 eV.cm-2.s-1 (qtoteV)
             of which 1.106E+10 is reflected (qsump)
                  and 2.969E+11 is absorbed (entot) 
                         through inelastic collisions (shsum =2.969E+11)
                                           + heating (elhsum =5.673E+05)
 This refers to an energy gain of   1.50 %


 The average E. loss per ion pair is :  18.56 eV (from qtoteV)
                                  or :  18.16 eV (from (entot))
                                  or :  17.88 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 : 2.7646E+11 [eV/cm2/s]
                                                             or : 4.4294E-01 [erg/cm2/s]
 That variable "errorgaupin" is:          107

 MAIN : Total energy deposition in [CO2] is 2.182E+11 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 1.845E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 1.141E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 2.168E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 5.298E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 2.387E+00 [eV.cm-2.s-1] ("shsum").
  1.15546330E+09           2          21
  1.23121370E+09           2          23

 Total Heating :  5.466E+05 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  3.9635664E-03
 entot depart   546596.88       546596.88    
 shsum :  1.41962199E+10  2.18228212E+11  2.18227671E+11  2.18227671E+11
 shsum :  1.43463209E+10  2.36677857E+11  1.84496497E+10  2.36677317E+11
 shsum :  1.44142070E+10  2.48090477E+11  1.14126213E+10  2.48089936E+11
 shsum :  1.48796303E+10  2.69767393E+11  2.16769229E+10  2.69766853E+11
 shsum :  1.48796303E+10  2.69767393E+11   52.976067      2.69766853E+11
 shsum :  1.48796303E+10  2.69767393E+11   2.3873174      2.69766853E+11
 fin  2.69767393E+11  1.48796303E+10   18.579554    
   18.129980    
   17.844557       18.579554    
 ezero   0.0000000    
  2.69767393E+11
   1.5362172    

Total energy input of :2.765E+11 eV.cm-2.s-1 (qtoteV)
             of which 1.094E+10 is reflected (qsump)
                  and 2.698E+11 is absorbed (entot) 
                         through inelastic collisions (shsum =2.698E+11)
                                           + heating (elhsum =5.466E+05)
 This refers to an energy gain of   1.54 %


 The average E. loss per ion pair is :  18.58 eV (from qtoteV)
                                  or :  18.13 eV (from (entot))
                                  or :  17.84 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 : 2.4745E+11 [eV/cm2/s]
                                                             or : 3.9647E-01 [erg/cm2/s]
 That variable "errorgaupin" is:           91

 MAIN : Total energy deposition in [CO2] is 1.927E+11 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 1.681E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 1.051E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 2.052E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 5.163E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 2.357E+00 [eV.cm-2.s-1] ("shsum").
  1.11004710E+09           2          21
  1.18150694E+09           2          23

 Total Heating :  5.219E+05 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  3.6480357E-03
 entot depart   521872.47       521872.47    
 shsum :  1.26590689E+10  1.92746570E+11  1.92746045E+11  1.92746045E+11
 shsum :  1.27972209E+10  2.09557127E+11  1.68105513E+10  2.09556603E+11
 shsum :  1.28606126E+10  2.20069675E+11  1.05125489E+10  2.20069151E+11
 shsum :  1.33048146E+10  2.40592486E+11  2.05228155E+10  2.40591962E+11
 shsum :  1.33048146E+10  2.40592486E+11   51.633690      2.40591962E+11
 shsum :  1.33048146E+10  2.40592486E+11   2.3567872      2.40591962E+11
 fin  2.40592486E+11  1.33048146E+10   18.598898    
   18.083115    
   17.788305       18.598898    
 ezero   0.0000000    
  2.40592486E+11
   1.5850950    

Total energy input of :2.475E+11 eV.cm-2.s-1 (qtoteV)
             of which 1.078E+10 is reflected (qsump)
                  and 2.406E+11 is absorbed (entot) 
                         through inelastic collisions (shsum =2.406E+11)
                                           + heating (elhsum =5.219E+05)
 This refers to an energy gain of   1.59 %


 The average E. loss per ion pair is :  18.60 eV (from qtoteV)
                                  or :  18.08 eV (from (entot))
                                  or :  17.79 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 : 2.1680E+11 [eV/cm2/s]
                                                             or : 3.4736E-01 [erg/cm2/s]
 That variable "errorgaupin" is:           82

