 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 : 3.3095E+11 [eV/cm2/s]
                                                             or : 5.3024E-01 [erg/cm2/s]
 That variable "errorgaupin" is:           77

 MAIN : Total energy deposition in [CO2] is 2.684E+11 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 2.154E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 1.305E+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 3.459E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 1.721E+00 [eV.cm-2.s-1] ("shsum").
  6.94660992E+08           2          21
  7.02502080E+08           2          23

 Total Heating :  3.719E+05 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  4.5373300E-03
 entot depart   371914.38       371914.38    
 shsum :  1.71113615E+10  2.68407374E+11  2.68406997E+11  2.68406997E+11
 shsum :  1.72831908E+10  2.89950040E+11  2.15426601E+10  2.89949647E+11
 shsum :  1.73588173E+10  3.02998585E+11  1.30485309E+10  3.02998192E+11
 shsum :  1.78634220E+10  3.26778913E+11  2.37803397E+10  3.26778520E+11
 shsum :  1.78634220E+10  3.26778913E+11   34.586613      3.26778520E+11
 shsum :  1.78634220E+10  3.26778913E+11   1.7212839      3.26778520E+11
 fin  3.26778913E+11  1.78634220E+10   18.526476    
   18.293186    
 -3.70495791E+13   18.526476    
 ezero   0.0000000    
  3.26778913E+11
  1.99981814E+14

Total energy input of :3.309E+11 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 3.268E+11 is absorbed (entot) 
                         through inelastic collisions (shsum =3.268E+11)
                                           + heating (elhsum =3.719E+05)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  18.53 eV (from qtoteV)
                                  or :  18.29 eV (from (entot))
                                  or :******* eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  50.0, longitude   0.0.

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

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

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

 MAIN : The total energy input from the precipitation source is : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]
                                  and from photoelectron source : 3.0105E+11 [eV/cm2/s]
                                                             or : 4.8235E-01 [erg/cm2/s]
 That variable "errorgaupin" is:           90

 MAIN : Total energy deposition in [CO2] is 2.419E+11 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 1.991E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 1.218E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 2.274E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 3.403E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 1.709E+00 [eV.cm-2.s-1] ("shsum").
  6.79871680E+08           2          21
  6.87481728E+08           2          23

 Total Heating :  3.601E+05 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  4.2213635E-03
 entot depart   360108.56       360108.56    
 shsum :  1.55211919E+10  2.41860248E+11  2.41859887E+11  2.41859887E+11
 shsum :  1.56810557E+10  2.61769658E+11  1.99094067E+10  2.61769298E+11
 shsum :  1.57523128E+10  2.73946313E+11  1.21766595E+10  2.73945952E+11
 shsum :  1.62378383E+10  2.96686387E+11  2.27400888E+10  2.96686027E+11
 shsum :  1.62378383E+10  2.96686387E+11   34.033634      2.96686027E+11
 shsum :  1.62378383E+10  2.96686387E+11   1.7085341      2.96686027E+11
 fin  2.96686387E+11  1.62378383E+10   18.540203    
   18.271297    
 -4.07586440E+13   18.540203    
 ezero   0.0000000    
  2.96686387E+11
  2.19839260E+14

Total energy input of :3.011E+11 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 2.967E+11 is absorbed (entot) 
                         through inelastic collisions (shsum =2.967E+11)
                                           + heating (elhsum =3.601E+05)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  18.54 eV (from qtoteV)
                                  or :  18.27 eV (from (entot))
                                  or :******* eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  55.0, longitude   0.0.

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

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

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

 MAIN : The total energy input from the precipitation source is : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]
                                  and from photoelectron source : 2.6892E+11 [eV/cm2/s]
                                                             or : 4.3087E-01 [erg/cm2/s]
 That variable "errorgaupin" is:           88

 MAIN : Total energy deposition in [CO2] is 2.135E+11 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 1.812E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 1.122E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 2.154E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 3.330E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 1.690E+00 [eV.cm-2.s-1] ("shsum").
  6.60614592E+08           2          21
  6.67929216E+08           2          23

 Total Heating :  3.450E+05 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  3.8753659E-03
 entot depart   344972.56       344972.56    
 shsum :  1.38152735E+10  2.13464285E+11  2.13463941E+11  2.13463941E+11
 shsum :  1.39620342E+10  2.31580025E+11  1.81157458E+10  2.31579681E+11
 shsum :  1.40284989E+10  2.42796298E+11  1.12162744E+10  2.42795954E+11
 shsum :  1.44918927E+10  2.64332788E+11  2.15364915E+10  2.64332444E+11
 shsum :  1.44918927E+10  2.64332788E+11   33.295910      2.64332444E+11
 shsum :  1.44918927E+10  2.64332788E+11   1.6898251      2.64332444E+11
 fin  2.64332788E+11  1.44918927E+10   18.556860    
   18.240046    
 -4.56691422E+13   18.556860    
 ezero   0.0000000    
  2.64332788E+11
  2.46103824E+14

Total energy input of :2.689E+11 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 2.643E+11 is absorbed (entot) 
                         through inelastic collisions (shsum =2.643E+11)
                                           + heating (elhsum =3.450E+05)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  18.56 eV (from qtoteV)
                                  or :  18.24 eV (from (entot))
                                  or :******* eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  60.0, longitude   0.0.

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

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

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

 MAIN : The total energy input from the precipitation source is : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]
                                  and from photoelectron source : 2.3493E+11 [eV/cm2/s]
                                                             or : 3.7640E-01 [erg/cm2/s]
 That variable "errorgaupin" is:           76

 MAIN : Total energy deposition in [CO2] is 1.836E+11 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 1.618E+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 2.015E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 3.233E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 1.664E+00 [eV.cm-2.s-1] ("shsum").
  6.35630912E+08           2          21
  6.42460864E+08           2          23

 Total Heating :  3.258E+05 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  3.5015163E-03
 entot depart   325800.81       325800.81    
 shsum :  1.20164710E+10  1.83614145E+11  1.83613817E+11  1.83613817E+11
 shsum :  1.21490739E+10  1.99790854E+11  1.61767117E+10  1.99790526E+11
 shsum :  1.22102415E+10  2.09947181E+11  1.01563331E+10  2.09946853E+11
 shsum :  1.26480896E+10  2.30100763E+11  2.01535816E+10  2.30100435E+11
 shsum :  1.26480896E+10  2.30100763E+11   32.331635      2.30100435E+11
 shsum :  1.26480896E+10  2.30100763E+11   1.6637383      2.30100435E+11
 fin  2.30100763E+11  1.26480896E+10   18.574331    
   18.192532    
 -5.23266603E+13   18.574331    
 ezero   0.0000000    
  2.30100763E+11
  2.81714891E+14

Total energy input of :2.349E+11 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 2.301E+11 is absorbed (entot) 
                         through inelastic collisions (shsum =2.301E+11)
                                           + heating (elhsum =3.258E+05)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  18.57 eV (from qtoteV)
                                  or :  18.19 eV (from (entot))
                                  or :******* eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  45.0, longitude   5.0.

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

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

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

 MAIN : The total energy input from the precipitation source is : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]
                                  and from photoelectron source : 3.2974E+11 [eV/cm2/s]
                                                             or : 5.2831E-01 [erg/cm2/s]
 That variable "errorgaupin" is:           88

 MAIN : Total energy deposition in [CO2] is 2.673E+11 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 2.146E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 1.302E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 2.374E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 3.447E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 1.716E+00 [eV.cm-2.s-1] ("shsum").
  6.93654784E+08           2          21
  7.01480192E+08           2          23

 Total Heating :  3.704E+05 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  4.5223758E-03
 entot depart   370389.25       370389.25    
 shsum :  1.70469345E+10  2.67311268E+11  2.67310891E+11  2.67310891E+11
 shsum :  1.72181975E+10  2.88773767E+11  2.14624870E+10  2.88773374E+11
 shsum :  1.72936847E+10  3.01791904E+11  1.30181202E+10  3.01791511E+11
 shsum :  1.77975398E+10  3.25529469E+11  2.37375590E+10  3.25529076E+11
 shsum :  1.77975398E+10  3.25529469E+11   34.471096      3.25529076E+11
 shsum :  1.77975398E+10  3.25529469E+11   1.7158321      3.25529076E+11
 fin  3.25529469E+11  1.77975398E+10   18.527161    
   18.290701    
 -3.71867286E+13   18.527161    
 ezero   0.0000000    
  3.25529469E+11
  2.00714677E+14

Total energy input of :3.297E+11 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 3.255E+11 is absorbed (entot) 
                         through inelastic collisions (shsum =3.255E+11)
                                           + heating (elhsum =3.704E+05)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  18.53 eV (from qtoteV)
                                  or :  18.29 eV (from (entot))
                                  or :******* eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  50.0, longitude   5.0.

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

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

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

 MAIN : The total energy input from the precipitation source is : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]
                                  and from photoelectron source : 2.9996E+11 [eV/cm2/s]
                                                             or : 4.8059E-01 [erg/cm2/s]
 That variable "errorgaupin" is:           83

 MAIN : Total energy deposition in [CO2] is 2.409E+11 [eV.cm-2.s-1] ("shsum").

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

 MAIN : Total energy deposition in [CO]  is 1.215E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 2.270E+10 [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 1.703E+00 [eV.cm-2.s-1] ("shsum").
  6.78990400E+08           2          21
  6.86641536E+08           2          23

 Total Heating :  3.587E+05 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  4.2080441E-03
 entot depart   358685.19       358685.19    
 shsum :  1.54629222E+10  2.40868131E+11  2.40867770E+11  2.40867770E+11
 shsum :  1.56222812E+10  2.60705616E+11  1.98374851E+10  2.60705255E+11
 shsum :  1.56934083E+10  2.72854024E+11  1.21484165E+10  2.72853664E+11
 shsum :  1.61782047E+10  2.95552483E+11  2.26984673E+10  2.95552123E+11
 shsum :  1.61782047E+10  2.95552483E+11   33.924679      2.95552123E+11
 shsum :  1.61782047E+10  2.95552483E+11   1.7033281      2.95552123E+11
 fin  2.95552483E+11  1.61782047E+10   18.540936    
   18.268559    
 -4.09088840E+13   18.540936    
 ezero   0.0000000    
  2.95552483E+11
  2.20640859E+14

Total energy input of :3.000E+11 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 2.956E+11 is absorbed (entot) 
                         through inelastic collisions (shsum =2.956E+11)
                                           + heating (elhsum =3.587E+05)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  18.54 eV (from qtoteV)
                                  or :  18.27 eV (from (entot))
                                  or :******* eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  55.0, longitude   5.0.

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

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

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

 MAIN : The total energy input from the precipitation source is : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]
                                  and from photoelectron source : 2.6795E+11 [eV/cm2/s]
                                                             or : 4.2931E-01 [erg/cm2/s]
 That variable "errorgaupin" is:           97

 MAIN : Total energy deposition in [CO2] is 2.126E+11 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 1.806E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 1.118E+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 3.319E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 1.685E+00 [eV.cm-2.s-1] ("shsum").
  6.59835136E+08           2          21
  6.67161728E+08           2          23

 Total Heating :  3.436E+05 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  3.8644164E-03
 entot depart   343644.88       343644.88    
 shsum :  1.37632604E+10  2.12582433E+11  2.12582089E+11  2.12582089E+11
 shsum :  1.39096064E+10  2.30639043E+11  1.80566036E+10  2.30638698E+11
 shsum :  1.39758961E+10  2.41821188E+11  1.11821384E+10  2.41820844E+11
 shsum :  1.44386703E+10  2.63322223E+11  2.15010386E+10  2.63321879E+11
 shsum :  1.44386703E+10  2.63322223E+11   33.193672      2.63321879E+11
 shsum :  1.44386703E+10  2.63322223E+11   1.6848950      2.63321879E+11
 fin  2.63322223E+11  1.44386703E+10   18.557674    
   18.237289    
 -4.58374806E+13   18.557674    
 ezero   0.0000000    
  2.63322223E+11
  2.47000130E+14

Total energy input of :2.679E+11 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 2.633E+11 is absorbed (entot) 
                         through inelastic collisions (shsum =2.633E+11)
                                           + heating (elhsum =3.436E+05)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  18.56 eV (from qtoteV)
                                  or :  18.24 eV (from (entot))
                                  or :******* eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  60.0, longitude   5.0.

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

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

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

 MAIN : The total energy input from the precipitation source is : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]
                                  and from photoelectron source : 2.3415E+11 [eV/cm2/s]
                                                             or : 3.7515E-01 [erg/cm2/s]
 That variable "errorgaupin" is:           86

 MAIN : Total energy deposition in [CO2] is 1.829E+11 [eV.cm-2.s-1] ("shsum").

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

 MAIN : Total energy deposition in [CO]  is 1.013E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 2.012E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 3.224E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 1.659E+00 [eV.cm-2.s-1] ("shsum").
  6.34849280E+08           2          21
  6.41716928E+08           2          23

 Total Heating :  3.246E+05 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  3.4929772E-03
 entot depart   324566.78       324566.78    
 shsum :  1.19748372E+10  1.82913090E+11  1.82912762E+11  1.82912762E+11
 shsum :  1.21071165E+10  1.99042531E+11  1.61294418E+10  1.99042204E+11
 shsum :  1.21681469E+10  2.09171759E+11  1.01292319E+10  2.09171431E+11
 shsum :  1.26054236E+10  2.29292835E+11  2.01210839E+10  2.29292507E+11
 shsum :  1.26054236E+10  2.29292835E+11   32.237305      2.29292507E+11
 shsum :  1.26054236E+10  2.29292835E+11   1.6591929      2.29292507E+11
 fin  2.29292835E+11  1.26054236E+10   18.575270    
   18.190014    
 -5.25037732E+13   18.575270    
 ezero   0.0000000    
  2.29292835E+11
  2.82654147E+14

Total energy input of :2.341E+11 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 2.293E+11 is absorbed (entot) 
                         through inelastic collisions (shsum =2.293E+11)
                                           + heating (elhsum =3.246E+05)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  18.58 eV (from qtoteV)
                                  or :  18.19 eV (from (entot))
                                  or :******* eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  45.0, longitude  10.0.

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

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

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

 MAIN : The total energy input from the precipitation source is : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]
                                  and from photoelectron source : 3.2602E+11 [eV/cm2/s]
                                                             or : 5.2235E-01 [erg/cm2/s]
 That variable "errorgaupin" is:           98

 MAIN : Total energy deposition in [CO2] is 2.640E+11 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 2.127E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 1.291E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 2.362E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 3.428E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 1.708E+00 [eV.cm-2.s-1] ("shsum").
  6.91158912E+08           2          21
  6.98936704E+08           2          23

 Total Heating :  3.675E+05 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  4.4850935E-03
 entot depart   367512.88       367512.88    
 shsum :  1.68482335E+10  2.63963673E+11  2.63963312E+11  2.63963312E+11
 shsum :  1.70180844E+10  2.85231481E+11  2.12678185E+10  2.85231120E+11
 shsum :  1.70930545E+10  2.98143187E+11  1.29116948E+10  2.98142826E+11
 shsum :  1.75948268E+10  3.21764458E+11  2.36212838E+10  3.21764098E+11
 shsum :  1.75948268E+10  3.21764458E+11   34.284908      3.21764098E+11
 shsum :  1.75948268E+10  3.21764458E+11   1.7084358      3.21764098E+11
 fin  3.21764458E+11  1.75948268E+10   18.529278    
   18.287447    
 -3.76151642E+13   18.529278    
 ezero   0.0000000    
  3.21764458E+11
  2.03003928E+14

Total energy input of :3.260E+11 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 3.218E+11 is absorbed (entot) 
                         through inelastic collisions (shsum =3.218E+11)
                                           + heating (elhsum =3.675E+05)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  18.53 eV (from qtoteV)
                                  or :  18.29 eV (from (entot))
                                  or :******* eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  50.0, longitude  10.0.

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

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

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

 MAIN : The total energy input from the precipitation source is : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]
                                  and from photoelectron source : 2.9659E+11 [eV/cm2/s]
                                                             or : 4.7519E-01 [erg/cm2/s]
 That variable "errorgaupin" is:           87

 MAIN : Total energy deposition in [CO2] is 2.379E+11 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 1.964E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 1.205E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 2.258E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 3.374E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 1.696E+00 [eV.cm-2.s-1] ("shsum").
  6.76592896E+08           2          21
  6.84198208E+08           2          23

 Total Heating :  3.559E+05 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  4.1702203E-03
 entot depart   355903.75       355903.75    
 shsum :  1.52834744E+10  2.37869335E+11  2.37868974E+11  2.37868974E+11
 shsum :  1.54414019E+10  2.57508884E+11  1.96395459E+10  2.57508524E+11
 shsum :  1.55120538E+10  2.69559759E+11  1.20508754E+10  2.69559398E+11
 shsum :  1.59946373E+10  2.92135830E+11  2.25760829E+10  2.92135469E+11
 shsum :  1.59946373E+10  2.92135830E+11   33.743595      2.92135469E+11
 shsum :  1.59946373E+10  2.92135830E+11   1.6960832      2.92135469E+11
 fin  2.92135830E+11  1.59946373E+10   18.542894    
   18.264610    
 -4.13783860E+13   18.542894    
 ezero   0.0000000    
  2.92135830E+11
  2.23149556E+14

Total energy input of :2.966E+11 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 2.921E+11 is absorbed (entot) 
                         through inelastic collisions (shsum =2.921E+11)
                                           + heating (elhsum =3.559E+05)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  18.54 eV (from qtoteV)
                                  or :  18.26 eV (from (entot))
                                  or :******* eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  55.0, longitude  10.0.

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

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

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

 MAIN : The total energy input from the precipitation source is : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]
                                  and from photoelectron source : 2.6494E+11 [eV/cm2/s]
                                                             or : 4.2449E-01 [erg/cm2/s]
 That variable "errorgaupin" is:           81

 MAIN : Total energy deposition in [CO2] is 2.099E+11 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 1.788E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 1.110E+10 [eV.cm-2.s-1] ("shsum").

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

 MAIN : Total energy deposition in [O2]  is 3.302E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 1.678E+00 [eV.cm-2.s-1] ("shsum").
  6.57493120E+08           2          21
  6.64808768E+08           2          23

 Total Heating :  3.410E+05 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  3.8302070E-03
 entot depart   340958.91       340958.91    
 shsum :  1.36034509E+10  2.09920180E+11  2.09919836E+11  2.09919836E+11
 shsum :  1.37485015E+10  2.27796910E+11  1.78767278E+10  2.27796566E+11
 shsum :  1.38143713E+10  2.38892171E+11  1.10952591E+10  2.38891827E+11
 shsum :  1.42749768E+10  2.60273783E+11  2.13816054E+10  2.60273439E+11
 shsum :  1.42749768E+10  2.60273783E+11   33.018898      2.60273439E+11
 shsum :  1.42749768E+10  2.60273783E+11   1.6779037      2.60273439E+11
 fin  2.60273783E+11  1.42749768E+10   18.559715    
   18.232868    
 -4.63631066E+13   18.559715    
 ezero   0.0000000    
  2.60273783E+11
  2.49805062E+14

Total energy input of :2.649E+11 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 2.603E+11 is absorbed (entot) 
                         through inelastic collisions (shsum =2.603E+11)
                                           + heating (elhsum =3.410E+05)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  18.56 eV (from qtoteV)
                                  or :  18.23 eV (from (entot))
                                  or :******* eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  60.0, longitude  10.0.