 MAIN : Total energy deposition in [CO2] is 1.661E+11 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 1.502E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 9.521E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 1.918E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 5.000E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 2.318E+00 [eV.cm-2.s-1] ("shsum").
  1.05628672E+09           2          21
  1.12290739E+09           2          23

 Total Heating :  4.919E+05 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  3.3019260E-03
 entot depart   491945.28       491945.28    
 shsum :  1.10397932E+10  1.66056329E+11  1.66055838E+11  1.66055838E+11
 shsum :  1.11648379E+10  1.81073052E+11  1.50167235E+10  1.81072560E+11
 shsum :  1.12232581E+10  1.90594351E+11  9.52129331E+09  1.90593860E+11
 shsum :  1.16426445E+10  2.09777852E+11  1.91835013E+10  2.09777361E+11
 shsum :  1.16426445E+10  2.09777852E+11   50.004848      2.09777361E+11
 shsum :  1.16426445E+10  2.09777852E+11   2.3182216      2.09777361E+11
 fin  2.09777852E+11  1.16426445E+10   18.621279    
   18.018059    
   17.711588       18.621279    
 ezero   0.0000000    
  2.09777852E+11
   1.6458143    

Total energy input of :2.168E+11 eV.cm-2.s-1 (qtoteV)
             of which 1.059E+10 is reflected (qsump)
                  and 2.098E+11 is absorbed (entot) 
                         through inelastic collisions (shsum =2.098E+11)
                                           + heating (elhsum =4.919E+05)
 This refers to an energy gain of   1.65 %


 The average E. loss per ion pair is :  18.62 eV (from qtoteV)
                                  or :  18.02 eV (from (entot))
                                  or :  17.71 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 : 3.1442E+11 [eV/cm2/s]
                                                             or : 5.0376E-01 [erg/cm2/s]
 That variable "errorgaupin" is:           96

 MAIN : Total energy deposition in [CO2] is 2.517E+11 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 2.057E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 1.255E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 2.308E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 5.437E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 2.419E+00 [eV.cm-2.s-1] ("shsum").
  1.19758170E+09           2          21
  1.27679680E+09           2          23

 Total Heating :  5.730E+05 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  4.3719998E-03
 entot depart   573013.56       573013.56    
 shsum :  1.62152305E+10  2.51737227E+11  2.51736654E+11  2.51736654E+11
 shsum :  1.63807990E+10  2.72304259E+11  2.05670339E+10  2.72303686E+11
 shsum :  1.64543631E+10  2.84853142E+11  1.25488691E+10  2.84852552E+11
 shsum :  1.69456220E+10  3.07937739E+11  2.30846013E+10  3.07937149E+11
 shsum :  1.69456220E+10  3.07937739E+11   54.370396      3.07937149E+11
 shsum :  1.69456220E+10  3.07937739E+11   2.4186471      3.07937149E+11
 fin  3.07937739E+11  1.69456220E+10   18.554518    
   18.172112    
   17.899570       18.554518    
 ezero   0.0000000    
  3.07937739E+11
   1.4688694    

Total energy input of :3.144E+11 eV.cm-2.s-1 (qtoteV)
             of which 1.110E+10 is reflected (qsump)
                  and 3.079E+11 is absorbed (entot) 
                         through inelastic collisions (shsum =3.079E+11)
                                           + heating (elhsum =5.730E+05)
 This refers to an energy gain of   1.47 %


 The average E. loss per ion pair is :  18.55 eV (from qtoteV)
                                  or :  18.17 eV (from (entot))
                                  or :  17.90 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 : 2.8642E+11 [eV/cm2/s]
                                                             or : 4.5891E-01 [erg/cm2/s]
 That variable "errorgaupin" is:           78

 MAIN : Total energy deposition in [CO2] is 2.270E+11 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 1.900E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 1.171E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 2.205E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 5.327E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 2.393E+00 [eV.cm-2.s-1] ("shsum").
  1.16380518E+09           2          21
  1.23997158E+09           2          23

 Total Heating :  5.525E+05 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  4.0695895E-03
 entot depart   552469.69       552469.69    
 shsum :  1.47253207E+10  2.27005055E+11  2.27004498E+11  2.27004498E+11
 shsum :  1.48794368E+10  2.46005252E+11  1.90002012E+10  2.46004695E+11
 shsum :  1.49488159E+10  2.57717158E+11  1.17119089E+10  2.57716601E+11
 shsum :  1.54211379E+10  2.79769645E+11  2.20524892E+10  2.79769088E+11
 shsum :  1.54211379E+10  2.79769645E+11   53.265877      2.79769088E+11
 shsum :  1.54211379E+10  2.79769645E+11   2.3933146      2.79769088E+11
 fin  2.79769645E+11  1.54211379E+10   18.573425    
   18.141958    
   17.861290       18.573425    
 ezero   0.0000000    
  2.79769645E+11
   1.5111291    

Total energy input of :2.864E+11 eV.cm-2.s-1 (qtoteV)
             of which 1.098E+10 is reflected (qsump)
                  and 2.798E+11 is absorbed (entot) 
                         through inelastic collisions (shsum =2.798E+11)
                                           + heating (elhsum =5.525E+05)
 This refers to an energy gain of   1.51 %


 The average E. loss per ion pair is :  18.57 eV (from qtoteV)
                                  or :  18.14 eV (from (entot))
                                  or :  17.86 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 : 2.5631E+11 [eV/cm2/s]
                                                             or : 4.1067E-01 [erg/cm2/s]
 That variable "errorgaupin" is:           93

 MAIN : Total energy deposition in [CO2] is 2.005E+11 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 1.731E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 1.079E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 2.088E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 5.195E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 2.364E+00 [eV.cm-2.s-1] ("shsum").
  1.12014605E+09           2          21
  1.19220838E+09           2          23

 Total Heating :  5.281E+05 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  3.7452402E-03
 entot depart   528090.00       528090.00    
 shsum :  1.31274885E+10  2.00498102E+11  2.00497578E+11  2.00497578E+11
 shsum :  1.32693217E+10  2.17812025E+11  1.73139231E+10  2.17811501E+11
 shsum :  1.33341010E+10  2.28601627E+11  1.07895972E+10  2.28601102E+11
 shsum :  1.37849283E+10  2.49483788E+11  2.08821699E+10  2.49483264E+11
 shsum :  1.37849283E+10  2.49483788E+11   51.953629      2.49483264E+11
 shsum :  1.37849283E+10  2.49483788E+11   2.3638492      2.49483264E+11
 fin  2.49483788E+11  1.37849283E+10   18.593754    
   18.098301    
   17.807856       18.593754    
 ezero   0.0000000    
  2.49483788E+11
   1.5620611    

Total energy input of :2.563E+11 eV.cm-2.s-1 (qtoteV)
             of which 1.083E+10 is reflected (qsump)
                  and 2.495E+11 is absorbed (entot) 
                         through inelastic collisions (shsum =2.495E+11)
                                           + heating (elhsum =5.281E+05)
 This refers to an energy gain of   1.56 %


 The average E. loss per ion pair is :  18.59 eV (from qtoteV)
                                  or :  18.10 eV (from (entot))
                                  or :  17.81 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 : 2.2446E+11 [eV/cm2/s]
                                                             or : 3.5962E-01 [erg/cm2/s]
 That variable "errorgaupin" is:           81

 MAIN : Total energy deposition in [CO2] is 1.727E+11 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 1.547E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 9.771E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 1.952E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 5.037E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 2.327E+00 [eV.cm-2.s-1] ("shsum").
  1.06782637E+09           2          21
  1.13518400E+09           2          23

 Total Heating :  4.987E+05 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  3.3888901E-03
 entot depart   498706.38       498706.38    
 shsum :  1.14431119E+10  1.72698698E+11  1.72698206E+11  1.72698206E+11
 shsum :  1.15714499E+10  1.88165554E+11  1.54668626E+10  1.88165063E+11
 shsum :  1.16311214E+10  1.97936202E+11  9.77064346E+09  1.97935710E+11
 shsum :  1.20568300E+10  2.17460638E+11  1.95244401E+10  2.17460146E+11
 shsum :  1.20568300E+10  2.17460638E+11   50.370686      2.17460146E+11
 shsum :  1.20568300E+10  2.17460638E+11   2.3271320      2.17460146E+11
 fin  2.17460638E+11  1.20568300E+10   18.616554    
   18.036303    
   17.733778       18.616554    
 ezero   0.0000000    
  2.17460638E+11
   1.6250303    

Total energy input of :2.245E+11 eV.cm-2.s-1 (qtoteV)
             of which 1.064E+10 is reflected (qsump)
                  and 2.175E+11 is absorbed (entot) 
                         through inelastic collisions (shsum =2.175E+11)
                                           + heating (elhsum =4.987E+05)
 This refers to an energy gain of   1.63 %