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

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

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

 MAIN : The total energy input from the precipitation source is : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]
                                  and from photoelectron source : 2.3162E+11 [eV/cm2/s]
                                                             or : 3.7110E-01 [erg/cm2/s]
 That variable "errorgaupin" is:           97

 MAIN : Total energy deposition in [CO2] is 1.807E+11 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 1.598E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 1.004E+10 [eV.cm-2.s-1] ("shsum").

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

 MAIN : Total energy deposition in [O2]  is 3.207E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 1.653E+00 [eV.cm-2.s-1] ("shsum").
  6.32502656E+08           2          21
  6.39355968E+08           2          23

 Total Heating :  3.220E+05 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  3.4642299E-03
 entot depart   322038.25       322038.25    
 shsum :  1.18393836E+10  1.80698317E+11  1.80697989E+11  1.80697989E+11
 shsum :  1.19705743E+10  1.96675355E+11  1.59770348E+10  1.96675027E+11
 shsum :  1.20311788E+10  2.06719631E+11  1.00442767E+10  2.06719304E+11
 shsum :  1.24664412E+10  2.26730459E+11  2.00108339E+10  2.26730131E+11
 shsum :  1.24664412E+10  2.26730459E+11   32.074265      2.26730131E+11
 shsum :  1.24664412E+10  2.26730459E+11   1.6526790      2.26730131E+11
 fin  2.26730459E+11  1.24664412E+10   18.579275    
   18.187263    
 -5.30891093E+13   18.579275    
 ezero   0.0000000    
  2.26730459E+11
  2.85743738E+14

Total energy input of :2.316E+11 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 2.267E+11 is absorbed (entot) 
                         through inelastic collisions (shsum =2.267E+11)
                                           + heating (elhsum =3.220E+05)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  18.58 eV (from qtoteV)
                                  or :  18.19 eV (from (entot))
                                  or :******* eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  45.0, longitude  15.0.

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

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

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

 MAIN : The total energy input from the precipitation source is : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]
                                  and from photoelectron source : 3.1982E+11 [eV/cm2/s]
                                                             or : 5.1241E-01 [erg/cm2/s]
 That variable "errorgaupin" is:           96

 MAIN : Total energy deposition in [CO2] is 2.584E+11 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 2.095E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 1.273E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 2.342E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 3.404E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 1.699E+00 [eV.cm-2.s-1] ("shsum").
  6.87309312E+08           2          21
  6.94993216E+08           2          23

 Total Heating :  3.634E+05 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  4.4226460E-03
 entot depart   363401.22       363401.22    
 shsum :  1.65171958E+10  2.58412773E+11  2.58412413E+11  2.58412413E+11
 shsum :  1.66846822E+10  2.79358013E+11  2.09452524E+10  2.79357653E+11
 shsum :  1.67587768E+10  2.92093002E+11  1.27349903E+10  2.92092641E+11
 shsum :  1.72568740E+10  3.15512127E+11  2.34191319E+10  3.15511767E+11
 shsum :  1.72568740E+10  3.15512127E+11   34.036251      3.15511767E+11
 shsum :  1.72568740E+10  3.15512127E+11   1.6993884      3.15511767E+11
 fin  3.15512127E+11  1.72568740E+10   18.532745    
   18.283272    
 -3.83518056E+13   18.532745    
 ezero   0.0000000    
  3.15512127E+11
  2.06940769E+14

Total energy input of :3.198E+11 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 3.155E+11 is absorbed (entot) 
                         through inelastic collisions (shsum =3.155E+11)
                                           + heating (elhsum =3.634E+05)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  18.53 eV (from qtoteV)
                                  or :  18.28 eV (from (entot))
                                  or :******* eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  50.0, longitude  15.0.

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

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

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

 MAIN : The total energy input from the precipitation source is : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]
                                  and from photoelectron source : 2.9096E+11 [eV/cm2/s]
                                                             or : 4.6618E-01 [erg/cm2/s]
 That variable "errorgaupin" is:           90

 MAIN : Total energy deposition in [CO2] is 2.328E+11 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 1.934E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 1.188E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 2.238E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 3.350E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 1.687E+00 [eV.cm-2.s-1] ("shsum").
  6.72663936E+08           2          21
  6.80198848E+08           2          23

 Total Heating :  3.519E+05 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  4.1135754E-03
 entot depart   351856.09       351856.09    
 shsum :  1.49833892E+10  2.32848278E+11  2.32847933E+11  2.32847933E+11
 shsum :  1.51391713E+10  2.52192260E+11  1.93439785E+10  2.52191916E+11
 shsum :  1.52090051E+10  2.64076476E+11  1.18842132E+10  2.64076132E+11
 shsum :  1.56881050E+10  2.86460150E+11  2.23836774E+10  2.86459822E+11
 shsum :  1.56881050E+10  2.86460150E+11   33.497650      2.86459822E+11
 shsum :  1.56881050E+10  2.86460150E+11   1.6871004      2.86459822E+11
 fin  2.86460150E+11  1.56881050E+10   18.546541    
   18.259705    
 -4.21868843E+13   18.546541    
 ezero   0.0000000    
  2.86460150E+11
  2.27464974E+14

Total energy input of :2.910E+11 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 2.865E+11 is absorbed (entot) 
                         through inelastic collisions (shsum =2.865E+11)
                                           + heating (elhsum =3.519E+05)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  18.55 eV (from qtoteV)
                                  or :  18.26 eV (from (entot))
                                  or :******* eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  55.0, longitude  15.0.

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

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

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

 MAIN : The total energy input from the precipitation source is : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]
                                  and from photoelectron source : 2.5993E+11 [eV/cm2/s]
                                                             or : 4.1647E-01 [erg/cm2/s]
 That variable "errorgaupin" is:           98

 MAIN : Total energy deposition in [CO2] is 2.055E+11 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 1.759E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 1.094E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 2.119E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 3.278E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 1.669E+00 [eV.cm-2.s-1] ("shsum").
  6.53638464E+08           2          21
  6.60875520E+08           2          23

 Total Heating :  3.371E+05 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  3.7742581E-03
 entot depart   337055.25       337055.25    
 shsum :  1.33380352E+10  2.05510525E+11  2.05510181E+11  2.05510181E+11
 shsum :  1.34809672E+10  2.23096193E+11  1.75856701E+10  2.23095849E+11
 shsum :  1.35460833E+10  2.34038985E+11  1.09427917E+10  2.34038641E+11
 shsum :  1.40031037E+10  2.55224742E+11  2.11857531E+10  2.55224398E+11
 shsum :  1.40031037E+10  2.55224742E+11   32.780308      2.55224398E+11
 shsum :  1.40031037E+10  2.55224742E+11   1.6691340      2.55224398E+11
 fin  2.55224742E+11  1.40031037E+10   18.562569    
   18.226297    
 -4.72632546E+13   18.562569    
 ezero   0.0000000    
  2.55224742E+11
  2.54615929E+14

Total energy input of :2.599E+11 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 2.552E+11 is absorbed (entot) 
                         through inelastic collisions (shsum =2.552E+11)
                                           + heating (elhsum =3.371E+05)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  18.56 eV (from qtoteV)
                                  or :  18.23 eV (from (entot))
                                  or :******* eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  60.0, longitude  15.0.

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

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

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

 MAIN : The total energy input from the precipitation source is : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]
                                  and from photoelectron source : 2.2734E+11 [eV/cm2/s]
                                                             or : 3.6425E-01 [erg/cm2/s]
 That variable "errorgaupin" is:          101

 MAIN : Total energy deposition in [CO2] is 1.770E+11 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 1.572E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 9.909E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 1.982E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 3.185E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 1.644E+00 [eV.cm-2.s-1] ("shsum").
  6.28556096E+08           2          21
  6.35356288E+08           2          23

 Total Heating :  3.183E+05 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  3.4151357E-03
 entot depart   318278.19       318278.19    
 shsum :  1.16111790E+10  1.76969925E+11  1.76969613E+11  1.76969613E+11
 shsum :  1.17405112E+10  1.92688800E+11  1.57188680E+10  1.92688488E+11
 shsum :  1.18004572E+10  2.02598203E+11  9.90940467E+09  2.02597892E+11
 shsum :  1.22322309E+10  2.22419337E+11  1.98211277E+10  2.22419026E+11
 shsum :  1.22322309E+10  2.22419337E+11   31.846586      2.22419026E+11
 shsum :  1.22322309E+10  2.22419337E+11   1.6443620      2.22419026E+11
 fin  2.22419337E+11  1.22322309E+10   18.585398    
   18.183056    
 -5.41056072E+13   18.585398    
 ezero   0.0000000    
  2.22419337E+11
  2.91118923E+14

Total energy input of :2.273E+11 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 2.224E+11 is absorbed (entot) 
                         through inelastic collisions (shsum =2.224E+11)
                                           + heating (elhsum =3.183E+05)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  18.59 eV (from qtoteV)
                                  or :  18.18 eV (from (entot))
                                  or :******* eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  45.0, longitude  20.0.

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

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

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

 MAIN : The total energy input from the precipitation source is : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]
                                  and from photoelectron source : 3.1118E+11 [eV/cm2/s]
                                                             or : 4.9858E-01 [erg/cm2/s]
 That variable "errorgaupin" is:           79

 MAIN : Total energy deposition in [CO2] is 2.507E+11 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 2.047E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 1.249E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 2.312E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 3.373E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 1.689E+00 [eV.cm-2.s-1] ("shsum").
  6.82112960E+08           2          21
  6.89664384E+08           2          23

 Total Heating :  3.581E+05 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  4.3306914E-03
 entot depart   358148.53       358148.53    
 shsum :  1.60575048E+10  2.50746470E+11  2.50746110E+11  2.50746110E+11
 shsum :  1.62215086E+10  2.71218409E+11  2.04719473E+10  2.71218049E+11
 shsum :  1.62943529E+10  2.83703738E+11  1.24853166E+10  2.83703378E+11
 shsum :  1.67869809E+10  3.06824217E+11  2.31204884E+10  3.06823856E+11
 shsum :  1.67869809E+10  3.06824217E+11   33.731560      3.06823856E+11
 shsum :  1.67869809E+10  3.06824217E+11   1.6889387      3.06823856E+11
 fin  3.06824217E+11  1.67869809E+10   18.537182    
   18.277510    
 -3.94253293E+13   18.537182    
 ezero   0.0000000    
  3.06824217E+11
  2.12682452E+14

Total energy input of :3.112E+11 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 3.068E+11 is absorbed (entot) 
                         through inelastic collisions (shsum =3.068E+11)
                                           + heating (elhsum =3.581E+05)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  18.54 eV (from qtoteV)
                                  or :  18.28 eV (from (entot))
                                  or :******* eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  50.0, longitude  20.0.

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

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

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

 MAIN : The total energy input from the precipitation source is : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]
                                  and from photoelectron source : 2.8312E+11 [eV/cm2/s]
                                                             or : 4.5361E-01 [erg/cm2/s]
 That variable "errorgaupin" is:           91

 MAIN : Total energy deposition in [CO2] is 2.259E+11 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 1.892E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 1.165E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 2.210E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 3.319E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 1.677E+00 [eV.cm-2.s-1] ("shsum").
  6.67312320E+08           2          21
  6.74729984E+08           2          23

 Total Heating :  3.466E+05 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  4.0311655E-03
 entot depart   346622.09       346622.09    
 shsum :  1.45661317E+10  2.25898381E+11  2.25898037E+11  2.25898037E+11
 shsum :  1.47187927E+10  2.44815626E+11  1.89172531E+10  2.44815299E+11
 shsum :  1.47874703E+10  2.56467403E+11  1.16517745E+10  2.56467075E+11
 shsum :  1.52613601E+10  2.78566502E+11  2.20990915E+10  2.78566175E+11
 shsum :  1.52613601E+10  2.78566502E+11   33.193134      2.78566175E+11
 shsum :  1.52613601E+10  2.78566502E+11   1.6765682      2.78566175E+11
 fin  2.78566502E+11  1.52613601E+10   18.551355    
   18.253059    
 -4.33665323E+13   18.551355    
 ezero   0.0000000    
  2.78566502E+11
  2.33764769E+14

Total energy input of :2.831E+11 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 2.786E+11 is absorbed (entot) 
                         through inelastic collisions (shsum =2.786E+11)
                                           + heating (elhsum =3.466E+05)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  18.55 eV (from qtoteV)
                                  or :  18.25 eV (from (entot))
                                  or :******* eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  55.0, longitude  20.0.

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

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

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

 MAIN : The total energy input from the precipitation source is : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]
                                  and from photoelectron source : 2.5297E+11 [eV/cm2/s]
                                                             or : 4.0531E-01 [erg/cm2/s]
 That variable "errorgaupin" is:           79

 MAIN : Total energy deposition in [CO2] is 1.994E+11 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 1.721E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 1.073E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 2.092E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 3.248E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 1.659E+00 [eV.cm-2.s-1] ("shsum").
  6.48160896E+08           2          21
  6.55304704E+08           2          23

 Total Heating :  3.319E+05 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  3.7019569E-03
 entot depart   331946.38       331946.38    
 shsum :  1.29683763E+10  1.99354483E+11  1.99354155E+11  1.99354155E+11
 shsum :  1.31085701E+10  2.16563417E+11  1.72089303E+10  2.16563089E+11
 shsum :  1.31726264E+10  2.27291759E+11  1.07283415E+10  2.27291431E+11
 shsum :  1.36248064E+10  2.48212767E+11  2.09210061E+10  2.48212439E+11
 shsum :  1.36248064E+10  2.48212767E+11   32.480396      2.48212439E+11
 shsum :  1.36248064E+10  2.48212767E+11   1.6587405      2.48212439E+11
 fin  2.48212767E+11  1.36248064E+10   18.566736    
   18.217710    
 -4.85755349E+13   18.566736    
 ezero   0.0000000    
  2.48212767E+11
  2.61626691E+14

Total energy input of :2.530E+11 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 2.482E+11 is absorbed (entot) 
                         through inelastic collisions (shsum =2.482E+11)
                                           + heating (elhsum =3.319E+05)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  18.57 eV (from qtoteV)
                                  or :  18.22 eV (from (entot))
                                  or :******* eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  60.0, longitude  20.0.

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

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

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

 MAIN : The total energy input from the precipitation source is : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]
                                  and from photoelectron source : 2.2126E+11 [eV/cm2/s]
                                                             or : 3.5450E-01 [erg/cm2/s]
 That variable "errorgaupin" is:           90

 MAIN : Total energy deposition in [CO2] is 1.717E+11 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 1.536E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 9.713E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 1.955E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 3.156E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 1.634E+00 [eV.cm-2.s-1] ("shsum").
  6.22987520E+08           2          21
  6.29688768E+08           2          23

 Total Heating :  3.133E+05 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  3.3456460E-03
 entot depart   313329.09       313329.09    
 shsum :  1.12893778E+10  1.71671175E+11  1.71670864E+11  1.71670864E+11
 shsum :  1.14160783E+10  1.87028914E+11  1.53577329E+10  1.87028603E+11
 shsum :  1.14750505E+10  1.96742234E+11  9.71332608E+09  1.96741923E+11
 shsum :  1.19018854E+10  2.16296178E+11  1.95539436E+10  2.16295866E+11
 shsum :  1.19018854E+10  2.16296178E+11   31.557873      2.16295866E+11
 shsum :  1.19018854E+10  2.16296178E+11   1.6343499      2.16295866E+11
 fin  2.16296178E+11  1.19018854E+10   18.590113    
   18.173269    
 -5.56073484E+13   18.590113    
 ezero   0.0000000    
  2.16296178E+11
  2.99123266E+14

Total energy input of :2.213E+11 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 2.163E+11 is absorbed (entot) 
                         through inelastic collisions (shsum =2.163E+11)
                                           + heating (elhsum =3.133E+05)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  18.59 eV (from qtoteV)
                                  or :  18.17 eV (from (entot))
                                  or :******* eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  45.0, longitude  25.0.

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

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

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

 MAIN : The total energy input from the precipitation source is : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]
                                  and from photoelectron source : 3.0019E+11 [eV/cm2/s]
                                                             or : 4.8096E-01 [erg/cm2/s]
 That variable "errorgaupin" is:          109

 MAIN : Total energy deposition in [CO2] is 2.410E+11 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 1.987E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 1.216E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 2.273E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 3.337E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 1.677E+00 [eV.cm-2.s-1] ("shsum").
  6.75488896E+08           2          21
  6.82883008E+08           2          23

 Total Heating :  3.518E+05 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  4.2151823E-03
 entot depart   351772.53       351772.53    
 shsum :  1.54724669E+10  2.41004265E+11  2.41003921E+11  2.41003921E+11
 shsum :  1.56320963E+10  2.60875059E+11  1.98707855E+10  2.60874699E+11
 shsum :  1.57033155E+10  2.73036329E+11  1.21612718E+10  2.73035969E+11
 shsum :  1.61888686E+10  2.95769768E+11  2.27334472E+10  2.95769407E+11
 shsum :  1.61888686E+10  2.95769768E+11   33.372070      2.95769407E+11
 shsum :  1.61888686E+10  2.95769768E+11   1.6771910      2.95769407E+11
 fin  2.95769768E+11  1.61888686E+10   18.542866    
   18.269947    
 -4.08819356E+13   18.542866    
 ezero   0.0000000    
  2.95769768E+11
  2.20472600E+14

Total energy input of :3.002E+11 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 2.958E+11 is absorbed (entot) 
                         through inelastic collisions (shsum =2.958E+11)
                                           + heating (elhsum =3.518E+05)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  18.54 eV (from qtoteV)
                                  or :  18.27 eV (from (entot))
                                  or :******* eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  50.0, longitude  25.0.

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

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

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

 MAIN : The total energy input from the precipitation source is : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]
                                  and from photoelectron source : 2.7313E+11 [eV/cm2/s]
                                                             or : 4.3761E-01 [erg/cm2/s]
 That variable "errorgaupin" is:           98

 MAIN : Total energy deposition in [CO2] is 2.171E+11 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 1.836E+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 2.172E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 3.283E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 1.665E+00 [eV.cm-2.s-1] ("shsum").
  6.60427008E+08           2          21
  6.67713344E+08           2          23

 Total Heating :  3.402E+05 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  3.9228294E-03
 entot depart   340242.25       340242.25    
 shsum :  1.40355604E+10  2.17090212E+11  2.17089868E+11  2.17089868E+11
 shsum :  1.41841183E+10  2.35447615E+11  1.83574077E+10  2.35447271E+11
 shsum :  1.42512916E+10  2.46798762E+11  1.13511404E+10  2.46798418E+11
 shsum :  1.47182449E+10  2.68520571E+11  2.17218130E+10  2.68520227E+11
 shsum :  1.47182449E+10  2.68520571E+11   32.832428      2.68520227E+11
 shsum :  1.47182449E+10  2.68520571E+11   1.6646174      2.68520227E+11
 fin  2.68520571E+11  1.47182449E+10   18.557245    
   18.244062    
 -4.49667934E+13   18.557245    
 ezero   0.0000000    
  2.68520571E+11
  2.42313968E+14

Total energy input of :2.731E+11 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 2.685E+11 is absorbed (entot) 
                         through inelastic collisions (shsum =2.685E+11)
                                           + heating (elhsum =3.402E+05)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  18.56 eV (from qtoteV)
                                  or :  18.24 eV (from (entot))
                                  or :******* eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  55.0, longitude  25.0.