 The average E. loss per ion pair is :  18.62 eV (from qtoteV)
                                  or :  18.04 eV (from (entot))
                                  or :  17.73 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 : 3.2306E+11 [eV/cm2/s]
                                                             or : 5.1761E-01 [erg/cm2/s]
 That variable "errorgaupin" is:           87

 MAIN : Total energy deposition in [CO2] is 2.594E+11 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 2.104E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 1.280E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 2.339E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 5.454E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 2.422E+00 [eV.cm-2.s-1] ("shsum").
  1.20250560E+09           2          21
  1.28190310E+09           2          23

 Total Heating :  5.769E+05 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  4.4646193E-03
 entot depart   576862.94       576862.94    
 shsum :  1.66749512E+10  2.59372728E+11  2.59372155E+11  2.59372155E+11
 shsum :  1.68440269E+10  2.80417534E+11  2.10448097E+10  2.80416977E+11
 shsum :  1.69188608E+10  2.93219140E+11  1.28015892E+10  2.93218550E+11
 shsum :  1.74157496E+10  3.16610118E+11  2.33909883E+10  3.16609528E+11
 shsum :  1.74157496E+10  3.16610118E+11   54.544594      3.16609528E+11
 shsum :  1.74157496E+10  3.16610118E+11   2.4215853      3.16609528E+11
 fin  3.16610118E+11  1.74157496E+10   18.549929    
   18.179529    
   17.910849       18.549929    
 ezero   0.0000000    
  3.16610118E+11
   1.4484173    

Total energy input of :3.231E+11 eV.cm-2.s-1 (qtoteV)
             of which 1.113E+10 is reflected (qsump)
                  and 3.166E+11 is absorbed (entot) 
                         through inelastic collisions (shsum =3.166E+11)
                                           + heating (elhsum =5.769E+05)
 This refers to an energy gain of   1.45 %


 The average E. loss per ion pair is :  18.55 eV (from qtoteV)
                                  or :  18.18 eV (from (entot))
                                  or :  17.91 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 : 2.9426E+11 [eV/cm2/s]
                                                             or : 4.7147E-01 [erg/cm2/s]
 That variable "errorgaupin" is:           85

 MAIN : Total energy deposition in [CO2] is 2.339E+11 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 1.944E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 1.195E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 2.235E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 5.346E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 2.397E+00 [eV.cm-2.s-1] ("shsum").
  1.17009114E+09           2          21
  1.24658266E+09           2          23

 Total Heating :  5.565E+05 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  4.1549639E-03
 entot depart   556531.25       556531.25    
 shsum :  1.51413514E+10  2.33901195E+11  2.33900638E+11  2.33900638E+11
 shsum :  1.52987003E+10  2.53342384E+11  1.94411950E+10  2.53341827E+11
 shsum :  1.53692549E+10  2.65288843E+11  1.19464653E+10  2.65288286E+11
 shsum :  1.58469898E+10  2.87635472E+11  2.23466250E+10  2.87634915E+11
 shsum :  1.58469898E+10  2.87635472E+11   53.458458      2.87634915E+11
 shsum :  1.58469898E+10  2.87635472E+11   2.3968337      2.87634915E+11
 fin  2.87635472E+11  1.58469898E+10   18.568928    
   18.150795    
   17.873793       18.568928    
 ezero   0.0000000    
  2.87635472E+11
   1.4917564    

Total energy input of :2.943E+11 eV.cm-2.s-1 (qtoteV)
             of which 1.102E+10 is reflected (qsump)
                  and 2.876E+11 is absorbed (entot) 
                         through inelastic collisions (shsum =2.876E+11)
                                           + heating (elhsum =5.565E+05)
 This refers to an energy gain of   1.49 %


 The average E. loss per ion pair is :  18.57 eV (from qtoteV)
                                  or :  18.15 eV (from (entot))
                                  or :  17.87 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 : 2.6328E+11 [eV/cm2/s]
                                                             or : 4.2183E-01 [erg/cm2/s]
 That variable "errorgaupin" is:           77

 MAIN : Total energy deposition in [CO2] is 2.066E+11 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 1.771E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 1.100E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 2.116E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 5.217E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 2.368E+00 [eV.cm-2.s-1] ("shsum").
  1.12808013E+09           2          21
  1.20064819E+09           2          23