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

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

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

 MAIN : The total energy input from the precipitation source is : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]
                                  and from photoelectron source : 2.4411E+11 [eV/cm2/s]
                                                             or : 3.9111E-01 [erg/cm2/s]
 That variable "errorgaupin" is:           92

 MAIN : Total energy deposition in [CO2] is 1.916E+11 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 1.671E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 1.045E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 2.057E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 3.212E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 1.647E+00 [eV.cm-2.s-1] ("shsum").
  6.41027904E+08           2          21
  6.48045568E+08           2          23

 Total Heating :  3.257E+05 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  3.6064857E-03
 entot depart   325654.00       325654.00    
 shsum :  1.24990925E+10  1.91568593E+11  1.91568265E+11  1.91568265E+11
 shsum :  1.26356705E+10  2.08282370E+11  1.67137802E+10  2.08282042E+11
 shsum :  1.26983516E+10  2.18735018E+11  1.04526428E+10  2.18734690E+11
 shsum :  1.31439821E+10  2.39300592E+11  2.05655695E+10  2.39300264E+11
 shsum :  1.31439821E+10  2.39300592E+11   32.123188      2.39300264E+11
 shsum :  1.31439821E+10  2.39300592E+11   1.6468215      2.39300264E+11
 fin  2.39300592E+11  1.31439821E+10   18.571793    
   18.206095    
 -5.03524937E+13   18.571793    
 ezero   0.0000000    
  2.39300592E+11
  2.71123502E+14

Total energy input of :2.441E+11 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 2.393E+11 is absorbed (entot) 
                         through inelastic collisions (shsum =2.393E+11)
                                           + heating (elhsum =3.257E+05)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  18.57 eV (from qtoteV)
                                  or :  18.21 eV (from (entot))
                                  or :******* eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  60.0, longitude  25.0.

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

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

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

 MAIN : The total energy input from the precipitation source is : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]
                                  and from photoelectron source : 2.1351E+11 [eV/cm2/s]
                                                             or : 3.4209E-01 [erg/cm2/s]
 That variable "errorgaupin" is:           84

 MAIN : Total energy deposition in [CO2] is 1.649E+11 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 1.491E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 9.460E+09 [eV.cm-2.s-1] ("shsum").

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

 MAIN : Total energy deposition in [O2]  is 3.121E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 1.623E+00 [eV.cm-2.s-1] ("shsum").
  6.15685760E+08           2          21
  6.22267008E+08           2          23

 Total Heating :  3.072E+05 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  3.2600970E-03
 entot depart   307205.53       307205.53    
 shsum :  1.08797788E+10  1.64923621E+11  1.64923310E+11  1.64923310E+11
 shsum :  1.10032394E+10  1.79835912E+11  1.49122929E+10  1.79835601E+11
 shsum :  1.10609521E+10  1.89296001E+11  9.46008166E+09  1.89295690E+11
 shsum :  1.14814956E+10  2.08509682E+11  1.92136765E+10  2.08509370E+11
 shsum :  1.14814956E+10  2.08509682E+11   31.209217      2.08509370E+11
 shsum :  1.14814956E+10  2.08509682E+11   1.6227307      2.08509370E+11
 fin  2.08509682E+11  1.14814956E+10   18.596403    
   18.160498    
 -5.76433852E+13   18.596403    
 ezero   0.0000000    
  2.08509682E+11
  3.09970642E+14

Total energy input of :2.135E+11 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 2.085E+11 is absorbed (entot) 
                         through inelastic collisions (shsum =2.085E+11)
                                           + heating (elhsum =3.072E+05)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  18.60 eV (from qtoteV)
                                  or :  18.16 eV (from (entot))
                                  or :******* eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  45.0, longitude  30.0.

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

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

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

 MAIN : The total energy input from the precipitation source is : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]
                                  and from photoelectron source : 2.8692E+11 [eV/cm2/s]
                                                             or : 4.5970E-01 [erg/cm2/s]
 That variable "errorgaupin" is:           87

 MAIN : Total energy deposition in [CO2] is 2.293E+11 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 1.914E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 1.177E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 2.225E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 3.296E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 1.664E+00 [eV.cm-2.s-1] ("shsum").
  6.67231360E+08           2          21
  6.74489728E+08           2          23

 Total Heating :  3.442E+05 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  4.0732231E-03
 entot depart   344234.88       344234.88    
 shsum :  1.47669719E+10  2.29281579E+11  2.29281235E+11  2.29281235E+11
 shsum :  1.49212252E+10  2.48416600E+11  1.91350272E+10  2.48416256E+11
 shsum :  1.49904548E+10  2.60181852E+11  1.17652490E+10  2.60181508E+11
 shsum :  1.54671739E+10  2.82433290E+11  2.22514258E+10  2.82432930E+11
 shsum :  1.54671739E+10  2.82433290E+11   32.956772      2.82432930E+11
 shsum :  1.54671739E+10  2.82433290E+11   1.6641188      2.82432930E+11
 fin  2.82433290E+11  1.54671739E+10   18.550087    
   18.260174    
 -4.27894757E+13   18.550087    
 ezero   0.0000000    
  2.82433290E+11
  2.30669943E+14

Total energy input of :2.869E+11 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 2.824E+11 is absorbed (entot) 
                         through inelastic collisions (shsum =2.824E+11)
                                           + heating (elhsum =3.442E+05)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  18.55 eV (from qtoteV)
                                  or :  18.26 eV (from (entot))
                                  or :******* eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  50.0, longitude  30.0.

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

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

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

 MAIN : The total energy input from the precipitation source is : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]
                                  and from photoelectron source : 2.6109E+11 [eV/cm2/s]
                                                             or : 4.1831E-01 [erg/cm2/s]
 That variable "errorgaupin" is:           87

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

 MAIN : Total energy deposition in [N2]  is 1.768E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 1.098E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 2.126E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 3.242E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 1.651E+00 [eV.cm-2.s-1] ("shsum").
  6.52004480E+08           2          21
  6.59108992E+08           2          23

 Total Heating :  3.327E+05 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  3.7932000E-03
 entot depart   332729.03       332729.03    
 shsum :  1.33968568E+10  2.06493385E+11  2.06493057E+11  2.06493057E+11
 shsum :  1.35405056E+10  2.24175833E+11  1.76824484E+10  2.24175505E+11
 shsum :  1.36058317E+10  2.35158553E+11  1.09827164E+10  2.35158225E+11
 shsum :  1.40642406E+10  2.56415678E+11  2.12571259E+10  2.56415351E+11
 shsum :  1.40642406E+10  2.56415678E+11   32.415344      2.56415351E+11
 shsum :  1.40642406E+10  2.56415678E+11   1.6512685      2.56415351E+11
 fin  2.56415678E+11  1.40642406E+10   18.563931    
   18.231747    
 -4.70578050E+13   18.563931    
 ezero   0.0000000    
  2.56415678E+11
  2.53490513E+14

Total energy input of :2.611E+11 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 2.564E+11 is absorbed (entot) 
                         through inelastic collisions (shsum =2.564E+11)
                                           + heating (elhsum =3.327E+05)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  18.56 eV (from qtoteV)
                                  or :  18.23 eV (from (entot))
                                  or :******* eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  55.0, longitude  30.0.

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

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

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

 MAIN : The total energy input from the precipitation source is : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]
                                  and from photoelectron source : 2.3369E+11 [eV/cm2/s]
                                                             or : 3.7442E-01 [erg/cm2/s]
 That variable "errorgaupin" is:           97

 MAIN : Total energy deposition in [CO2] is 1.825E+11 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 1.611E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 1.012E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 2.012E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 3.171E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 1.633E+00 [eV.cm-2.s-1] ("shsum").
  6.32157440E+08           2          21
  6.38999360E+08           2          23

 Total Heating :  3.182E+05 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  3.4903381E-03
 entot depart   318178.25       318178.25    
 shsum :  1.19449897E+10  1.82481584E+11  1.82481273E+11  1.82481273E+11
 shsum :  1.20771697E+10  1.98590743E+11  1.61091625E+10  1.98590431E+11
 shsum :  1.21381878E+10  2.08710140E+11  1.01193933E+10  2.08709829E+11
 shsum :  1.25755843E+10  2.28830167E+11  2.01200230E+10  2.28829856E+11
 shsum :  1.25755843E+10  2.28830167E+11   31.709150      2.28829856E+11
 shsum :  1.25755843E+10  2.28830167E+11   1.6334713      2.28829856E+11
 fin  2.28830167E+11  1.25755843E+10   18.582920    
   18.196384    
 -5.26283524E+13   18.582920    
 ezero   0.0000000    
  2.28830167E+11
  2.83208197E+14

Total energy input of :2.337E+11 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 2.288E+11 is absorbed (entot) 
                         through inelastic collisions (shsum =2.288E+11)
                                           + heating (elhsum =3.182E+05)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  18.58 eV (from qtoteV)
                                  or :  18.20 eV (from (entot))
                                  or :******* eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  60.0, longitude  30.0.

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

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

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

 MAIN : The total energy input from the precipitation source is : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]
                                  and from photoelectron source : 2.0418E+11 [eV/cm2/s]
                                                             or : 3.2714E-01 [erg/cm2/s]
 That variable "errorgaupin" is:           89

 MAIN : Total energy deposition in [CO2] is 1.568E+11 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 1.438E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 9.150E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 1.879E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 3.080E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 1.610E+00 [eV.cm-2.s-1] ("shsum").
  6.06537984E+08           2          21
  6.12974912E+08           2          23

 Total Heating :  2.999E+05 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  3.1571402E-03
 entot depart   299893.59       299893.59    
 shsum :  1.03864177E+10  1.56807053E+11  1.56806758E+11  1.56806758E+11
 shsum :  1.05059789E+10  1.71182965E+11  1.43759053E+10  1.71182670E+11
 shsum :  1.05621473E+10  1.80333445E+11  9.15047526E+09  1.80333150E+11
 shsum :  1.09748972E+10  1.99126696E+11  1.87932467E+10  1.99126401E+11
 shsum :  1.09748972E+10  1.99126696E+11   30.800797      1.99126401E+11
 shsum :  1.09748972E+10  1.99126696E+11   1.6095169      1.99126401E+11
 fin  1.99126696E+11  1.09748972E+10   18.604227    
   18.143833    
 -6.03041888E+13   18.604227    
 ezero   0.0000000    
  1.99126696E+11
  3.24142423E+14

Total energy input of :2.042E+11 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 1.991E+11 is absorbed (entot) 
                         through inelastic collisions (shsum =1.991E+11)
                                           + heating (elhsum =2.999E+05)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  18.60 eV (from qtoteV)
                                  or :  18.14 eV (from (entot))
                                  or :******* eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  45.0, longitude  35.0.

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

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

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

 MAIN : The total energy input from the precipitation source is : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]
                                  and from photoelectron source : 2.7147E+11 [eV/cm2/s]
                                                             or : 4.3495E-01 [erg/cm2/s]
 That variable "errorgaupin" is:           94

 MAIN : Total energy deposition in [CO2] is 2.157E+11 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 1.827E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 1.130E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 2.167E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 3.248E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 1.650E+00 [eV.cm-2.s-1] ("shsum").
  6.57186560E+08           2          21
  6.64221248E+08           2          23

 Total Heating :  3.355E+05 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  3.9064875E-03
 entot depart   335456.56       335456.56    
 shsum :  1.39468227E+10  2.15672537E+11  2.15672209E+11  2.15672209E+11
 shsum :  1.40947620E+10  2.33943024E+11  1.82704927E+10  2.33942696E+11
 shsum :  1.41616507E+10  2.45241725E+11  1.12987023E+10  2.45241397E+11
 shsum :  1.46276966E+10  2.66912072E+11  2.16703529E+10  2.66911744E+11
 shsum :  1.46276966E+10  2.66912072E+11   32.482094      2.66911744E+11
 shsum :  1.46276966E+10  2.66912072E+11   1.6495903      2.66911744E+11
 fin  2.66912072E+11  1.46276966E+10   18.558769    
   18.247034    
 -4.52451484E+13   18.558769    
 ezero   0.0000000    
  2.66912072E+11
  2.43793920E+14

Total energy input of :2.715E+11 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 2.669E+11 is absorbed (entot) 
                         through inelastic collisions (shsum =2.669E+11)
                                           + heating (elhsum =3.355E+05)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  18.56 eV (from qtoteV)
                                  or :  18.25 eV (from (entot))
                                  or :******* eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  50.0, longitude  35.0.

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

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

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

 MAIN : The total energy input from the precipitation source is : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]
                                  and from photoelectron source : 2.4711E+11 [eV/cm2/s]
                                                             or : 3.9591E-01 [erg/cm2/s]
 That variable "errorgaupin" is:           85

 MAIN : Total energy deposition in [CO2] is 1.942E+11 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 1.689E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 1.055E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 2.070E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 3.194E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 1.636E+00 [eV.cm-2.s-1] ("shsum").
  6.41598208E+08           2          21
  6.48505728E+08           2          23

 Total Heating :  3.240E+05 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  3.6402023E-03
 entot depart   323957.34       323957.34    
 shsum :  1.26568079E+10  1.94231484E+11  1.94231157E+11  1.94231157E+11
 shsum :  1.27946629E+10  2.11120292E+11  1.68887992E+10  2.11119964E+11
 shsum :  1.28578058E+10  2.21668458E+11  1.05481708E+10  2.21668131E+11
 shsum :  1.33058929E+10  2.42365956E+11  2.06974996E+10  2.42365628E+11
 shsum :  1.33058929E+10  2.42365956E+11   31.937292      2.42365628E+11
 shsum :  1.33058929E+10  2.42365956E+11   1.6363962      2.42365628E+11
 fin  2.42365956E+11  1.33058929E+10   18.571236    
   18.214933    
 -4.97397856E+13   18.571236    
 ezero   0.0000000    
  2.42365956E+11
  2.67832416E+14

Total energy input of :2.471E+11 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 2.424E+11 is absorbed (entot) 
                         through inelastic collisions (shsum =2.424E+11)
                                           + heating (elhsum =3.240E+05)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  18.57 eV (from qtoteV)
                                  or :  18.21 eV (from (entot))
                                  or :******* eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  55.0, longitude  35.0.

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

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

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

 MAIN : The total energy input from the precipitation source is : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]
                                  and from photoelectron source : 2.2119E+11 [eV/cm2/s]
                                                             or : 3.5439E-01 [erg/cm2/s]
 That variable "errorgaupin" is:           94

 MAIN : Total energy deposition in [CO2] is 1.716E+11 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 1.538E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 9.716E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 1.958E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 3.123E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 1.618E+00 [eV.cm-2.s-1] ("shsum").
  6.21293760E+08           2          21
  6.27934144E+08           2          23

 Total Heating :  3.094E+05 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  3.3509319E-03
 entot depart   309406.56       309406.56    
 shsum :  1.12838564E+10  1.71589747E+11  1.71589435E+11  1.71589435E+11
 shsum :  1.14107566E+10  1.86973438E+11  1.53836923E+10  1.86973127E+11
 shsum :  1.14697503E+10  1.96689002E+11  9.71557171E+09  1.96688691E+11
 shsum :  1.18970747E+10  2.16265490E+11  1.95764838E+10  2.16265179E+11
 shsum :  1.18970747E+10  2.16265490E+11   31.230324      2.16265179E+11
 shsum :  1.18970747E+10  2.16265490E+11   1.6184161      2.16265179E+11
 fin  2.16265490E+11  1.18970747E+10   18.591908    
   18.178040    
 -5.56298341E+13   18.591908    
 ezero   0.0000000    
  2.16265490E+11
  2.99215306E+14

Total energy input of :2.212E+11 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 2.163E+11 is absorbed (entot) 
                         through inelastic collisions (shsum =2.163E+11)
                                           + heating (elhsum =3.094E+05)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  18.59 eV (from qtoteV)
                                  or :  18.18 eV (from (entot))
                                  or :******* eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  60.0, longitude  35.0.

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

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

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

 MAIN : The total energy input from the precipitation source is : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]
                                  and from photoelectron source : 1.9334E+11 [eV/cm2/s]
                                                             or : 3.0976E-01 [erg/cm2/s]
 That variable "errorgaupin" is:           91

 MAIN : Total energy deposition in [CO2] is 1.474E+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 8.784E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 1.828E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 3.033E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 1.595E+00 [eV.cm-2.s-1] ("shsum").
  5.95364864E+08           2          21
  6.01615616E+08           2          23

 Total Heating :  2.913E+05 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  3.0332778E-03
 entot depart   291334.28       291334.28    
 shsum :  9.81457818E+09  1.47433603E+11  1.47433308E+11  1.47433308E+11
 shsum :  9.92944947E+09  1.61166623E+11  1.37330237E+10  1.61166328E+11
 shsum :  9.98377984E+09  1.69950773E+11  8.78415770E+09  1.69950478E+11
 shsum :  1.03869245E+10  1.88229091E+11  1.82783119E+10  1.88228796E+11
 shsum :  1.03869245E+10  1.88229091E+11   30.331467      1.88228796E+11
 shsum :  1.03869245E+10  1.88229091E+11   1.5946403      1.88228796E+11
 fin  1.88229091E+11  1.03869245E+10   18.613344    
   18.121735    
 -6.37178279E+13   18.613344    
 ezero   0.0000000    
  1.88229091E+11
  3.42323389E+14

Total energy input of :1.933E+11 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 1.882E+11 is absorbed (entot) 
                         through inelastic collisions (shsum =1.882E+11)
                                           + heating (elhsum =2.913E+05)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  18.61 eV (from qtoteV)
                                  or :  18.12 eV (from (entot))
                                  or :******* eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  45.0, longitude  40.0.

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

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

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

 MAIN : The total energy input from the precipitation source is : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]
                                  and from photoelectron source : 2.5402E+11 [eV/cm2/s]
                                                             or : 4.0699E-01 [erg/cm2/s]
 That variable "errorgaupin" is:           83

 MAIN : Total energy deposition in [CO2] is 2.003E+11 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 1.728E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 1.077E+10 [eV.cm-2.s-1] ("shsum").

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

 MAIN : Total energy deposition in [O2]  is 3.194E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 1.633E+00 [eV.cm-2.s-1] ("shsum").
  6.45065152E+08           2          21
  6.51889024E+08           2          23

 Total Heating :  3.254E+05 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  3.7164749E-03
 entot depart   325355.22       325355.22    
 shsum :  1.30219561E+10  2.00330166E+11  2.00329839E+11  2.00329839E+11
 shsum :  1.31626998E+10  2.17615024E+11  1.72848538E+10  2.17614696E+11
 shsum :  1.32269394E+10  2.28383556E+11  1.07685366E+10  2.28383228E+11
 shsum :  1.36804045E+10  2.49370984E+11  2.09874248E+10  2.49370657E+11
 shsum :  1.36804045E+10  2.49370984E+11   31.941383      2.49370657E+11
 shsum :  1.36804045E+10  2.49370984E+11   1.6333497      2.49370657E+11
 fin  2.49370984E+11  1.36804045E+10   18.567919    
   18.228334    
 -4.83781216E+13   18.567919    
 ezero   0.0000000    
  2.49370984E+11
  2.60546809E+14

Total energy input of :2.540E+11 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 2.494E+11 is absorbed (entot) 
                         through inelastic collisions (shsum =2.494E+11)
                                           + heating (elhsum =3.254E+05)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  18.57 eV (from qtoteV)
                                  or :  18.23 eV (from (entot))
                                  or :******* eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  50.0, longitude  40.0.

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

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

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

 MAIN : The total energy input from the precipitation source is : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]
                                  and from photoelectron source : 2.3158E+11 [eV/cm2/s]
                                                             or : 3.7104E-01 [erg/cm2/s]
 That variable "errorgaupin" is:           97

 MAIN : Total energy deposition in [CO2] is 1.807E+11 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 1.599E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 1.005E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 2.004E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 3.139E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 1.620E+00 [eV.cm-2.s-1] ("shsum").
  6.28898304E+08           2          21
  6.35578368E+08           2          23

 Total Heating :  3.138E+05 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  3.4677889E-03
 entot depart   313788.63       313788.63    
 shsum :  1.18328730E+10  1.80682260E+11  1.80681949E+11  1.80681949E+11
 shsum :  1.19641989E+10  1.96673274E+11  1.59910103E+10  1.96672963E+11
 shsum :  1.20248586E+10  2.06725087E+11  1.00518124E+10  2.06724776E+11
 shsum :  1.24607826E+10  2.26764341E+11  2.00392499E+10  2.26764030E+11
 shsum :  1.24607826E+10  2.26764341E+11   31.392551      2.26764030E+11
 shsum :  1.24607826E+10  2.26764341E+11   1.6198506      2.26764030E+11
 fin  2.26764341E+11  1.24607826E+10   18.584776    
   18.198242    
 -5.31132181E+13   18.584776    
 ezero   0.0000000    
  2.26764341E+11
  2.85788869E+14

Total energy input of :2.316E+11 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 2.268E+11 is absorbed (entot) 
                         through inelastic collisions (shsum =2.268E+11)
                                           + heating (elhsum =3.138E+05)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  18.58 eV (from qtoteV)
                                  or :  18.20 eV (from (entot))
                                  or :******* eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  55.0, longitude  40.0.

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

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

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

 MAIN : The total energy input from the precipitation source is : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]
                                  and from photoelectron source : 2.0705E+11 [eV/cm2/s]
                                                             or : 3.3174E-01 [erg/cm2/s]
 That variable "errorgaupin" is:           89

 MAIN : Total energy deposition in [CO2] is 1.593E+11 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 1.455E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 9.249E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 1.894E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 3.068E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 1.602E+00 [eV.cm-2.s-1] ("shsum").
  6.08170304E+08           2          21
  6.14569024E+08           2          23

 Total Heating :  2.993E+05 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  3.1909838E-03
 entot depart   299268.88       299268.88    
 shsum :  1.05374188E+10  1.59322604E+11  1.59322309E+11  1.59322309E+11
 shsum :  1.06582620E+10  1.73874889E+11  1.45522780E+10  1.73874594E+11
 shsum :  1.07149128E+10  1.83124001E+11  9.24911309E+09  1.83123706E+11
 shsum :  1.11303188E+10  2.02059334E+11  1.89353349E+10  2.02059039E+11
 shsum :  1.11303188E+10  2.02059334E+11   30.683847      2.02059039E+11
 shsum :  1.11303188E+10  2.02059334E+11   1.6015794      2.02059039E+11
 fin  2.02059334E+11  1.11303188E+10   18.602602    
   18.153957    
 -5.94621151E+13   18.602602    
 ezero   0.0000000    
  2.02059334E+11
  3.19644049E+14

Total energy input of :2.071E+11 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 2.021E+11 is absorbed (entot) 
                         through inelastic collisions (shsum =2.021E+11)
                                           + heating (elhsum =2.993E+05)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  18.60 eV (from qtoteV)
                                  or :  18.15 eV (from (entot))
                                  or :******* eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  60.0, longitude  40.0.

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

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

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

 MAIN : The total energy input from the precipitation source is : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]
                                  and from photoelectron source : 1.8108E+11 [eV/cm2/s]
                                                             or : 2.9012E-01 [erg/cm2/s]
 That variable "errorgaupin" is:           82

 MAIN : Total energy deposition in [CO2] is 1.369E+11 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 1.299E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 8.361E+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 2.980E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 1.578E+00 [eV.cm-2.s-1] ("shsum").
  5.81835328E+08           2          21
  5.87856832E+08           2          23

 Total Heating :  2.814E+05 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  2.8898902E-03
 entot depart   281432.88       281432.88    
 shsum :  9.16956160E+09  1.36894964E+11  1.36894685E+11  1.36894685E+11
 shsum :  9.27900262E+09  1.49885420E+11  1.29904558E+10  1.49885141E+11
 shsum :  9.33119898E+09  1.58246371E+11  8.36095334E+09  1.58246093E+11
 shsum :  9.72288614E+09  1.75913419E+11  1.76670433E+10  1.75913140E+11
 shsum :  9.72288614E+09  1.75913419E+11   29.795193      1.75913140E+11
 shsum :  9.72288614E+09  1.75913419E+11   1.5779243      1.75913140E+11
 fin  1.75913419E+11  9.72288614E+09   18.623995    
   18.092716    
 -6.80695274E+13   18.623995    
 ezero   0.0000000    
  1.75913419E+11
  3.65493697E+14

Total energy input of :1.811E+11 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 1.759E+11 is absorbed (entot) 
                         through inelastic collisions (shsum =1.759E+11)
                                           + heating (elhsum =2.814E+05)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  18.62 eV (from qtoteV)
                                  or :  18.09 eV (from (entot))
                                  or :******* eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  45.0, longitude  45.0.

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

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

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

 MAIN : The total energy input from the precipitation source is : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]
                                  and from photoelectron source : 2.3489E+11 [eV/cm2/s]
                                                             or : 3.7635E-01 [erg/cm2/s]
 That variable "errorgaupin" is:           85

 MAIN : Total energy deposition in [CO2] is 1.836E+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 2.019E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 3.132E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 1.615E+00 [eV.cm-2.s-1] ("shsum").
  6.30216064E+08           2          21
  6.36779968E+08           2          23

 Total Heating :  3.136E+05 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  3.5052672E-03
 entot depart   313629.59       313629.59    
 shsum :  1.20093676E+10  1.83603986E+11  1.83603675E+11  1.83603675E+11
 shsum :  1.21421128E+10  1.99791690E+11  1.61877043E+10  1.99791378E+11
 shsum :  1.22033541E+10  2.09960075E+11  1.01683917E+10  2.09959764E+11
 shsum :  1.26421473E+10  2.30153486E+11  2.01934152E+10  2.30153175E+11
 shsum :  1.26421473E+10  2.30153486E+11   31.322212      2.30153175E+11
 shsum :  1.26421473E+10  2.30153486E+11   1.6150384      2.30153175E+11
 fin  2.30153486E+11  1.26421473E+10   18.580269    
   18.205254    
 -5.23512557E+13   18.580269    
 ezero   0.0000000    
  2.30153486E+11
  2.81757237E+14

Total energy input of :2.349E+11 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 2.302E+11 is absorbed (entot) 
                         through inelastic collisions (shsum =2.302E+11)
                                           + heating (elhsum =3.136E+05)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  18.58 eV (from qtoteV)
                                  or :  18.21 eV (from (entot))
                                  or :******* eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  50.0, longitude  45.0.

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

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

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

 MAIN : The total energy input from the precipitation source is : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]
                                  and from photoelectron source : 2.1398E+11 [eV/cm2/s]
                                                             or : 3.4283E-01 [erg/cm2/s]
 That variable "errorgaupin" is:           88

 MAIN : Total energy deposition in [CO2] is 1.654E+11 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 1.496E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 9.482E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 1.926E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 3.077E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 1.601E+00 [eV.cm-2.s-1] ("shsum").
  6.13507392E+08           2          21
  6.19928064E+08           2          23

 Total Heating :  3.020E+05 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  3.2699280E-03
 entot depart   301992.09       301992.09    
 shsum :  1.09025075E+10  1.65363565E+11  1.65363270E+11  1.65363270E+11
 shsum :  1.10263398E+10  1.80326531E+11  1.49629583E+10  1.80326236E+11
 shsum :  1.10841467E+10  1.89808476E+11  9.48195123E+09  1.89808181E+11
 shsum :  1.15056476E+10  2.09070457E+11  1.92619848E+10  2.09070162E+11
 shsum :  1.15056476E+10  2.09070457E+11   30.766022      2.09070162E+11
 shsum :  1.15056476E+10  2.09070457E+11   1.6010706      2.09070162E+11
 fin  2.09070457E+11  1.15056476E+10   18.597408    
   18.171116    
 -5.75223837E+13   18.597408    
 ezero   0.0000000    
  2.09070457E+11
  3.09303211E+14

Total energy input of :2.140E+11 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 2.091E+11 is absorbed (entot) 
                         through inelastic collisions (shsum =2.091E+11)
                                           + heating (elhsum =3.020E+05)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  18.60 eV (from qtoteV)
                                  or :  18.17 eV (from (entot))
                                  or :******* eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  55.0, longitude  45.0.

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

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

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

 MAIN : The total energy input from the precipitation source is : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]
                                  and from photoelectron source : 1.9141E+11 [eV/cm2/s]
                                                             or : 3.0667E-01 [erg/cm2/s]
 That variable "errorgaupin" is:           81

 MAIN : Total energy deposition in [CO2] is 1.458E+11 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 1.362E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 8.720E+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 3.006E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 1.583E+00 [eV.cm-2.s-1] ("shsum").
  5.92345984E+08           2          21
  5.98491008E+08           2          23

 Total Heating :  2.876E+05 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  3.0109370E-03
 entot depart   287600.38       287600.38    
 shsum :  9.71285299E+09  1.45811128E+11  1.45810833E+11  1.45810833E+11
 shsum :  9.82687744E+09  1.59428805E+11  1.36176691E+10  1.59428510E+11
 shsum :  9.88086477E+09  1.68148697E+11  8.71989965E+09  1.68148402E+11
 shsum :  1.02823342E+10  1.86337477E+11  1.81887754E+10  1.86337182E+11
 shsum :  1.02823342E+10  1.86337477E+11   30.060474      1.86337182E+11
 shsum :  1.02823342E+10  1.86337477E+11   1.5826446      1.86337182E+11
 fin  1.86337477E+11  1.02823342E+10   18.615211    
   18.122099    
 -6.43659570E+13   18.615211    
 ezero   0.0000000    
  1.86337477E+11
  3.45770738E+14

Total energy input of :1.914E+11 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 1.863E+11 is absorbed (entot) 
                         through inelastic collisions (shsum =1.863E+11)
                                           + heating (elhsum =2.876E+05)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  18.62 eV (from qtoteV)
                                  or :  18.12 eV (from (entot))
                                  or :******* eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  60.0, longitude  45.0.

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

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

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

 MAIN : The total energy input from the precipitation source is : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]
                                  and from photoelectron source : 1.6752E+11 [eV/cm2/s]
                                                             or : 2.6840E-01 [erg/cm2/s]
 That variable "errorgaupin" is:           78

 MAIN : Total energy deposition in [CO2] is 1.253E+11 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 1.216E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 7.880E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 1.696E+10 [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 1.529E+00 [eV.cm-2.s-1] ("shsum").
  5.65661184E+08           2          21
  5.71413696E+08           2          23

 Total Heating :  2.682E+05 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  2.7291165E-03
 entot depart   268213.47       268213.47    
 shsum :  8.45750221E+09  1.25296796E+11  1.25296525E+11  1.25296525E+11
 shsum :  8.56085453E+09  1.37454535E+11  1.21577462E+10  1.37454273E+11
 shsum :  8.61061837E+09  1.45334829E+11  7.88029389E+09  1.45334567E+11
 shsum :  8.98895770E+09  1.62292580E+11  1.69577452E+10  1.62292318E+11
 shsum :  8.98895770E+09  1.62292580E+11   28.640972      1.62292318E+11
 shsum :  8.98895770E+09  1.62292580E+11   1.5294344      1.62292318E+11
 fin  1.62292580E+11  8.98895770E+09   18.636400    
   18.054661    
 -7.36272570E+13   18.636400    
 ezero   0.0000000    
  1.62292580E+11
  3.95072298E+14

Total energy input of :1.675E+11 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 1.623E+11 is absorbed (entot) 
                         through inelastic collisions (shsum =1.623E+11)
                                           + heating (elhsum =2.682E+05)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  18.64 eV (from qtoteV)
                                  or :  18.05 eV (from (entot))
                                  or :******* eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  45.0, longitude  50.0.

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

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

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

 MAIN : The total energy input from the precipitation source is : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]
                                  and from photoelectron source : 2.1387E+11 [eV/cm2/s]
                                                             or : 3.4267E-01 [erg/cm2/s]
 That variable "errorgaupin" is:           90

 MAIN : Total energy deposition in [CO2] is 1.653E+11 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 1.496E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 9.486E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 1.927E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 3.005E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 1.564E+00 [eV.cm-2.s-1] ("shsum").
  6.12163136E+08           2          21
  6.18406016E+08           2          23

 Total Heating :  2.980E+05 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  3.2691709E-03
 entot depart   297987.94       297987.94    
 shsum :  1.08968817E+10  1.65310562E+11  1.65310267E+11  1.65310267E+11
 shsum :  1.10206853E+10  1.80270678E+11  1.49601178E+10  1.80270383E+11
 shsum :  1.10785157E+10  1.89756916E+11  9.48623872E+09  1.89756621E+11
 shsum :  1.15001027E+10  2.09022714E+11  1.92657940E+10  2.09022419E+11
 shsum :  1.15001027E+10  2.09022714E+11   30.054964      2.09022419E+11
 shsum :  1.15001027E+10  2.09022714E+11   1.5640962      2.09022419E+11
 fin  2.09022714E+11  1.15001027E+10   18.597414    
   18.175726    
 -5.75501207E+13   18.597414    
 ezero   0.0000000    
  2.09022714E+11
  3.09452259E+14

Total energy input of :2.139E+11 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 2.090E+11 is absorbed (entot) 
                         through inelastic collisions (shsum =2.090E+11)
                                           + heating (elhsum =2.980E+05)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  18.60 eV (from qtoteV)
                                  or :  18.18 eV (from (entot))
                                  or :******* eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  50.0, longitude  50.0.

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

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

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

 MAIN : The total energy input from the precipitation source is : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]
                                  and from photoelectron source : 1.9482E+11 [eV/cm2/s]
                                                             or : 3.1215E-01 [erg/cm2/s]
 That variable "errorgaupin" is:           97

 MAIN : Total energy deposition in [CO2] is 1.488E+11 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 1.382E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 8.842E+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 2.950E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 1.550E+00 [eV.cm-2.s-1] ("shsum").
  5.94941888E+08           2          21
  6.01052416E+08           2          23

 Total Heating :  2.864E+05 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  3.0507257E-03
 entot depart   286449.41       286449.41    
 shsum :  9.89262029E+09  1.48791542E+11  1.48791263E+11  1.48791263E+11
 shsum :  1.00081521E+10  1.62616476E+11  1.38249329E+10  1.62616197E+11
 shsum :  1.00627497E+10  1.71458609E+11  8.84213862E+09  1.71458331E+11
 shsum :  1.04675021E+10  1.89822206E+11  1.83636009E+10  1.89821927E+11
 shsum :  1.04675021E+10  1.89822206E+11   29.499748      1.89821927E+11
 shsum :  1.04675021E+10  1.89822206E+11   1.5498691      1.89821927E+11
 fin  1.89822206E+11  1.04675021E+10   18.612301    
   18.134432    
 -6.32273376E+13   18.612301    
 ezero   0.0000000    
  1.89822206E+11
  3.39707251E+14

Total energy input of :1.948E+11 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 1.898E+11 is absorbed (entot) 
                         through inelastic collisions (shsum =1.898E+11)
                                           + heating (elhsum =2.864E+05)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  18.61 eV (from qtoteV)
                                  or :  18.13 eV (from (entot))
                                  or :******* eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  55.0, longitude  50.0.

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

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

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

 MAIN : The total energy input from the precipitation source is : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]
                                  and from photoelectron source : 1.7440E+11 [eV/cm2/s]
                                                             or : 2.7942E-01 [erg/cm2/s]
 That variable "errorgaupin" is:           80

 MAIN : Total energy deposition in [CO2] is 1.312E+11 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 1.258E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 8.127E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 1.733E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 2.880E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 1.531E+00 [eV.cm-2.s-1] ("shsum").
  5.73328704E+08           2          21
  5.79160640E+08           2          23

 Total Heating :  2.723E+05 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  2.8111674E-03
 entot depart   272312.56       272312.56    
 shsum :  8.81840026E+09  1.31207660E+11  1.31207389E+11  1.31207389E+11
 shsum :  8.92485939E+09  1.43790342E+11  1.25826765E+10  1.43790064E+11
 shsum :  8.97585459E+09  1.51917298E+11  8.12695706E+09  1.51917019E+11
 shsum :  9.36115610E+09  1.69244508E+11  1.73272084E+10  1.69244230E+11
 shsum :  9.36115610E+09  1.69244508E+11   28.803404      1.69244230E+11
 shsum :  9.36115610E+09  1.69244508E+11   1.5314233      1.69244230E+11
 fin  1.69244508E+11  9.36115610E+09   18.629974    
   18.079445    
 -7.06998425E+13   18.629974    
 ezero   0.0000000    
  1.69244508E+11
  3.79495123E+14

Total energy input of :1.744E+11 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 1.692E+11 is absorbed (entot) 
                         through inelastic collisions (shsum =1.692E+11)
                                           + heating (elhsum =2.723E+05)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  18.63 eV (from qtoteV)
                                  or :  18.08 eV (from (entot))
                                  or :******* eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  60.0, longitude  50.0.

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

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

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

 MAIN : The total energy input from the precipitation source is : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]
                                  and from photoelectron source : 1.5279E+11 [eV/cm2/s]
                                                             or : 2.4480E-01 [erg/cm2/s]
 That variable "errorgaupin" is:           91

 MAIN : Total energy deposition in [CO2] is 1.128E+11 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 1.124E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 7.342E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 1.614E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 2.794E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 1.508E+00 [eV.cm-2.s-1] ("shsum").
  5.46240512E+08           2          21
  5.51709760E+08           2          23

 Total Heating :  2.552E+05 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  2.5504562E-03
 entot depart   255222.03       255222.03    
 shsum :  7.68581683E+09  1.12777937E+11  1.12777683E+11  1.12777683E+11
 shsum :  7.78240307E+09  1.24013593E+11  1.12356516E+10  1.24013330E+11
 shsum :  7.82942771E+09  1.31355263E+11  7.34167091E+09  1.31355001E+11
 shsum :  8.19229901E+09  1.47496010E+11  1.61407468E+10  1.47495748E+11
 shsum :  8.19229901E+09  1.47496010E+11   27.944973      1.47495748E+11
 shsum :  8.19229901E+09  1.47496010E+11   1.5081019      1.47495748E+11
 fin  1.47496010E+11  8.19229901E+09   18.650772    
   18.004227    
 -8.07871269E+13   18.650772    
 ezero   0.0000000    
  1.47496010E+11
  4.33157015E+14

Total energy input of :1.528E+11 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 1.475E+11 is absorbed (entot) 
                         through inelastic collisions (shsum =1.475E+11)
                                           + heating (elhsum =2.552E+05)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  18.65 eV (from qtoteV)
                                  or :  18.00 eV (from (entot))
                                  or :******* eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  45.0, longitude  55.0.

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

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

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

 MAIN : The total energy input from the precipitation source is : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]
                                  and from photoelectron source : 1.9122E+11 [eV/cm2/s]
                                                             or : 3.0637E-01 [erg/cm2/s]
 That variable "errorgaupin" is:           89

 MAIN : Total energy deposition in [CO2] is 1.457E+11 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 1.361E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 8.725E+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 2.923E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 1.540E+00 [eV.cm-2.s-1] ("shsum").
  5.90058496E+08           2          21
  5.95941824E+08           2          23

 Total Heating :  2.822E+05 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  3.0093738E-03
 entot depart   282187.63       282187.63    
 shsum :  9.70255770E+09  1.45714692E+11  1.45714414E+11  1.45714414E+11
 shsum :  9.81652275E+09  1.59326487E+11  1.36117883E+10  1.59326208E+11
 shsum :  9.87053158E+09  1.68051409E+11  8.72492339E+09  1.68051130E+11
 shsum :  1.02721475E+10  1.86246758E+11  1.81953577E+10  1.86246496E+11
 shsum :  1.02721475E+10  1.86246758E+11   29.229191      1.86246496E+11
 shsum :  1.02721475E+10  1.86246758E+11   1.5398524      1.86246496E+11
 fin  1.86246758E+11  1.02721475E+10   18.615023    
   18.131239    
 -6.44297901E+13   18.615023    
 ezero   0.0000000    
  1.86246758E+11
  3.46117154E+14

Total energy input of :1.912E+11 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 1.862E+11 is absorbed (entot) 
                         through inelastic collisions (shsum =1.862E+11)
                                           + heating (elhsum =2.822E+05)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  18.62 eV (from qtoteV)
                                  or :  18.13 eV (from (entot))
                                  or :******* eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  50.0, longitude  55.0.