 Total Heating :  5.325E+05 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  3.8207173E-03
 entot depart   532461.50       532461.50    
 shsum :  1.34962401E+10  2.06610891E+11  2.06610366E+11  2.06610366E+11
 shsum :  1.36409313E+10  2.24315998E+11  1.77051075E+10  2.24315474E+11
 shsum :  1.37067858E+10  2.35320771E+11  1.10047652E+10  2.35320246E+11
 shsum :  1.41626634E+10  2.56477594E+11  2.11568189E+10  2.56477069E+11
 shsum :  1.41626634E+10  2.56477594E+11   52.174435      2.56477069E+11
 shsum :  1.41626634E+10  2.56477594E+11   2.3682642      2.56477069E+11
 fin  2.56477594E+11  1.41626634E+10   18.589808    
   18.109419    
   17.822281       18.589808    
 ezero   0.0000000    
  2.56477594E+11
   1.5445995    

Total energy input of :2.633E+11 eV.cm-2.s-1 (qtoteV)
             of which 1.087E+10 is reflected (qsump)
                  and 2.565E+11 is absorbed (entot) 
                         through inelastic collisions (shsum =2.565E+11)
                                           + heating (elhsum =5.325E+05)
 This refers to an energy gain of   1.54 %


 The average E. loss per ion pair is :  18.59 eV (from qtoteV)
                                  or :  18.11 eV (from (entot))
                                  or :  17.82 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 : 2.3048E+11 [eV/cm2/s]
                                                             or : 3.6927E-01 [erg/cm2/s]
 That variable "errorgaupin" is:           86

 MAIN : Total energy deposition in [CO2] is 1.779E+11 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 1.582E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 9.965E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 1.979E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 5.063E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 2.333E+00 [eV.cm-2.s-1] ("shsum").
  1.07710963E+09           2          21
  1.14510438E+09           2          23

 Total Heating :  5.036E+05 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  3.4569795E-03
 entot depart   503563.91       503563.91    
 shsum :  1.17605427E+10  1.77934287E+11  1.77933779E+11  1.77933779E+11
 shsum :  1.18914591E+10  1.93753661E+11  1.58193787E+10  1.93753154E+11
 shsum :  1.19521065E+10  2.03718771E+11  9.96511334E+09  2.03718263E+11
 shsum :  1.23826719E+10  2.23505646E+11  1.97868831E+10  2.23505154E+11
 shsum :  1.23826719E+10  2.23505646E+11   50.630840      2.23505154E+11
 shsum :  1.23826719E+10  2.23505646E+11   2.3330829      2.23505154E+11
 fin  2.23505646E+11  1.23826719E+10   18.613007    
   18.049871    
   17.750278       18.613007    
 ezero   0.0000000    
  2.23505646E+11
   1.6095903    

Total energy input of :2.305E+11 eV.cm-2.s-1 (qtoteV)
             of which 1.068E+10 is reflected (qsump)
                  and 2.235E+11 is absorbed (entot) 
                         through inelastic collisions (shsum =2.235E+11)
                                           + heating (elhsum =5.036E+05)
 This refers to an energy gain of   1.61 %


 The average E. loss per ion pair is :  18.61 eV (from qtoteV)
                                  or :  18.05 eV (from (entot))
                                  or :  17.75 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 : 3.2927E+11 [eV/cm2/s]
                                                             or : 5.2756E-01 [erg/cm2/s]
 That variable "errorgaupin" is:          101

 MAIN : Total energy deposition in [CO2] is 2.649E+11 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 2.139E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 1.298E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 2.361E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 5.464E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 2.423E+00 [eV.cm-2.s-1] ("shsum").
  1.20625766E+09           2          21
  1.28584102E+09           2          23

 Total Heating :  5.792E+05 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  4.5308070E-03
 entot depart   579180.38       579180.38    
 shsum :  1.70054533E+10  2.64865776E+11  2.64865202E+11  2.64865202E+11
 shsum :  1.71770358E+10  2.86251811E+11  2.13860393E+10  2.86251254E+11
 shsum :  1.72527739E+10  2.99233149E+11  1.29813279E+10  2.99232592E+11
 shsum :  1.77536307E+10  3.22840166E+11  2.36070339E+10  3.22839642E+11
 shsum :  1.77536307E+10  3.22840166E+11   54.642746      3.22839642E+11
 shsum :  1.77536307E+10  3.22840166E+11   2.4226906      3.22839642E+11
 fin  3.22840166E+11  1.77536307E+10   18.546709    
   18.184460    
   17.918558       18.546709    
 ezero   0.0000000    
  3.22840166E+11
   1.4336772    

Total energy input of :3.293E+11 eV.cm-2.s-1 (qtoteV)
             of which 1.115E+10 is reflected (qsump)
                  and 3.228E+11 is absorbed (entot) 
                         through inelastic collisions (shsum =3.228E+11)
                                           + heating (elhsum =5.792E+05)
 This refers to an energy gain of   1.43 %


 The average E. loss per ion pair is :  18.55 eV (from qtoteV)
                                  or :  18.18 eV (from (entot))
                                  or :  17.92 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 : 2.9990E+11 [eV/cm2/s]
                                                             or : 4.8049E-01 [erg/cm2/s]
 That variable "errorgaupin" is:           78

 MAIN : Total energy deposition in [CO2] is 2.389E+11 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 1.976E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 1.212E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 2.256E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 5.358E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 2.399E+00 [eV.cm-2.s-1] ("shsum").
  1.17490714E+09           2          21
  1.25169114E+09           2          23

 Total Heating :  5.591E+05 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  4.2163711E-03
 entot depart   559085.94       559085.94    
 shsum :  1.54406318E+10  2.38860599E+11  2.38860042E+11  2.38860042E+11
 shsum :  1.56003062E+10  2.58618606E+11  1.97580042E+10  2.58618049E+11
 shsum :  1.56717117E+10  2.70734213E+11  1.21156014E+10  2.70733656E+11
 shsum :  1.61532846E+10  2.93289525E+11  2.25553121E+10  2.93288968E+11
 shsum :  1.61532846E+10  2.93289525E+11   53.575886      2.93288968E+11
 shsum :  1.61532846E+10  2.93289525E+11   2.3985786      2.93288968E+11
 fin  2.93289525E+11  1.61532846E+10   18.565660    
   18.156649    
   17.882244       18.565660    
 ezero   0.0000000    
  2.93289525E+11
   1.4780304    

Total energy input of :2.999E+11 eV.cm-2.s-1 (qtoteV)
             of which 1.104E+10 is reflected (qsump)
                  and 2.933E+11 is absorbed (entot) 
                         through inelastic collisions (shsum =2.933E+11)
                                           + heating (elhsum =5.591E+05)
 This refers to an energy gain of   1.48 %


 The average E. loss per ion pair is :  18.57 eV (from qtoteV)
                                  or :  18.16 eV (from (entot))
                                  or :  17.88 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 : 2.6830E+11 [eV/cm2/s]
                                                             or : 4.2986E-01 [erg/cm2/s]
 That variable "errorgaupin" is:          104

 MAIN : Total energy deposition in [CO2] is 2.110E+11 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 1.798E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 1.116E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 2.135E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 5.232E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 2.371E+00 [eV.cm-2.s-1] ("shsum").
  1.13424896E+09           2          21
  1.20725722E+09           2          23

 Total Heating :  5.353E+05 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  3.8744989E-03
 entot depart   535294.50       535294.50    
 shsum :  1.37617613E+10  2.11018465E+11  2.11017925E+11  2.11017925E+11
 shsum :  1.39084892E+10  2.29002461E+11  1.79839939E+10  2.29001921E+11
 shsum :  1.39751086E+10  2.40160424E+11  1.11579597E+10  2.40159883E+11
 shsum :  1.44345272E+10  2.61510398E+11  2.13499822E+10  2.61509874E+11
 shsum :  1.44345272E+10  2.61510398E+11   52.316635      2.61509874E+11
 shsum :  1.44345272E+10  2.61510398E+11   2.3707762      2.61509874E+11
 fin  2.61510398E+11  1.44345272E+10   18.587057    
   18.117004    
   17.832207       18.587057    
 ezero   0.0000000    
  2.61510398E+11
   1.5322387    

Total energy input of :2.683E+11 eV.cm-2.s-1 (qtoteV)
             of which 1.090E+10 is reflected (qsump)
                  and 2.615E+11 is absorbed (entot) 
                         through inelastic collisions (shsum =2.615E+11)
                                           + heating (elhsum =5.353E+05)
 This refers to an energy gain of   1.53 %


 The average E. loss per ion pair is :  18.59 eV (from qtoteV)
                                  or :  18.12 eV (from (entot))
                                  or :  17.83 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 : 2.3481E+11 [eV/cm2/s]
                                                             or : 3.7622E-01 [erg/cm2/s]
 That variable "errorgaupin" is:           80

 MAIN : Total energy deposition in [CO2] is 1.817E+11 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 1.607E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 1.010E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 1.997E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 5.080E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 2.337E+00 [eV.cm-2.s-1] ("shsum").
  1.08452019E+09           2          21
  1.15308915E+09           2          23