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

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

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

 MAIN : The total energy input from the precipitation source is : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]
                                  and from photoelectron source : 1.7431E+11 [eV/cm2/s]
                                                             or : 2.7928E-01 [erg/cm2/s]
 That variable "errorgaupin" is:           91

 MAIN : Total energy deposition in [CO2] is 1.312E+11 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 1.258E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 8.130E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 1.733E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 2.867E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 1.525E+00 [eV.cm-2.s-1] ("shsum").
  5.72332608E+08           2          21
  5.78088448E+08           2          23

 Total Heating :  2.708E+05 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  2.8103213E-03
 entot depart   270774.69       270774.69    
 shsum :  8.81359360E+09  1.31161596E+11  1.31161326E+11  1.31161326E+11
 shsum :  8.92002099E+09  1.43740830E+11  1.25792358E+10  1.43740568E+11
 shsum :  8.97103053E+09  1.51870783E+11  8.12994714E+09  1.51870521E+11
 shsum :  9.35639347E+09  1.69200746E+11  1.73299692E+10  1.69200484E+11
 shsum :  9.35639347E+09  1.69200746E+11   28.674847      1.69200484E+11
 shsum :  9.35639347E+09  1.69200746E+11   1.5253414      1.69200484E+11
 fin  1.69200746E+11  9.35639347E+09   18.629789    
   18.083971    
 -7.07358297E+13   18.629789    
 ezero   0.0000000    
  1.69200746E+11
  3.79692054E+14

Total energy input of :1.743E+11 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 1.692E+11 is absorbed (entot) 
                         through inelastic collisions (shsum =1.692E+11)
                                           + heating (elhsum =2.708E+05)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  18.63 eV (from qtoteV)
                                  or :  18.08 eV (from (entot))
                                  or :******* eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  55.0, longitude  55.0.

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

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

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

 MAIN : The total energy input from the precipitation source is : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]
                                  and from photoelectron source : 1.5619E+11 [eV/cm2/s]
                                                             or : 2.5024E-01 [erg/cm2/s]
 That variable "errorgaupin" is:           97

 MAIN : Total energy deposition in [CO2] is 1.157E+11 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 1.145E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 7.469E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 1.634E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 2.799E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 1.507E+00 [eV.cm-2.s-1] ("shsum").
  5.50316800E+08           2          21
  5.55817024E+08           2          23

 Total Heating :  2.569E+05 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  2.5918102E-03
 entot depart   256926.48       256926.48    
 shsum :  7.86353562E+09  1.15689595E+11  1.15689341E+11  1.15689341E+11
 shsum :  7.96168806E+09  1.27139439E+11  1.14498458E+10  1.27139185E+11
 shsum :  8.00934605E+09  1.34608339E+11  7.46890138E+09  1.34608085E+11
 shsum :  8.37596211E+09  1.50946447E+11  1.63381156E+10  1.50946202E+11
 shsum :  8.37596211E+09  1.50946447E+11   27.986517      1.50946202E+11
 shsum :  8.37596211E+09  1.50946447E+11   1.5068027      1.50946202E+11
 fin  1.50946447E+11  8.37596211E+09   18.647102    
   18.021385    
 -7.90156710E+13   18.647102    
 ezero   0.0000000    
  1.50946447E+11
  4.23742346E+14

Total energy input of :1.562E+11 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 1.509E+11 is absorbed (entot) 
                         through inelastic collisions (shsum =1.509E+11)
                                           + heating (elhsum =2.569E+05)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  18.65 eV (from qtoteV)
                                  or :  18.02 eV (from (entot))
                                  or :******* eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  60.0, longitude  55.0.

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

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

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

 MAIN : The total energy input from the precipitation source is : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]
                                  and from photoelectron source : 1.3704E+11 [eV/cm2/s]
                                                             or : 2.1956E-01 [erg/cm2/s]
 That variable "errorgaupin" is:           82

 MAIN : Total energy deposition in [CO2] is 9.950E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 1.023E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 6.744E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 1.521E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 2.715E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 1.484E+00 [eV.cm-2.s-1] ("shsum").
  5.22947552E+08           2          21
  5.28078528E+08           2          23

 Total Heating :  2.403E+05 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  2.3539553E-03
 entot depart   240326.02       240326.02    
 shsum :  6.86299443E+09  9.94971402E+10  9.94969027E+10  9.94969027E+10
 shsum :  6.95213926E+09  1.09723886E+11  1.02267474E+10  1.09723648E+11
 shsum :  6.99610163E+09  1.16468072E+11  6.74418893E+09  1.16467835E+11
 shsum :  7.34112717E+09  1.31673293E+11  1.52052234E+10  1.31673055E+11
 shsum :  7.34112717E+09  1.31673293E+11   27.145088      1.31673055E+11
 shsum :  7.34112717E+09  1.31673293E+11   1.4836010      1.31673055E+11
 fin  1.31673293E+11  7.34112717E+09   18.667189    
   17.936386    
 -9.01540395E+13   18.667189    
 ezero   0.0000000    
  1.31673293E+11
  4.82954543E+14

Total energy input of :1.370E+11 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 1.317E+11 is absorbed (entot) 
                         through inelastic collisions (shsum =1.317E+11)
                                           + heating (elhsum =2.403E+05)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  18.67 eV (from qtoteV)
                                  or :  17.94 eV (from (entot))
                                  or :******* eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  45.0, longitude  60.0.

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

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

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

 MAIN : The total energy input from the precipitation source is : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]
                                  and from photoelectron source : 1.6726E+11 [eV/cm2/s]
                                                             or : 2.6799E-01 [erg/cm2/s]
 That variable "errorgaupin" is:           97

 MAIN : Total energy deposition in [CO2] is 1.252E+11 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 1.215E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 7.883E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 1.696E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 2.826E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 1.511E+00 [eV.cm-2.s-1] ("shsum").
  5.62844160E+08           2          21
  5.68331840E+08           2          23

 Total Heating :  2.638E+05 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  2.7267379E-03
 entot depart   263757.63       263757.63    
 shsum :  8.44379392E+09  1.25169607E+11  1.25169345E+11  1.25169345E+11
 shsum :  8.54705613E+09  1.37317999E+11  1.21483899E+10  1.37317736E+11
 shsum :  8.59681690E+09  1.45201185E+11  7.88319078E+09  1.45200923E+11
 shsum :  8.97527603E+09  1.62164425E+11  1.69632440E+10  1.62164163E+11
 shsum :  8.97527603E+09  1.62164425E+11   28.264057      1.62164163E+11
 shsum :  8.97527603E+09  1.62164425E+11   1.5114007      1.62164163E+11
 fin  1.62164425E+11  8.97527603E+09   18.635799    
   18.067904    
 -7.37394882E+13   18.635799    
 ezero   0.0000000    
  1.62164425E+11
  3.95687317E+14

Total energy input of :1.673E+11 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 1.622E+11 is absorbed (entot) 
                         through inelastic collisions (shsum =1.622E+11)
                                           + heating (elhsum =2.638E+05)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  18.64 eV (from qtoteV)
                                  or :  18.07 eV (from (entot))
                                  or :******* eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  50.0, longitude  60.0.

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

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

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

 MAIN : The total energy input from the precipitation source is : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]
                                  and from photoelectron source : 1.5263E+11 [eV/cm2/s]
                                                             or : 2.4454E-01 [erg/cm2/s]
 That variable "errorgaupin" is:          104

 MAIN : Total energy deposition in [CO2] is 1.127E+11 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 1.123E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 7.343E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 1.614E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 2.771E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 1.497E+00 [eV.cm-2.s-1] ("shsum").
  5.44713472E+08           2          21
  5.50069760E+08           2          23

 Total Heating :  2.526E+05 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  2.5484487E-03
 entot depart   252575.95       252575.95    
 shsum :  7.67737856E+09  1.12700957E+11  1.12700703E+11  1.12700703E+11
 shsum :  7.77388902E+09  1.23928470E+11  1.12275159E+10  1.23928216E+11
 shsum :  7.82090701E+09  1.31271516E+11  7.34304666E+09  1.31271262E+11
 shsum :  8.18382131E+09  1.47414221E+11  1.61427067E+10  1.47413975E+11
 shsum :  8.18382131E+09  1.47414221E+11   27.713472      1.47413975E+11
 shsum :  8.18382131E+09  1.47414221E+11   1.4966364      1.47413975E+11
 fin  1.47414221E+11  8.18382131E+09   18.650190    
   18.012884    
 -8.08708116E+13   18.650190    
 ezero   0.0000000    
  1.47414221E+11
  4.33619261E+14

Total energy input of :1.526E+11 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 1.474E+11 is absorbed (entot) 
                         through inelastic collisions (shsum =1.474E+11)
                                           + heating (elhsum =2.526E+05)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  18.65 eV (from qtoteV)
                                  or :  18.01 eV (from (entot))
                                  or :******* eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  55.0, longitude  60.0.

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

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

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

 MAIN : The total energy input from the precipitation source is : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]
                                  and from photoelectron source : 1.3696E+11 [eV/cm2/s]
                                                             or : 2.1944E-01 [erg/cm2/s]
 That variable "errorgaupin" is:          107

 MAIN : Total energy deposition in [CO2] is 9.946E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 1.022E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 6.744E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 1.521E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 2.704E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 1.478E+00 [eV.cm-2.s-1] ("shsum").
  5.22382080E+08           2          21
  5.27473984E+08           2          23

 Total Heating :  2.392E+05 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  2.3526400E-03
 entot depart   239157.69       239157.69    
 shsum :  6.85922458E+09  9.94647900E+10  9.94645524E+10  9.94645524E+10
 shsum :  6.94831923E+09  1.09686186E+11  1.02213980E+10  1.09685948E+11
 shsum :  6.99227034E+09  1.16430184E+11  6.74399693E+09  1.16429947E+11
 shsum :  7.33730662E+09  1.31635782E+11  1.52055992E+10  1.31635544E+11
 shsum :  7.33730662E+09  1.31635782E+11   27.037067      1.31635544E+11
 shsum :  7.33730662E+09  1.31635782E+11   1.4780517      1.31635544E+11
 fin  1.31635782E+11  7.33730662E+09   18.666803    
   17.940613    
 -9.02009822E+13   18.666803    
 ezero   0.0000000    
  1.31635782E+11
  4.83216067E+14

Total energy input of :1.370E+11 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 1.316E+11 is absorbed (entot) 
                         through inelastic collisions (shsum =1.316E+11)
                                           + heating (elhsum =2.392E+05)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  18.67 eV (from qtoteV)
                                  or :  17.94 eV (from (entot))
                                  or :******* eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  60.0, longitude  60.0.

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

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

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

 MAIN : The total energy input from the precipitation source is : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]
                                  and from photoelectron source : 1.2043E+11 [eV/cm2/s]
                                                             or : 1.9295E-01 [erg/cm2/s]
 That variable "errorgaupin" is:           87

 MAIN : Total energy deposition in [CO2] is 8.564E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 9.134E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 6.087E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 1.414E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 2.622E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 1.455E+00 [eV.cm-2.s-1] ("shsum").
  4.94928832E+08           2          21
  4.99694816E+08           2          23

 Total Heating :  2.232E+05 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  2.1394526E-03
 entot depart   223219.98       223219.98    
 shsum :  5.99889408E+09  8.56405279E+10  8.56403067E+10  8.56403067E+10
 shsum :  6.07991552E+09  9.47744031E+10  9.13387418E+09  9.47741819E+10
 shsum :  6.12047258E+09  1.00861395E+11  6.08699085E+09  1.00861174E+11
 shsum :  6.44494182E+09  1.14999198E+11  1.41378058E+10  1.14998977E+11
 shsum :  6.44494182E+09  1.14999198E+11   26.217882      1.14998977E+11
 shsum :  6.44494182E+09  1.14999198E+11   1.4550350      1.14998977E+11
 fin  1.14999198E+11  6.44494182E+09   18.685654    
   17.843327    
 -1.02690185E+14   18.685654    
 ezero   0.0000000    
  1.14999198E+11
  5.49566970E+14

Total energy input of :1.204E+11 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 1.150E+11 is absorbed (entot) 
                         through inelastic collisions (shsum =1.150E+11)
                                           + heating (elhsum =2.232E+05)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  18.69 eV (from qtoteV)
                                  or :  17.84 eV (from (entot))
                                  or :******* eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  45.0, longitude  65.0.

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

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

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

 MAIN : The total energy input from the precipitation source is : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]
                                  and from photoelectron source : 1.4226E+11 [eV/cm2/s]
                                                             or : 2.2793E-01 [erg/cm2/s]
 That variable "errorgaupin" is:           87

 MAIN : Total energy deposition in [CO2] is 1.040E+11 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 1.057E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 6.957E+09 [eV.cm-2.s-1] ("shsum").

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

 MAIN : Total energy deposition in [O2]  is 2.712E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 1.477E+00 [eV.cm-2.s-1] ("shsum").
  5.28978112E+08           2          21
  5.33993248E+08           2          23

 Total Heating :  2.421E+05 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  2.4203705E-03
 entot depart   242098.91       242098.91    
 shsum :  7.13575117E+09  1.03968662E+11  1.03968416E+11  1.03968416E+11
 shsum :  7.22741094E+09  1.14539160E+11  1.05704980E+10  1.14538914E+11
 shsum :  7.27245517E+09  1.21496052E+11  6.95688960E+09  1.21495806E+11
 shsum :  7.62394163E+09  1.37038201E+11  1.55421460E+10  1.37037955E+11
 shsum :  7.62394163E+09  1.37038201E+11   27.119301      1.37037955E+11
 shsum :  7.62394163E+09  1.37038201E+11   1.4772770      1.37037955E+11
 fin  1.37038201E+11  7.62394163E+09   18.660093    
   17.974718    
 -8.68097280E+13   18.660093    
 ezero   0.0000000    
  1.37038201E+11
  4.65215892E+14

Total energy input of :1.423E+11 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 1.370E+11 is absorbed (entot) 
                         through inelastic collisions (shsum =1.370E+11)
                                           + heating (elhsum =2.421E+05)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  18.66 eV (from qtoteV)
                                  or :  17.97 eV (from (entot))
                                  or :******* eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  50.0, longitude  65.0.

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

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

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

 MAIN : The total energy input from the precipitation source is : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]
                                  and from photoelectron source : 1.3003E+11 [eV/cm2/s]
                                                             or : 2.0833E-01 [erg/cm2/s]
 That variable "errorgaupin" is:           93

 MAIN : Total energy deposition in [CO2] is 9.368E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 9.771E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 6.478E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 1.478E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 2.658E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 1.462E+00 [eV.cm-2.s-1] ("shsum").
  5.10580352E+08           2          21
  5.15456544E+08           2          23

 Total Heating :  2.313E+05 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  2.2643018E-03
 entot depart   231312.13       231312.13    
 shsum :  6.49814426E+09  9.36829993E+10  9.36827699E+10  9.36827699E+10
 shsum :  6.58389402E+09  1.03454253E+11  9.77125069E+09  1.03454024E+11
 shsum :  6.62647501E+09  1.09932462E+11  6.47820544E+09  1.09932233E+11
 shsum :  6.96329216E+09  1.24709618E+11  1.47771535E+10  1.24709388E+11
 shsum :  6.96329216E+09  1.24709618E+11   26.577061      1.24709388E+11
 shsum :  6.96329216E+09  1.24709618E+11   1.4623095      1.24709388E+11
 fin  1.24709618E+11  6.96329216E+09   18.673660    
   17.909576    
 -9.50458898E+13   18.673660    
 ezero   0.0000000    
  1.24709618E+11
  5.08983656E+14

Total energy input of :1.300E+11 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 1.247E+11 is absorbed (entot) 
                         through inelastic collisions (shsum =1.247E+11)
                                           + heating (elhsum =2.313E+05)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  18.67 eV (from qtoteV)
                                  or :  17.91 eV (from (entot))
                                  or :******* eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  55.0, longitude  65.0.

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

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

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

 MAIN : The total energy input from the precipitation source is : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]
                                  and from photoelectron source : 1.1695E+11 [eV/cm2/s]
                                                             or : 1.8737E-01 [erg/cm2/s]
 That variable "errorgaupin" is:           95

 MAIN : Total energy deposition in [CO2] is 8.279E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 8.900E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 5.948E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 1.391E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 2.592E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 1.444E+00 [eV.cm-2.s-1] ("shsum").
  4.88168736E+08           2          21
  4.92810048E+08           2          23

 Total Heating :  2.185E+05 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  2.0929803E-03
 entot depart   218521.63       218521.63    
 shsum :  5.81854106E+09  8.27861074E+10  8.27858862E+10  8.27858862E+10
 shsum :  5.89780275E+09  9.16862157E+10  8.90010829E+09  9.16859945E+10
 shsum :  5.93762406E+09  9.76340664E+10  5.94785434E+09  9.76338452E+10
 shsum :  6.25760768E+09  1.11540470E+11  1.39064054E+10  1.11540249E+11
 shsum :  6.25760768E+09  1.11540470E+11   25.919630      1.11540249E+11
 shsum :  6.25760768E+09  1.11540470E+11   1.4437706      1.11540249E+11
 fin  1.11540470E+11  6.25760768E+09   18.688990    
   17.824778    
 -1.05764425E+14   18.688990    
 ezero   0.0000000    
  1.11540470E+11
  5.65918380E+14

Total energy input of :1.169E+11 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 1.115E+11 is absorbed (entot) 
                         through inelastic collisions (shsum =1.115E+11)
                                           + heating (elhsum =2.185E+05)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  18.69 eV (from qtoteV)
                                  or :  17.82 eV (from (entot))
                                  or :******* eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  60.0, longitude  65.0.

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

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

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

 MAIN : The total energy input from the precipitation source is : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]
                                  and from photoelectron source : 1.0316E+11 [eV/cm2/s]
                                                             or : 1.6529E-01 [erg/cm2/s]
 That variable "errorgaupin" is:          110

 MAIN : Total energy deposition in [CO2] is 7.143E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 7.961E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 5.369E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 1.292E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 2.513E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 1.421E+00 [eV.cm-2.s-1] ("shsum").
  4.61076352E+08           2          21
  4.65420128E+08           2          23

 Total Heating :  2.035E+05 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  1.9064717E-03
 entot depart   203522.83       203522.83    
 shsum :  5.10521856E+09  7.14315121E+10  7.14313073E+10  7.14313073E+10
 shsum :  5.17741722E+09  7.93921700E+10  7.96065792E+09  7.93919652E+10
 shsum :  5.21419469E+09  8.47613379E+10  5.36916890E+09  8.47611331E+10
 shsum :  5.51494656E+09  9.76826941E+10  1.29213563E+10  9.76824893E+10
 shsum :  5.51494656E+09  9.76826941E+10   25.129944      9.76824893E+10
 shsum :  5.51494656E+09  9.76826941E+10   1.4210551      9.76824893E+10
 fin  9.76826941E+10  5.51494656E+09   18.705812    
   17.712355    
 -1.20007015E+14   18.705812    
 ezero   0.0000000    
  9.76826941E+10
  6.41549331E+14

Total energy input of :1.032E+11 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 9.768E+10 is absorbed (entot) 
                         through inelastic collisions (shsum =9.768E+10)
                                           + heating (elhsum =2.035E+05)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  18.71 eV (from qtoteV)
                                  or :  17.71 eV (from (entot))
                                  or :******* eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  45.0, longitude  70.0.