 Total Heating :  5.068E+05 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  3.5057706E-03
 entot depart   506759.84       506759.84    
 shsum :  1.19890330E+10  1.81708243E+11  1.81707735E+11  1.81707735E+11
 shsum :  1.21217966E+10  1.97780210E+11  1.60719677E+10  1.97779702E+11
 shsum :  1.21831485E+10  2.07885009E+11  1.01047910E+10  2.07884485E+11
 shsum :  1.26171249E+10  2.27856761E+11  1.99717540E+10  2.27856237E+11
 shsum :  1.26171249E+10  2.27856761E+11   50.802166      2.27856237E+11
 shsum :  1.26171249E+10  2.27856761E+11   2.3366599      2.27856237E+11
 fin  2.27856761E+11  1.26171249E+10   18.610622    
   18.059324    
   17.761734       18.610622    
 ezero   0.0000000    
  2.27856761E+11
   1.5990362    

Total energy input of :2.348E+11 eV.cm-2.s-1 (qtoteV)
             of which 1.071E+10 is reflected (qsump)
                  and 2.279E+11 is absorbed (entot) 
                         through inelastic collisions (shsum =2.279E+11)
                                           + heating (elhsum =5.068E+05)
 This refers to an energy gain of   1.60 %


 The average E. loss per ion pair is :  18.61 eV (from qtoteV)
                                  or :  18.06 eV (from (entot))
                                  or :  17.76 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 : 3.3300E+11 [eV/cm2/s]
                                                             or : 5.3353E-01 [erg/cm2/s]
 That variable "errorgaupin" is:           98

 MAIN : Total energy deposition in [CO2] is 2.682E+11 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 2.159E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 1.309E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 2.373E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 5.468E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 2.422E+00 [eV.cm-2.s-1] ("shsum").
  1.20914240E+09           2          21
  1.28893171E+09           2          23

 Total Heating :  5.802E+05 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  4.5703817E-03
 entot depart   580182.44       580182.44    
 shsum :  1.72036710E+10  2.68162154E+11  2.68161581E+11  2.68161581E+11
 shsum :  1.73767516E+10  2.89752056E+11  2.15899095E+10  2.89751499E+11
 shsum :  1.74530273E+10  3.02840152E+11  1.30881106E+10  3.02839595E+11
 shsum :  1.79562250E+10  3.26574932E+11  2.37347717E+10  3.26574375E+11
 shsum :  1.79562250E+10  3.26574932E+11   54.679741      3.26574375E+11
 shsum :  1.79562250E+10  3.26574932E+11   2.4224968      3.26574375E+11
 fin  3.26574932E+11  1.79562250E+10   18.544901    
   18.187283    
   17.923117       18.544901    
 ezero   0.0000000    
  3.26574932E+11
   1.4244689    

Total energy input of :3.330E+11 eV.cm-2.s-1 (qtoteV)
             of which 1.116E+10 is reflected (qsump)
                  and 3.266E+11 is absorbed (entot) 
                         through inelastic collisions (shsum =3.266E+11)
                                           + heating (elhsum =5.802E+05)
 This refers to an energy gain of   1.42 %


 The average E. loss per ion pair is :  18.54 eV (from qtoteV)
                                  or :  18.19 eV (from (entot))
                                  or :  17.92 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 : 3.0330E+11 [eV/cm2/s]
                                                             or : 4.8595E-01 [erg/cm2/s]
 That variable "errorgaupin" is:          101

 MAIN : Total energy deposition in [CO2] is 2.419E+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 1.222E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 2.268E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 5.363E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 2.399E+00 [eV.cm-2.s-1] ("shsum").
  1.17870874E+09           2          21
  1.25579571E+09           2          23

 Total Heating :  5.603E+05 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  4.2535840E-03
 entot depart   560292.56       560292.56    
 shsum :  1.56210176E+10  2.41857593E+11  2.41857036E+11  2.41857036E+11
 shsum :  1.57821020E+10  2.61806883E+11  1.99492854E+10  2.61806326E+11
 shsum :  1.58540206E+10  2.74024071E+11  1.22171894E+10  2.74023514E+11
 shsum :  1.63378729E+10  2.96703525E+11  2.26794537E+10  2.96702968E+11
 shsum :  1.63378729E+10  2.96703525E+11   53.629555      2.96702968E+11
 shsum :  1.63378729E+10  2.96703525E+11   2.3989201      2.96702968E+11
 fin  2.96703525E+11  1.63378729E+10   18.564205    
   18.160475    
   17.887644       18.564205    
 ezero   0.0000000    
  2.96703525E+11
   1.4696569    