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

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

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

 MAIN : The total energy input from the precipitation source is : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]
                                  and from photoelectron source : 1.1653E+11 [eV/cm2/s]
                                                             or : 1.8671E-01 [erg/cm2/s]
 That variable "errorgaupin" is:           97

 MAIN : Total energy deposition in [CO2] is 8.248E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 8.879E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 5.938E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 1.389E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 2.573E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 1.435E+00 [eV.cm-2.s-1] ("shsum").
  4.86070848E+08           2          21
  4.90535040E+08           2          23

 Total Heating :  2.164E+05 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  2.0884364E-03
 entot depart   216357.88       216357.88    
 shsum :  5.79718349E+09  8.24831590E+10  8.24829460E+10  8.24829460E+10
 shsum :  5.87627315E+09  9.13621729E+10  8.87901389E+09  9.13619599E+10
 shsum :  5.91604122E+09  9.73003571E+10  5.93818470E+09  9.73001441E+10
 shsum :  6.23572070E+09  1.11190786E+11  1.38904310E+10  1.11190573E+11
 shsum :  6.23572070E+09  1.11190786E+11   25.733841      1.11190573E+11
 shsum :  6.23572070E+09  1.11190786E+11   1.4351075      1.11190573E+11
 fin  1.11190786E+11  6.23572070E+09   18.687910    
   17.831264    
 -1.06135655E+14   18.687910    
 ezero   0.0000000    
  1.11190786E+11
  5.67937484E+14

Total energy input of :1.165E+11 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 1.112E+11 is absorbed (entot) 
                         through inelastic collisions (shsum =1.112E+11)
                                           + heating (elhsum =2.164E+05)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  18.69 eV (from qtoteV)
                                  or :  17.83 eV (from (entot))
                                  or :******* eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  50.0, longitude  70.0.

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

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

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

 MAIN : The total energy input from the precipitation source is : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]
                                  and from photoelectron source : 1.0680E+11 [eV/cm2/s]
                                                             or : 1.7112E-01 [erg/cm2/s]
 That variable "errorgaupin" is:           89

 MAIN : Total energy deposition in [CO2] is 7.445E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 8.213E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 5.530E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 1.320E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 2.521E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 1.420E+00 [eV.cm-2.s-1] ("shsum").
  4.67769824E+08           2          21
  4.72107136E+08           2          23

 Total Heating :  2.062E+05 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  1.9563683E-03
 entot depart   206243.13       206243.13    
 shsum :  5.29341850E+09  7.44520253E+10  7.44518205E+10  7.44518205E+10
 shsum :  5.36750643E+09  8.26650952E+10  8.21307034E+09  8.26648904E+10
 shsum :  5.40512614E+09  8.81948262E+10  5.52973261E+09  8.81946214E+10
 shsum :  5.71128883E+09  1.01392146E+11  1.31973181E+10  1.01391942E+11
 shsum :  5.71128883E+09  1.01392146E+11   25.208126      1.01391942E+11
 shsum :  5.71128883E+09  1.01392146E+11   1.4200602      1.01391942E+11
 fin  1.01392146E+11  5.71128883E+09   18.699886    
   17.752935    
 -1.15881422E+14   18.699886    
 ezero   0.0000000    
  1.01392146E+11
  6.19690498E+14

Total energy input of :1.068E+11 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 1.014E+11 is absorbed (entot) 
                         through inelastic collisions (shsum =1.014E+11)
                                           + heating (elhsum =2.062E+05)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  18.70 eV (from qtoteV)
                                  or :  17.75 eV (from (entot))
                                  or :******* eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  55.0, longitude  70.0.

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

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

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

 MAIN : The total energy input from the precipitation source is : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]
                                  and from photoelectron source : 9.6411E+10 [eV/cm2/s]
                                                             or : 1.5447E-01 [erg/cm2/s]
 That variable "errorgaupin" is:           87

 MAIN : Total energy deposition in [CO2] is 6.596E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 7.490E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 5.080E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 1.241E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 2.458E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 1.402E+00 [eV.cm-2.s-1] ("shsum").
  4.45903840E+08           2          21
  4.50031744E+08           2          23

 Total Heating :  1.944E+05 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  1.8115992E-03
 entot depart   194427.84       194427.84    
 shsum :  4.75751322E+09  6.59640279E+10  6.59638354E+10  6.59638354E+10
 shsum :  4.82611866E+09  7.34537318E+10  7.48970496E+09  7.34535434E+10
 shsum :  4.86134170E+09  7.85334518E+10  5.07971789E+09  7.85332634E+10
 shsum :  5.15209318E+09  9.09473710E+10  1.24139151E+10  9.09471744E+10
 shsum :  5.15209318E+09  9.09473710E+10   24.579233      9.09471744E+10
 shsum :  5.15209318E+09  9.09473710E+10   1.4017413      9.09471744E+10
 fin  9.09473710E+10  5.15209318E+09   18.712927    
   17.652510    
 -1.28458915E+14   18.712927    
 ezero   0.0000000    
  9.09473710E+10
  6.86471468E+14

Total energy input of :9.641E+10 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 9.095E+10 is absorbed (entot) 
                         through inelastic collisions (shsum =9.095E+10)
                                           + heating (elhsum =1.944E+05)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  18.71 eV (from qtoteV)
                                  or :  17.65 eV (from (entot))
                                  or :******* eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  60.0, longitude  70.0.

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

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

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

 MAIN : The total energy input from the precipitation source is : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]
                                  and from photoelectron source : 8.5484E+10 [eV/cm2/s]
                                                             or : 1.3696E-01 [erg/cm2/s]
 That variable "errorgaupin" is:           92

 MAIN : Total energy deposition in [CO2] is 5.715E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 6.710E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 4.591E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 1.153E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 2.383E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 1.380E+00 [eV.cm-2.s-1] ("shsum").
  4.19911968E+08           2          21
  4.23765056E+08           2          23

 Total Heating :  1.808E+05 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  1.6534873E-03
 entot depart   180772.19       180772.19    
 shsum :  4.19650765E+09  5.71520246E+10  5.71518444E+10  5.71518444E+10
 shsum :  4.25912550E+09  6.38619771E+10  6.70995149E+09  6.38617969E+10
 shsum :  4.29170304E+09  6.84526060E+10  4.59062835E+09  6.84524257E+10
 shsum :  4.56491674E+09  7.99848530E+10  1.15322491E+10  7.99846728E+10
 shsum :  4.56491674E+09  7.99848530E+10   23.833378      7.99846728E+10
 shsum :  4.56491674E+09  7.99848530E+10   1.3795967      7.99846728E+10
 fin  7.99848530E+10  4.56491674E+09   18.726374    
   17.521645    
 -1.44982342E+14   18.726374    
 ezero   0.0000000    
  7.99848530E+10
  7.74214697E+14

Total energy input of :8.548E+10 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 7.998E+10 is absorbed (entot) 
                         through inelastic collisions (shsum =7.998E+10)
                                           + heating (elhsum =1.808E+05)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  18.73 eV (from qtoteV)
                                  or :  17.52 eV (from (entot))
                                  or :******* eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  45.0, longitude  75.0.

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

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

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

 MAIN : The total energy input from the precipitation source is : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]
                                  and from photoelectron source : 9.0477E+10 [eV/cm2/s]
                                                             or : 1.4496E-01 [erg/cm2/s]
 That variable "errorgaupin" is:           92

 MAIN : Total energy deposition in [CO2] is 6.120E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 7.076E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 4.823E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 1.196E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 2.350E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 1.351E+00 [eV.cm-2.s-1] ("shsum").
  4.30928768E+08           2          21
  4.34719232E+08           2          23

 Total Heating :  1.838E+05 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  1.7276619E-03
 entot depart   183802.38       183802.38    
 shsum :  4.45280870E+09  6.12049797E+10  6.12047954E+10  6.12047954E+10
 shsum :  4.51823565E+09  6.82814259E+10  7.07644416E+09  6.82812375E+10
 shsum :  4.55206963E+09  7.31045970E+10  4.82317312E+09  7.31044086E+10
 shsum :  4.83377203E+09  8.50620498E+10  1.19574528E+10  8.50618614E+10
 shsum :  4.83377203E+09  8.50620498E+10   23.496040      8.50618614E+10
 shsum :  4.83377203E+09  8.50620498E+10   1.3513675      8.50618614E+10
 fin  8.50620498E+10  4.83377203E+09   18.717665    
   17.597448    
 -1.36918390E+14   18.717665    
 ezero   0.0000000    
  8.50620498E+10
  7.31492926E+14

Total energy input of :9.048E+10 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 8.506E+10 is absorbed (entot) 
                         through inelastic collisions (shsum =8.506E+10)
                                           + heating (elhsum =1.838E+05)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  18.72 eV (from qtoteV)
                                  or :  17.60 eV (from (entot))
                                  or :******* eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  50.0, longitude  75.0.

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

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

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

 MAIN : The total energy input from the precipitation source is : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]
                                  and from photoelectron source : 8.3324E+10 [eV/cm2/s]
                                                             or : 1.3350E-01 [erg/cm2/s]
 That variable "errorgaupin" is:           98

 MAIN : Total energy deposition in [CO2] is 5.546E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 6.559E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 4.497E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 1.136E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 2.351E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 1.366E+00 [eV.cm-2.s-1] ("shsum").
  4.13552448E+08           2          21
  4.17238240E+08           2          23

 Total Heating :  1.765E+05 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  1.6221639E-03
 entot depart   176472.80       176472.80    
 shsum :  4.08620134E+09  5.54606961E+10  5.54605199E+10  5.54605199E+10
 shsum :  4.14763290E+09  6.20193382E+10  6.55864218E+09  6.20191621E+10
 shsum :  4.17968691E+09  6.65159844E+10  4.49664614E+09  6.65158083E+10
 shsum :  4.44948275E+09  7.78775347E+10  1.13615483E+10  7.78773545E+10
 shsum :  4.44948275E+09  7.78775347E+10   23.513023      7.78773545E+10
 shsum :  4.44948275E+09  7.78775347E+10   1.3660046      7.78773545E+10
 fin  7.78775347E+10  4.44948275E+09   18.726751    
   17.502604    
 -1.48743643E+14   18.726751    
 ezero   0.0000000    
  7.78775347E+10
  7.94284341E+14

Total energy input of :8.332E+10 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 7.788E+10 is absorbed (entot) 
                         through inelastic collisions (shsum =7.788E+10)
                                           + heating (elhsum =1.765E+05)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  18.73 eV (from qtoteV)
                                  or :  17.50 eV (from (entot))
                                  or :******* eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  55.0, longitude  75.0.

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

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

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

 MAIN : The total energy input from the precipitation source is : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]
                                  and from photoelectron source : 7.5706E+10 [eV/cm2/s]
                                                             or : 1.2130E-01 [erg/cm2/s]
 That variable "errorgaupin" is:           89

 MAIN : Total energy deposition in [CO2] is 4.941E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 5.999E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 4.140E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 1.069E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 2.293E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 1.348E+00 [eV.cm-2.s-1] ("shsum").
  3.93234912E+08           2          21
  3.96759808E+08           2          23

 Total Heating :  1.662E+05 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  1.5069811E-03
 entot depart   166178.94       166178.94    
 shsum :  3.69714099E+09  4.94068490E+10  4.94066811E+10  4.94066811E+10
 shsum :  3.75421056E+09  5.54063176E+10  5.99946752E+09  5.54061496E+10
 shsum :  3.78429107E+09  5.95459891E+10  4.13967258E+09  5.95458212E+10
 shsum :  4.04064461E+09  7.02408294E+10  1.06948393E+10  7.02406574E+10
 shsum :  4.04064461E+09  7.02408294E+10   22.933311      7.02406574E+10
 shsum :  4.04064461E+09  7.02408294E+10   1.3483536      7.02406574E+10
 fin  7.02408294E+10  4.04064461E+09   18.736006    
   17.383570    
 -1.63793745E+14   18.736006    
 ezero   0.0000000    
  7.02408294E+10
  8.74219118E+14

Total energy input of :7.571E+10 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 7.024E+10 is absorbed (entot) 
                         through inelastic collisions (shsum =7.024E+10)
                                           + heating (elhsum =1.662E+05)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  18.74 eV (from qtoteV)
                                  or :  17.38 eV (from (entot))
                                  or :******* eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  60.0, longitude  75.0.

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

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

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

 MAIN : The total energy input from the precipitation source is : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]
                                  and from photoelectron source : 6.7715E+10 [eV/cm2/s]
                                                             or : 1.0849E-01 [erg/cm2/s]
 That variable "errorgaupin" is:          100

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

 MAIN : Total energy deposition in [N2]  is 5.396E+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 9.948E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 2.226E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 1.327E+00 [eV.cm-2.s-1] ("shsum").
  3.69607104E+08           2          21
  3.72890496E+08           2          23

 Total Heating :  1.545E+05 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  1.3803797E-03
 entot depart   154492.53       154492.53    
 shsum :  3.29128704E+09  4.31551242E+10  4.31549686E+10  4.31549686E+10
 shsum :  3.34356224E+09  4.85510308E+10  5.39590707E+09  4.85508751E+10
 shsum :  3.37145856E+09  5.23041956E+10  3.75316454E+09  5.23040399E+10
 shsum :  3.61256115E+09  6.22521754E+10  9.94797978E+09  6.22520197E+10
 shsum :  3.61256115E+09  6.22521754E+10   22.257555      6.22520197E+10
 shsum :  3.61256115E+09  6.22521754E+10   1.3273869      6.22520197E+10
 fin  6.22521754E+10  3.61256115E+09   18.744270    
   17.232145    
 -1.83203072E+14   18.744270    
 ezero   0.0000000    
  6.22521754E+10
  9.77381683E+14

Total energy input of :6.771E+10 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 6.225E+10 is absorbed (entot) 
                         through inelastic collisions (shsum =6.225E+10)
                                           + heating (elhsum =1.545E+05)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  18.74 eV (from qtoteV)
                                  or :  17.23 eV (from (entot))
                                  or :******* eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  45.0, longitude  80.0.

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

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

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

 MAIN : The total energy input from the precipitation source is : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]
                                  and from photoelectron source : 6.4709E+10 [eV/cm2/s]
                                                             or : 1.0368E-01 [erg/cm2/s]
 That variable "errorgaupin" is:           80

 MAIN : Total energy deposition in [CO2] is 4.086E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 5.178E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 3.611E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 9.674E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 2.128E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 1.278E+00 [eV.cm-2.s-1] ("shsum").
  3.58944512E+08           2          21
  3.61947840E+08           2          23

 Total Heating :  1.467E+05 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  1.3340169E-03
 entot depart   146706.63       146706.63    
 shsum :  3.13945421E+09  4.08636457E+10  4.08634982E+10  4.08634982E+10
 shsum :  3.18997376E+09  4.60421284E+10  5.17848064E+09  4.60419809E+10
 shsum :  3.21704704E+09  4.96531948E+10  3.61106586E+09  4.96530473E+10
 shsum :  3.45252045E+09  5.93275126E+10  9.67431578E+09  5.93273651E+10
 shsum :  3.45252045E+09  5.93275126E+10   21.280998      5.93273651E+10
 shsum :  3.45252045E+09  5.93275126E+10   1.2780051      5.93273651E+10
 fin  5.93275126E+10  3.45252045E+09   18.742598    
   17.183826    
 -1.91695396E+14   18.742598    
 ezero   0.0000000    
  5.93275126E+10
  1.02277922E+15

Total energy input of :6.471E+10 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 5.933E+10 is absorbed (entot) 
                         through inelastic collisions (shsum =5.933E+10)
                                           + heating (elhsum =1.467E+05)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  18.74 eV (from qtoteV)
                                  or :  17.18 eV (from (entot))
                                  or :******* eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  50.0, longitude  80.0.

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

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

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

 MAIN : The total energy input from the precipitation source is : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]
                                  and from photoelectron source : 6.0171E+10 [eV/cm2/s]
                                                             or : 9.6407E-02 [erg/cm2/s]
 That variable "errorgaupin" is:          102

 MAIN : Total energy deposition in [CO2] is 3.737E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 4.828E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 3.382E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 9.217E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 2.086E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 1.264E+00 [eV.cm-2.s-1] ("shsum").
  3.44200000E+08           2          21
  3.47135808E+08           2          23

 Total Heating :  1.397E+05 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  1.2591702E-03
 entot depart   139711.67       139711.67    
 shsum :  2.91023334E+09  3.73683241E+10  3.73681848E+10  3.73681848E+10
 shsum :  2.95791846E+09  4.21961155E+10  4.82778931E+09  4.21959762E+10
 shsum :  2.98366848E+09  4.55784817E+10  3.38236442E+09  4.55783424E+10
 shsum :  3.20966733E+09  5.47954115E+10  9.21692877E+09  5.47952722E+10
 shsum :  3.20966733E+09  5.47954115E+10   20.859169      5.47952722E+10
 shsum :  3.20966733E+09  5.47954115E+10   1.2644491      5.47952722E+10
 fin  5.47954115E+10  3.20966733E+09   18.746948    
   17.071991    
 -2.06199652E+14   18.746948    
 ezero   0.0000000    
  5.47954115E+10
  1.09991052E+15

Total energy input of :6.017E+10 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 5.480E+10 is absorbed (entot) 
                         through inelastic collisions (shsum =5.480E+10)
                                           + heating (elhsum =1.397E+05)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  18.75 eV (from qtoteV)
                                  or :  17.07 eV (from (entot))
                                  or :******* eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  55.0, longitude  80.0.

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

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

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

 MAIN : The total energy input from the precipitation source is : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]
                                  and from photoelectron source : 5.5350E+10 [eV/cm2/s]
                                                             or : 8.8682E-02 [erg/cm2/s]
 That variable "errorgaupin" is:          105

 MAIN : Total energy deposition in [CO2] is 3.370E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 4.449E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 3.134E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 8.709E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 2.038E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 1.249E+00 [eV.cm-2.s-1] ("shsum").
  3.27347392E+08           2          21
  3.30138368E+08           2          23

 Total Heating :  1.319E+05 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  1.1771990E-03
 entot depart   131860.69       131860.69    
 shsum :  2.66768998E+09  3.37007657E+10  3.37006346E+10  3.37006346E+10
 shsum :  2.71227085E+09  3.81500826E+10  4.44931840E+09  3.81499515E+10
 shsum :  2.73655885E+09  4.12842721E+10  3.13419110E+09  4.12841411E+10
 shsum :  2.95193856E+09  4.99936010E+10  8.70932787E+09  4.99934700E+10
 shsum :  2.95193856E+09  4.99936010E+10   20.375359      4.99934700E+10
 shsum :  2.95193856E+09  4.99936010E+10   1.2487454      4.99934700E+10
 fin  4.99936010E+10  2.95193856E+09   18.750372    
   16.935854    
 -2.24202594E+14   18.750372    
 ezero   0.0000000    
  4.99936010E+10
  1.19572346E+15

Total energy input of :5.535E+10 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 4.999E+10 is absorbed (entot) 
                         through inelastic collisions (shsum =4.999E+10)
                                           + heating (elhsum =1.319E+05)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  18.75 eV (from qtoteV)
                                  or :  16.94 eV (from (entot))
                                  or :******* eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  60.0, longitude  80.0.