Total energy input of :3.033E+11 eV.cm-2.s-1 (qtoteV)
             of which 1.105E+10 is reflected (qsump)
                  and 2.967E+11 is absorbed (entot) 
                         through inelastic collisions (shsum =2.967E+11)
                                           + heating (elhsum =5.603E+05)
 This refers to an energy gain of   1.47 %


 The average E. loss per ion pair is :  18.56 eV (from qtoteV)
                                  or :  18.16 eV (from (entot))
                                  or :  17.89 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 : 2.7131E+11 [eV/cm2/s]
                                                             or : 4.3470E-01 [erg/cm2/s]
 That variable "errorgaupin" is:          102

 MAIN : Total energy deposition in [CO2] is 2.137E+11 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 1.815E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 1.125E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 2.146E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 5.239E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 2.372E+00 [eV.cm-2.s-1] ("shsum").
  1.13904320E+09           2          21
  1.21246528E+09           2          23

 Total Heating :  5.367E+05 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  3.9064428E-03
 entot depart   536745.81       536745.81    
 shsum :  1.39215606E+10  2.13677605E+11  2.13677064E+11  2.13677064E+11
 shsum :  1.40694979E+10  2.31827341E+11  1.81497303E+10  2.31826801E+11
 shsum :  1.41365709E+10  2.43076432E+11  1.12490988E+10  2.43075908E+11
 shsum :  1.45980498E+10  2.64539374E+11  2.14629335E+10  2.64538849E+11
 shsum :  1.45980498E+10  2.64539374E+11   52.391548      2.64538849E+11
 shsum :  1.45980498E+10  2.64539374E+11   2.3717632      2.64538849E+11
 fin  2.64539374E+11  1.45980498E+10   18.585600    
   18.121555    
   17.838142       18.585600    
 ezero   0.0000000    
  2.64539374E+11
   1.5249041    

Total energy input of :2.713E+11 eV.cm-2.s-1 (qtoteV)
             of which 1.091E+10 is reflected (qsump)
                  and 2.645E+11 is absorbed (entot) 
                         through inelastic collisions (shsum =2.645E+11)
                                           + heating (elhsum =5.367E+05)
 This refers to an energy gain of   1.52 %


 The average E. loss per ion pair is :  18.59 eV (from qtoteV)
                                  or :  18.12 eV (from (entot))
                                  or :  17.84 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 : 2.3742E+11 [eV/cm2/s]
                                                             or : 3.8039E-01 [erg/cm2/s]
 That variable "errorgaupin" is:           93

 MAIN : Total energy deposition in [CO2] is 1.840E+11 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 1.622E+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 2.008E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 5.090E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 2.338E+00 [eV.cm-2.s-1] ("shsum").
  1.09020058E+09           2          21
  1.15928307E+09           2          23

 Total Heating :  5.085E+05 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  3.5353862E-03
 entot depart   508502.59       508502.59    
 shsum :  1.21263882E+10  1.83980835E+11  1.83980327E+11  1.83980327E+11
 shsum :  1.22602742E+10  2.00205271E+11  1.62244321E+10  2.00204763E+11
 shsum :  1.23220460E+10  2.10393416E+11  1.01881446E+10  2.10392908E+11
 shsum :  1.27580242E+10  2.30474039E+11  2.00806298E+10  2.30473531E+11
 shsum :  1.27580242E+10  2.30474039E+11   50.899338      2.30473531E+11
 shsum :  1.27580242E+10  2.30474039E+11   2.3384299      2.30473531E+11
 fin  2.30474039E+11  1.27580242E+10   18.609392    
   18.065025    
   17.768572       18.609392    
 ezero   0.0000000    
  2.30474039E+11
   1.5930400    

Total energy input of :2.374E+11 eV.cm-2.s-1 (qtoteV)
             of which 1.073E+10 is reflected (qsump)
                  and 2.305E+11 is absorbed (entot) 
                         through inelastic collisions (shsum =2.305E+11)
                                           + heating (elhsum =5.085E+05)
 This refers to an energy gain of   1.59 %


 The average E. loss per ion pair is :  18.61 eV (from qtoteV)
                                  or :  18.07 eV (from (entot))
                                  or :  17.77 eV (from (qtoteV-qsump))