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

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

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

 MAIN : The total energy input from the precipitation source is : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]
                                  and from photoelectron source : 5.0306E+10 [eV/cm2/s]
                                                             or : 8.0601E-02 [erg/cm2/s]
 That variable "errorgaupin" is:           85

 MAIN : Total energy deposition in [CO2] is 2.992E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 4.048E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 2.869E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 8.153E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 1.983E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 1.231E+00 [eV.cm-2.s-1] ("shsum").
  3.08327424E+08           2          21
  3.10959712E+08           2          23

 Total Heating :  1.232E+05 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  1.0886899E-03
 entot depart   123170.72       123170.72    
 shsum :  2.41518797E+09  2.99187446E+10  2.99186217E+10  2.99186217E+10
 shsum :  2.45641677E+09  3.39662520E+10  4.04750694E+09  3.39661292E+10
 shsum :  2.47910835E+09  3.68350167E+10  2.86876570E+09  3.68348938E+10
 shsum :  2.68272435E+09  4.49882685E+10  8.15325184E+09  4.49881457E+10
 shsum :  2.68272435E+09  4.49882685E+10   19.825357      4.49881457E+10
 shsum :  2.68272435E+09  4.49882685E+10   1.2306550      4.49881457E+10
 fin  4.49882685E+10  2.68272435E+09   18.751989    
   16.769621    
 -2.46701563E+14   18.751989    
 ezero   0.0000000    
  4.49882685E+10
  1.31560217E+15

Total energy input of :5.031E+10 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 4.499E+10 is absorbed (entot) 
                         through inelastic collisions (shsum =4.499E+10)
                                           + heating (elhsum =1.232E+05)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  18.75 eV (from qtoteV)
                                  or :  16.77 eV (from (entot))
                                  or :******* eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  45.0, longitude  85.0.

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

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

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

 MAIN : The total energy input from the precipitation source is : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]
                                  and from photoelectron source : 4.0338E+10 [eV/cm2/s]
                                                             or : 6.4630E-02 [erg/cm2/s]
 That variable "errorgaupin" is:           83

 MAIN : Total energy deposition in [CO2] is 2.266E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 3.252E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 2.333E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 6.990E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 1.829E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 1.170E+00 [eV.cm-2.s-1] ("shsum").
  2.65217024E+08           2          21
  2.67306416E+08           2          23

 Total Heating :  1.026E+05 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  9.0841064E-04
 entot depart   102620.95       102620.95    
 shsum :  1.92031872E+09  2.26601841E+10  2.26600817E+10  2.26600817E+10
 shsum :  1.95472038E+09  2.59124593E+10  3.25227520E+09  2.59123569E+10
 shsum :  1.97406029E+09  2.82449859E+10  2.33252685E+09  2.82448835E+10
 shsum :  2.15259290E+09  3.52354673E+10  6.99048038E+09  3.52353649E+10
 shsum :  2.15259290E+09  3.52354673E+10   18.285244      3.52353649E+10
 shsum :  2.15259290E+09  3.52354673E+10   1.1702842      3.52353649E+10
 fin  3.52354673E+10  2.15259290E+09   18.739277    
   16.368849    
 -3.07458187E+14   18.739277    
 ezero   0.0000000    
  3.52354673E+10
  1.64071522E+15

Total energy input of :4.034E+10 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 3.524E+10 is absorbed (entot) 
                         through inelastic collisions (shsum =3.524E+10)
                                           + heating (elhsum =1.026E+05)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  18.74 eV (from qtoteV)
                                  or :  16.37 eV (from (entot))
                                  or :******* eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  50.0, longitude  85.0.

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

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

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

 MAIN : The total energy input from the precipitation source is : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]
                                  and from photoelectron source : 3.8339E+10 [eV/cm2/s]
                                                             or : 6.1427E-02 [erg/cm2/s]
 That variable "errorgaupin" is:           91

 MAIN : Total energy deposition in [CO2] is 2.123E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 3.087E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 2.219E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 6.735E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 1.801E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 1.160E+00 [eV.cm-2.s-1] ("shsum").
  2.56175472E+08           2          21
  2.58222512E+08           2          23

 Total Heating :  9.875E+04 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  8.7020511E-04
 entot depart   98747.156       98747.156    
 shsum :  1.82153011E+09  2.12253491E+10  2.12252508E+10  2.12252508E+10
 shsum :  1.85448499E+09  2.43124490E+10  3.08709965E+09  2.43123507E+10
 shsum :  1.87309747E+09  2.65316946E+10  2.21924608E+09  2.65315963E+10
 shsum :  2.04603008E+09  3.32668682E+10  6.73517466E+09  3.32667699E+10
 shsum :  2.04603008E+09  3.32668682E+10   18.007185      3.32667699E+10
 shsum :  2.04603008E+09  3.32668682E+10   1.1603948      3.32667699E+10
 fin  3.32668682E+10  2.04603008E+09   18.738436    
   16.259228    
 -3.23471435E+14   18.738436    
 ezero   0.0000000    
  3.32668682E+10
  1.72624560E+15

Total energy input of :3.834E+10 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 3.327E+10 is absorbed (entot) 
                         through inelastic collisions (shsum =3.327E+10)
                                           + heating (elhsum =9.875E+04)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  18.74 eV (from qtoteV)
                                  or :  16.26 eV (from (entot))
                                  or :******* eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  55.0, longitude  85.0.

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

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

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

 MAIN : The total energy input from the precipitation source is : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]
                                  and from photoelectron source : 3.6214E+10 [eV/cm2/s]
                                                             or : 5.8022E-02 [erg/cm2/s]
 That variable "errorgaupin" is:           92

 MAIN : Total energy deposition in [CO2] is 1.972E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 2.910E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 2.098E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 6.457E+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 1.150E+00 [eV.cm-2.s-1] ("shsum").
  2.46158448E+08           2          21
  2.48154112E+08           2          23

 Total Heating :  9.452E+04 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  8.2869781E-04
 entot depart   94516.883       94516.883    
 shsum :  1.71683955E+09  1.97162721E+10  1.97161779E+10  1.97161779E+10
 shsum :  1.74822246E+09  2.26262426E+10  2.90997018E+09  2.26261484E+10
 shsum :  1.76604237E+09  2.47239188E+10  2.09767680E+09  2.47238246E+10
 shsum :  1.93282278E+09  3.11807078E+10  6.45678899E+09  3.11806136E+10
 shsum :  1.93282278E+09  3.11807078E+10   17.700914      3.11806136E+10
 shsum :  1.93282278E+09  3.11807078E+10   1.1495526      3.11806136E+10
 fin  3.11807078E+10  1.93282278E+09   18.736374    
   16.132212    
 -3.42417476E+14   18.736374    
 ezero   0.0000000    
  3.11807078E+10
  1.82755449E+15

Total energy input of :3.621E+10 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 3.118E+10 is absorbed (entot) 
                         through inelastic collisions (shsum =3.118E+10)
                                           + heating (elhsum =9.452E+04)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  18.74 eV (from qtoteV)
                                  or :  16.13 eV (from (entot))
                                  or :******* eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  60.0, longitude  85.0.

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

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

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

 MAIN : The total energy input from the precipitation source is : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]
                                  and from photoelectron source : 3.3988E+10 [eV/cm2/s]
                                                             or : 5.4456E-02 [erg/cm2/s]
 That variable "errorgaupin" is:           84

 MAIN : Total energy deposition in [CO2] is 1.815E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 2.723E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 1.969E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 6.158E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 1.737E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 1.138E+00 [eV.cm-2.s-1] ("shsum").
  2.35184784E+08           2          21
  2.37089552E+08           2          23

 Total Heating :  8.996E+04 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  7.8428187E-04
 entot depart   89963.773       89963.773    
 shsum :  1.60760230E+09  1.81546004E+10  1.81545103E+10  1.81545103E+10
 shsum :  1.63730317E+09  2.08776684E+10  2.72306842E+09  2.08775782E+10
 shsum :  1.65427162E+09  2.28468470E+10  1.96917786E+09  2.28467569E+10
 shsum :  1.81438387E+09  2.90043843E+10  6.15753779E+09  2.90042941E+10
 shsum :  1.81438387E+09  2.90043843E+10   17.367283      2.90042941E+10
 shsum :  1.81438387E+09  2.90043843E+10   1.1377678      2.90042941E+10
 fin  2.90043843E+10  1.81438387E+09   18.732639    
   15.985804    
 -3.64769727E+14   18.732639    
 ezero   0.0000000    
  2.90043843E+10
  1.94724154E+15

Total energy input of :3.399E+10 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 2.900E+10 is absorbed (entot) 
                         through inelastic collisions (shsum =2.900E+10)
                                           + heating (elhsum =8.996E+04)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  18.73 eV (from qtoteV)
                                  or :  15.99 eV (from (entot))
                                  or :******* eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  45.0, longitude  90.0.

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

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

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

 MAIN : The total energy input from the precipitation source is : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]
                                  and from photoelectron source : 1.9847E+10 [eV/cm2/s]
                                                             or : 3.1798E-02 [erg/cm2/s]
 That variable "errorgaupin" is:           72

 MAIN : Total energy deposition in [CO2] is 8.835E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 1.531E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 1.126E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 4.046E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 1.369E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 9.690E-01 [eV.cm-2.s-1] ("shsum").
  1.52793632E+08           2          21
  1.53916864E+08           2          23

 Total Heating :  5.447E+04 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  4.8355933E-04
 entot depart   54471.098       54471.098    
 shsum :  9.23122880E+08  8.83476275E+09  8.83470848E+09  8.83470848E+09
 shsum :  9.41435392E+08  1.03660902E+10  1.53132749E+09  1.03660360E+10
 shsum :  9.52356352E+08  1.14925404E+10  1.12644992E+09  1.14924861E+10
 shsum :  1.06345971E+09  1.55384443E+10  4.04590336E+09  1.55383890E+10
 shsum :  1.06345971E+09  1.55384443E+10   13.692003      1.55383890E+10
 shsum :  1.06345971E+09  1.55384443E+10  0.96902359      1.55383890E+10
 fin  1.55384443E+10  1.06345971E+09   18.662304    
   14.611220    
 -6.22338815E+14   18.662304    
 ezero   0.0000000    
  1.55384443E+10
  3.33473743E+15

Total energy input of :1.985E+10 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 1.554E+10 is absorbed (entot) 
                         through inelastic collisions (shsum =1.554E+10)
                                           + heating (elhsum =5.447E+04)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  18.66 eV (from qtoteV)
                                  or :  14.61 eV (from (entot))
                                  or :******* eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  50.0, longitude  90.0.

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

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

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

 MAIN : The total energy input from the precipitation source is : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]
                                  and from photoelectron source : 1.9923E+10 [eV/cm2/s]
                                                             or : 3.1921E-02 [erg/cm2/s]
 That variable "errorgaupin" is:          103

 MAIN : Total energy deposition in [CO2] is 8.879E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 1.537E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 1.130E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 4.056E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 1.373E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 9.714E-01 [eV.cm-2.s-1] ("shsum").
  1.53403280E+08           2          21
  1.54548560E+08           2          23

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

Total N I (1200 A to 1744 A) (kR.A):  4.8520084E-04
 entot depart   54780.039       54780.039    
 shsum :  9.26666880E+08  8.87926682E+09  8.87921254E+09  8.87921254E+09
 shsum :  9.45041536E+08  1.04163676E+10  1.53710080E+09  1.04163133E+10
 shsum :  9.55993728E+08  1.15466312E+10  1.13026381E+09  1.15465769E+10
 shsum :  1.06735386E+09  1.56030351E+10  4.05640397E+09  1.56029809E+10
 shsum :  1.06735386E+09  1.56030351E+10   13.732927      1.56029809E+10
 shsum :  1.06735386E+09  1.56030351E+10  0.97140086      1.56029809E+10
 fin  1.56030351E+10  1.06735386E+09   18.666204    
   14.618427    
 -6.20068321E+14   18.666204    
 ezero   0.0000000    
  1.56030351E+10
  3.32187669E+15

Total energy input of :1.992E+10 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 1.560E+10 is absorbed (entot) 
                         through inelastic collisions (shsum =1.560E+10)
                                           + heating (elhsum =5.478E+04)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  18.67 eV (from qtoteV)
                                  or :  14.62 eV (from (entot))
                                  or :******* eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  55.0, longitude  90.0.

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

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

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

 MAIN : The total energy input from the precipitation source is : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]
                                  and from photoelectron source : 1.9997E+10 [eV/cm2/s]
                                                             or : 3.2039E-02 [erg/cm2/s]
 That variable "errorgaupin" is:           88

 MAIN : Total energy deposition in [CO2] is 8.921E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 1.542E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 1.134E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 4.066E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 1.378E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 9.745E-01 [eV.cm-2.s-1] ("shsum").
  1.53981760E+08           2          21
  1.55156160E+08           2          23

 Total Heating :  5.512E+04 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  4.8668706E-04
 entot depart   55118.852       55118.852    
 shsum :  9.30092224E+08  8.92108288E+09  8.92102758E+09  8.92102758E+09
 shsum :  9.48523136E+08  1.04634399E+10  1.54235699E+09  1.04633846E+10
 shsum :  9.59506368E+08  1.15974656E+10  1.13402598E+09  1.15974103E+10
 shsum :  1.07111347E+09  1.56639334E+10  4.06646810E+09  1.56638781E+10
 shsum :  1.07111347E+09  1.56639334E+10   13.784337      1.56638781E+10
 shsum :  1.07111347E+09  1.56639334E+10  0.97453082      1.56638781E+10
 fin  1.56639334E+10  1.07111347E+09   18.669422    
   14.623972    
 -6.17891846E+14   18.669422    
 ezero   0.0000000    
  1.56639334E+10
  3.30964650E+15

Total energy input of :2.000E+10 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 1.566E+10 is absorbed (entot) 
                         through inelastic collisions (shsum =1.566E+10)
                                           + heating (elhsum =5.512E+04)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  18.67 eV (from qtoteV)
                                  or :  14.62 eV (from (entot))
                                  or :******* eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  60.0, longitude  90.0.

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

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

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

 MAIN : The total energy input from the precipitation source is : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]
                                  and from photoelectron source : 2.0064E+10 [eV/cm2/s]
                                                             or : 3.2146E-02 [erg/cm2/s]
 That variable "errorgaupin" is:           99

 MAIN : Total energy deposition in [CO2] is 8.958E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 1.547E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 1.138E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 4.075E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 1.424E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 1.004E+00 [eV.cm-2.s-1] ("shsum").
  1.54478064E+08           2          21
  1.55668768E+08           2          23

 Total Heating :  5.621E+04 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  4.8793748E-04
 entot depart   56210.188       56210.188    
 shsum :  9.33233664E+08  8.95785882E+09  8.95780250E+09  8.95780250E+09
 shsum :  9.51711936E+08  1.05046682E+10  1.54680896E+09  1.05046118E+10
 shsum :  9.62724672E+08  1.16422021E+10  1.13753408E+09  1.16421458E+10
 shsum :  1.07455258E+09  1.57176381E+10  4.07543654E+09  1.57175828E+10
 shsum :  1.07455258E+09  1.57176381E+10   14.241632      1.57175828E+10
 shsum :  1.07455258E+09  1.57176381E+10   1.0044241      1.57175828E+10
 fin  1.57176381E+10  1.07455258E+09   18.671686    
   14.627147    
 -6.15914282E+14   18.671686    
 ezero   0.0000000    
  1.57176381E+10
  3.29865380E+15

Total energy input of :2.006E+10 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 1.572E+10 is absorbed (entot) 
                         through inelastic collisions (shsum =1.572E+10)
                                           + heating (elhsum =5.621E+04)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  18.67 eV (from qtoteV)
                                  or :  14.63 eV (from (entot))
                                  or :******* eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  45.0, longitude  95.0.

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

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

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

 MAIN : The total energy input from the precipitation source is : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]
                                  and from photoelectron source : 6.9223E+09 [eV/cm2/s]
                                                             or : 1.1091E-02 [erg/cm2/s]
 That variable "errorgaupin" is:           76

 MAIN : Total energy deposition in [CO2] is 1.906E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 4.316E+08 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 3.183E+08 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 1.521E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 8.194E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 6.678E-01 [eV.cm-2.s-1] ("shsum").
   54025808.               2          21
   54397852.               2          23

 Total Heating :  1.808E+04 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  1.5808988E-04
 entot depart   18080.986       18080.986    
 shsum :  3.14051616E+08  1.90558246E+09  1.90556442E+09  1.90556442E+09
 shsum :  3.20038496E+08  2.33722368E+09  4.31641280E+08  2.33720576E+09
 shsum :  3.23808992E+08  2.65550822E+09  3.18284448E+08  2.65549030E+09
 shsum :  3.69670464E+08  4.17659802E+09  1.52108979E+09  4.17658010E+09
 shsum :  3.69670464E+08  4.17659802E+09   8.1944466      4.17658010E+09
 shsum :  3.69670464E+08  4.17659802E+09  0.66778576      4.17658010E+09
 fin  4.17659802E+09  3.69670464E+08   18.725536    
   11.298165    
 -1.79033041E+15   18.725536    
 ezero   0.0000000    
  4.17659802E+09
  9.56090322E+15

Total energy input of :6.922E+09 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 4.177E+09 is absorbed (entot) 
                         through inelastic collisions (shsum =4.177E+09)
                                           + heating (elhsum =1.808E+04)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  18.73 eV (from qtoteV)
                                  or :  11.30 eV (from (entot))
                                  or :******* eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  50.0, longitude  95.0.

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

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

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

 MAIN : The total energy input from the precipitation source is : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]
                                  and from photoelectron source : 7.7937E+09 [eV/cm2/s]
                                                             or : 1.2487E-02 [erg/cm2/s]
 That variable "errorgaupin" is:          105

 MAIN : Total energy deposition in [CO2] is 2.278E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 5.018E+08 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 3.703E+08 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 1.716E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 8.773E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 7.048E-01 [eV.cm-2.s-1] ("shsum").
   61510788.               2          21
   61943200.               2          23

 Total Heating :  2.068E+04 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  1.8144312E-04
 entot depart   20684.941       20684.941    
 shsum :  3.54363328E+08  2.27761280E+09  2.27759206E+09  2.27759206E+09
 shsum :  3.61234624E+08  2.77939840E+09  5.01785696E+08  2.77937766E+09
 shsum :  3.65543936E+08  3.14972390E+09  3.70325568E+08  3.14970317E+09
 shsum :  4.16817440E+08  4.86538138E+09  1.71565747E+09  4.86536090E+09
 shsum :  4.16817440E+08  4.86538138E+09   8.7725391      4.86536090E+09
 shsum :  4.16817440E+08  4.86538138E+09  0.70480001      4.86536090E+09
 fin  4.86538138E+09  4.16817440E+08   18.698107    
   11.672691    
 -1.58782297E+15   18.698107    
 ezero   0.0000000    
  4.86538138E+09
  8.49189176E+15

Total energy input of :7.794E+09 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 4.865E+09 is absorbed (entot) 
                         through inelastic collisions (shsum =4.865E+09)
                                           + heating (elhsum =2.068E+04)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  18.70 eV (from qtoteV)
                                  or :  11.67 eV (from (entot))
                                  or :******* eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  55.0, longitude  95.0.

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

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

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

 MAIN : The total energy input from the precipitation source is : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]
                                  and from photoelectron source : 8.8106E+09 [eV/cm2/s]
                                                             or : 1.4116E-02 [erg/cm2/s]
 That variable "errorgaupin" is:           83

 MAIN : Total energy deposition in [CO2] is 2.736E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 5.852E+08 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 4.322E+08 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 1.938E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 9.398E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 7.435E-01 [eV.cm-2.s-1] ("shsum").
   70137840.               2          21
   70641744.               2          23

 Total Heating :  2.375E+04 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  2.0857537E-04
 entot depart   23750.492       23750.492    
 shsum :  4.01591776E+08  2.73576525E+09  2.73574144E+09  2.73574144E+09
 shsum :  4.09490560E+08  3.32096179E+09  5.85196480E+08  3.32093798E+09
 shsum :  4.14419936E+08  3.75313664E+09  4.32174880E+08  3.75311283E+09
 shsum :  4.71773376E+08  5.69084979E+09  1.93771315E+09  5.69082573E+09
 shsum :  4.71773376E+08  5.69084979E+09   9.3982382      5.69082573E+09
 shsum :  4.71773376E+08  5.69084979E+09  0.74353242      5.69082573E+09
 fin  5.69084979E+09  4.71773376E+08   18.675526    
   12.062676    
 -1.40286060E+15   18.675526    
 ezero   0.0000000    
  5.69084979E+09
  7.51175929E+15

Total energy input of :8.811E+09 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 5.691E+09 is absorbed (entot) 
                         through inelastic collisions (shsum =5.691E+09)
                                           + heating (elhsum =2.375E+04)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  18.68 eV (from qtoteV)
                                  or :  12.06 eV (from (entot))
                                  or :******* eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  60.0, longitude  95.0.

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

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

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

 MAIN : The total energy input from the precipitation source is : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]
                                  and from photoelectron source : 9.9827E+09 [eV/cm2/s]
                                                             or : 1.5994E-02 [erg/cm2/s]
 That variable "errorgaupin" is:           90

 MAIN : Total energy deposition in [CO2] is 3.292E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 6.828E+08 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 5.045E+08 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 2.187E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 1.007E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 7.834E-01 [eV.cm-2.s-1] ("shsum").
   79894624.               2          21
   80481264.               2          23

 Total Heating :  2.730E+04 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  2.3955552E-04
 entot depart   27303.518       27303.518    
 shsum :  4.56249696E+08  3.29205632E+09  3.29202893E+09  3.29202893E+09
 shsum :  4.65321696E+08  3.97489690E+09  6.82840512E+08  3.97486950E+09
 shsum :  4.70951424E+08  4.47936154E+09  5.04464512E+08  4.47933389E+09
 shsum :  5.35010080E+08  6.66610893E+09  2.18674739E+09  6.66608128E+09
 shsum :  5.35010080E+08  6.66610893E+09   10.065001      6.66608128E+09
 shsum :  5.35010080E+08  6.66610893E+09  0.78341967      6.66608128E+09
 fin  6.66610893E+09  5.35010080E+08   18.658928    
   12.459782    
 -1.23704641E+15   18.658928    
 ezero   0.0000000    
  6.66610893E+09
  6.62978239E+15

Total energy input of :9.983E+09 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 6.666E+09 is absorbed (entot) 
                         through inelastic collisions (shsum =6.666E+09)
                                           + heating (elhsum =2.730E+04)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  18.66 eV (from qtoteV)
                                  or :  12.46 eV (from (entot))
                                  or :******* eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  45.0, longitude 100.0.

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

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

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

 MAIN : The total energy input from the precipitation source is : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]
                                  and from photoelectron source : 1.6553E+09 [eV/cm2/s]
                                                             or : 2.6521E-03 [erg/cm2/s]
 That variable "errorgaupin" is:           85

 MAIN : Total energy deposition in [CO2] is 2.328E+08 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 6.754E+07 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 4.959E+07 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 3.116E+08 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 2.857E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 2.631E-01 [eV.cm-2.s-1] ("shsum").
   10253309.               2          21
   10320249.               2          23

 Total Heating :  3.459E+03 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  2.6340345E-05
 entot depart   3458.8616       3458.8616    
 shsum :   74659880.      2.32830016E+08  2.32826560E+08  2.32826560E+08
 shsum :   75657392.      3.00369728E+08   67539720.      3.00366272E+08
 shsum :   76300848.      3.49962720E+08   49593004.      3.49959264E+08
 shsum :   86297504.      6.61559296E+08  3.11596544E+08  6.61555840E+08
 shsum :   86297504.      6.61559296E+08   2.8568640      6.61555840E+08
 shsum :   86297504.      6.61559296E+08  0.26313031      6.61555840E+08
 fin  6.61559296E+08   86297504.       19.181089    
   7.6660304    
 -7.66919400E+15   19.181089    
 ezero   0.0000000    
  6.61559296E+08
  3.99831004E+16

Total energy input of :1.655E+09 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 6.616E+08 is absorbed (entot) 
                         through inelastic collisions (shsum =6.616E+08)
                                           + heating (elhsum =3.459E+03)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  19.18 eV (from qtoteV)
                                  or :   7.67 eV (from (entot))
                                  or :******* eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  50.0, longitude 100.0.

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

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

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

 MAIN : The total energy input from the precipitation source is : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]
                                  and from photoelectron source : 2.2383E+09 [eV/cm2/s]
                                                             or : 3.5862E-03 [erg/cm2/s]
 That variable "errorgaupin" is:           92

 MAIN : Total energy deposition in [CO2] is 3.542E+08 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 9.913E+07 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 7.267E+07 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 4.395E+08 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 3.637E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 3.295E-01 [eV.cm-2.s-1] ("shsum").
   14635350.               2          21
   14733812.               2          23

 Total Heating :  4.862E+03 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  3.8639751E-05
 entot depart   4862.2168       4862.2168    
 shsum :  1.00745904E+08  3.54248192E+08  3.54243328E+08  3.54243328E+08
 shsum :  1.02209200E+08  4.53376768E+08   99128592.      4.53371904E+08
 shsum :  1.03150144E+08  5.26050272E+08   72673512.      5.26045408E+08
 shsum :  1.17154704E+08  9.65502848E+08  4.39452576E+08  9.65497984E+08
 shsum :  1.17154704E+08  9.65502848E+08   3.6365411      9.65497984E+08
 shsum :  1.17154704E+08  9.65502848E+08  0.32945406      9.65497984E+08
 fin  9.65502848E+08  1.17154704E+08   19.105482    
   8.2412643    
 -5.64921666E+15   19.105482    
 ezero   0.0000000    
  9.65502848E+08
  2.95685606E+16

Total energy input of :2.238E+09 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 9.655E+08 is absorbed (entot) 
                         through inelastic collisions (shsum =9.655E+08)
                                           + heating (elhsum =4.862E+03)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  19.11 eV (from qtoteV)
                                  or :   8.24 eV (from (entot))
                                  or :******* eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  55.0, longitude 100.0.

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

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

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

 MAIN : The total energy input from the precipitation source is : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]
                                  and from photoelectron source : 3.0426E+09 [eV/cm2/s]
                                                             or : 4.8748E-03 [erg/cm2/s]
 That variable "errorgaupin" is:           94

 MAIN : Total energy deposition in [CO2] is 5.521E+08 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 1.476E+08 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 1.082E+08 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 6.221E+08 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 4.786E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 4.225E-01 [eV.cm-2.s-1] ("shsum").
   21026544.               2          21
   21171116.               2          23

 Total Heating :  7.066E+03 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  5.7161822E-05
 entot depart   7065.5776       7065.5776    
 shsum :  1.36870992E+08  5.52092672E+08  5.52085632E+08  5.52085632E+08
 shsum :  1.39035728E+08  6.99650816E+08  1.47558128E+08  6.99643776E+08
 shsum :  1.40422768E+08  8.07805632E+08  1.08154808E+08  8.07798592E+08
 shsum :  1.60054624E+08  1.42994355E+09  6.22137984E+08  1.42993664E+09
 shsum :  1.60054624E+08  1.42994355E+09   4.7859812      1.42993664E+09
 shsum :  1.60054624E+08  1.42994355E+09  0.42247206      1.42993664E+09
 fin  1.42994355E+09  1.60054624E+08   19.009588    
   8.9340973    
 -4.13504016E+15   19.009588    
 ezero   0.0000000    
  1.42994355E+09
  2.17523923E+16

Total energy input of :3.043E+09 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 1.430E+09 is absorbed (entot) 
                         through inelastic collisions (shsum =1.430E+09)
                                           + heating (elhsum =7.066E+03)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  19.01 eV (from qtoteV)
                                  or :   8.93 eV (from (entot))
                                  or :******* eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  60.0, longitude 100.0.

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

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

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

 MAIN : The total energy input from the precipitation source is : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]
                                  and from photoelectron source : 4.1363E+09 [eV/cm2/s]
                                                             or : 6.6272E-03 [erg/cm2/s]
 That variable "errorgaupin" is:           93

 MAIN : Total energy deposition in [CO2] is 8.717E+08 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 2.205E+08 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 1.619E+08 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 8.759E+08 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 5.959E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 5.129E-01 [eV.cm-2.s-1] ("shsum").
   30149058.               2          21
   30366476.               2          23

 Total Heating :  1.010E+04 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  8.4258747E-05
 entot depart   10096.201       10096.201    
 shsum :  1.86356672E+08  8.71672064E+08  8.71661952E+08  8.71661952E+08
 shsum :  1.89547568E+08  1.09216102E+09  2.20488976E+08  1.09215091E+09
 shsum :  1.91583056E+08  1.25401229E+09  1.61851216E+08  1.25400218E+09
 shsum :  2.18852096E+08  2.12994650E+09  8.75934208E+08  2.12993638E+09
 shsum :  2.18852096E+08  2.12994650E+09   5.9590564      2.12993638E+09
 shsum :  2.18852096E+08  2.12994650E+09  0.51285934      2.12993638E+09
 fin  2.12994650E+09  2.18852096E+08   18.899900    
   9.7323561    
 -3.02410768E+15   18.899900    
 ezero   0.0000000    
  2.12994650E+09
  1.60006537E+16

Total energy input of :4.136E+09 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 2.130E+09 is absorbed (entot) 
                         through inelastic collisions (shsum =2.130E+09)
                                           + heating (elhsum =1.010E+04)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  18.90 eV (from qtoteV)
                                  or :   9.73 eV (from (entot))
                                  or :******* eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  45.0, longitude 105.0.

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

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

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

 MAIN : The total energy input from the precipitation source is : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]
                                  and from photoelectron source : 2.7568E+08 [eV/cm2/s]
                                                             or : 4.4170E-04 [erg/cm2/s]
 That variable "errorgaupin" is:           80

 MAIN : Total energy deposition in [CO2] is 2.629E+07 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 8.300E+06 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 6.219E+06 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 4.212E+07 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 5.196E-01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 5.157E-02 [eV.cm-2.s-1] ("shsum").
   1337481.6               2          21
   1345440.9               2          23

 Total Heating :  4.873E+02 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  3.1177633E-06
 entot depart   487.28387       487.28387    
 shsum :   12758073.       26286024.       26285536.       26285536.    
 shsum :   12876143.       34585616.       8299592.0       34585128.    
 shsum :   12953574.       40805080.       6219462.0       40804592.    
 shsum :   14312854.       82921384.       42116304.       82920896.    
 shsum :   14312854.       82921384.      0.51964688       82920896.    
 shsum :   14312854.       82921384.      5.15686944E-02   82920896.    
 fin   82921384.       14312854.       19.261274    
   5.7934904    
 -4.62404125E+16   19.261274    
 ezero   0.0000000    
   82921384.    
  2.40069344E+17

Total energy input of :2.757E+08 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 8.292E+07 is absorbed (entot) 
                         through inelastic collisions (shsum =8.292E+07)
                                           + heating (elhsum =4.873E+02)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  19.26 eV (from qtoteV)
                                  or :   5.79 eV (from (entot))
                                  or :******* eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  50.0, longitude 105.0.

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

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

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

 MAIN : The total energy input from the precipitation source is : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]
                                  and from photoelectron source : 4.7862E+08 [eV/cm2/s]
                                                             or : 7.6685E-04 [erg/cm2/s]
 That variable "errorgaupin" is:           94

 MAIN : Total energy deposition in [CO2] is 4.911E+07 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 1.534E+07 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 1.142E+07 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 7.701E+07 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 9.499E-01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 9.193E-02 [eV.cm-2.s-1] ("shsum").
   2465797.5               2          21
   2482576.0               2          23

 Total Heating :  9.000E+02 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  5.8384862E-06
 entot depart   899.98602       899.98602    
 shsum :   21943908.       49108756.       49107856.       49107856.    
 shsum :   22165012.       64444332.       15335577.       64443432.    
 shsum :   22309382.       75863024.       11418688.       75862120.    
 shsum :   24799708.      1.52875296E+08   77012280.      1.52874400E+08
 shsum :   24799708.      1.52875296E+08  0.94990963      1.52874400E+08
 shsum :   24799708.      1.52875296E+08  9.19338465E-02  1.52874400E+08
 fin  1.52875296E+08   24799708.       19.299541    
   6.1643991    
 -2.66870993E+16   19.299541    
 ezero   0.0000000    
  1.52875296E+08
  1.38278405E+17

Total energy input of :4.786E+08 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 1.529E+08 is absorbed (entot) 
                         through inelastic collisions (shsum =1.529E+08)
                                           + heating (elhsum =9.000E+02)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  19.30 eV (from qtoteV)
                                  or :   6.16 eV (from (entot))
                                  or :******* eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  55.0, longitude 105.0.

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

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

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

 MAIN : The total energy input from the precipitation source is : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]
                                  and from photoelectron source : 8.3687E+08 [eV/cm2/s]
                                                             or : 1.3408E-03 [erg/cm2/s]
 That variable "errorgaupin" is:           87

 MAIN : Total energy deposition in [CO2] is 9.579E+07 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 2.930E+07 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 2.167E+07 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 1.436E+08 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 1.591E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 1.511E-01 [eV.cm-2.s-1] ("shsum").
   4654421.5               2          21
   4685187.0               2          23

 Total Heating :  1.641E+03 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  1.1303375E-05
 entot depart   1640.6256       1640.6256    
 shsum :   38075456.       95795928.       95794288.       95794288.    
 shsum :   38503516.      1.25097096E+08   29301166.      1.25095456E+08
 shsum :   38781620.      1.46767232E+08   21670138.      1.46765600E+08
 shsum :   43421776.      2.90371104E+08  1.43603872E+08  2.90369472E+08
 shsum :   43421776.      2.90371104E+08   1.5910516      2.90369472E+08
 shsum :   43421776.      2.90371104E+08  0.15108334      2.90369472E+08
 fin  2.90371104E+08   43421776.       19.272945    
   6.6872230    
 -1.52419445E+16   19.272945    
 ezero   0.0000000    
  2.90371104E+08
  7.90846588E+16

Total energy input of :8.369E+08 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 2.904E+08 is absorbed (entot) 
                         through inelastic collisions (shsum =2.904E+08)
                                           + heating (elhsum =1.641E+03)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  19.27 eV (from qtoteV)
                                  or :   6.69 eV (from (entot))
                                  or :******* eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  60.0, longitude 105.0.

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

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

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

 MAIN : The total energy input from the precipitation source is : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]
                                  and from photoelectron source : 1.4495E+09 [eV/cm2/s]
                                                             or : 2.3223E-03 [erg/cm2/s]
 That variable "errorgaupin" is:           72

 MAIN : Total energy deposition in [CO2] is 1.941E+08 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 5.710E+07 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 4.197E+07 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 2.675E+08 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 2.566E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 2.381E-01 [eV.cm-2.s-1] ("shsum").
   8797400.0               2          21
   8857012.0               2          23

 Total Heating :  3.003E+03 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  2.2244276E-05
 entot depart   3003.1406       3003.1406    
 shsum :   65496396.      1.94074432E+08  1.94071424E+08  1.94071424E+08
 shsum :   66338792.      2.51178752E+08   57104324.      2.51175744E+08
 shsum :   66883040.      2.93149728E+08   41970980.      2.93146720E+08
 shsum :   75483520.      5.60650944E+08  2.67501200E+08  5.60647936E+08
 shsum :   75483520.      5.60650944E+08   2.5661187      5.60647936E+08
 shsum :   75483520.      5.60650944E+08  0.23813516      5.60647936E+08
 fin  5.60650944E+08   75483520.       19.202463    
   7.4274616    
 -8.76790461E+15   19.202463    
 ezero   0.0000000    
  5.60650944E+08
  4.56603127E+16

Total energy input of :1.449E+09 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 5.607E+08 is absorbed (entot) 
                         through inelastic collisions (shsum =5.606E+08)
                                           + heating (elhsum =3.003E+03)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  19.20 eV (from qtoteV)
                                  or :   7.43 eV (from (entot))
                                  or :******* eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  45.0, longitude 110.0.

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

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

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

 MAIN : The total energy input from the precipitation source is : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]
                                  and from photoelectron source : 3.5461E+07 [eV/cm2/s]
                                                             or : 5.6816E-05 [erg/cm2/s]
 That variable "errorgaupin" is:          201

 MAIN : Total energy deposition in [CO2] is 3.028E+06 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 9.768E+05 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 7.423E+05 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 4.972E+06 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 6.238E-02 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 6.250E-03 [eV.cm-2.s-1] ("shsum").
   149699.91               2          21
   150515.59               2          23

 Total Heating :  5.868E+01 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  3.5620820E-07
 entot depart   58.684059       58.684059    
 shsum :   1682818.5       3027635.8       3027577.0       3027577.0    
 shsum :   1696308.1       4004409.8       976773.94       4004351.0    
 shsum :   1705247.4       4746706.5       742296.63       4746647.5    
 shsum :   1864289.0       9718247.0       4971540.5       9718188.0    
 shsum :   1864289.0       9718247.0      6.23802692E-02   9718188.0    
 shsum :   1864289.0       9718247.0      6.25039637E-03   9718188.0    
 fin   9718247.0       1864289.0       19.021328    
   5.2128434    
 -3.55005195E+17   19.021328    
 ezero   0.0000000    
   9718247.0    
  1.86635337E+18

Total energy input of :3.546E+07 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 9.718E+06 is absorbed (entot) 
                         through inelastic collisions (shsum =9.718E+06)
                                           + heating (elhsum =5.868E+01)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  19.02 eV (from qtoteV)
                                  or :   5.21 eV (from (entot))
                                  or :******* eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  50.0, longitude 110.0.

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

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

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

 MAIN : The total energy input from the precipitation source is : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]
                                  and from photoelectron source : 8.1328E+07 [eV/cm2/s]
                                                             or : 1.3030E-04 [erg/cm2/s]
 That variable "errorgaupin" is:          133

 MAIN : Total energy deposition in [CO2] is 7.087E+06 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 2.276E+06 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 1.725E+06 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 1.160E+07 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 1.454E-01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 1.460E-02 [eV.cm-2.s-1] ("shsum").
   372668.53               2          21
   375085.28               2          23

 Total Heating :  1.402E+02 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  8.3417842E-07
 entot depart   140.19798       140.19798    
 shsum :   3852637.8       7086993.5       7086853.5       7086853.5    
 shsum :   3884228.3       9363131.0       2276137.8       9362991.0    
 shsum :   3905114.3       11088299.       1725168.0       11088159.    
 shsum :   4276621.0       22684452.       11596154.       22684312.    
 shsum :   4276621.0       22684452.      0.14541142       22684312.    
 shsum :   4276621.0       22684452.      1.45950140E-02   22684312.    
 fin   22684452.       4276621.0       19.016836    
   5.3042932    
 -1.54755884E+17   19.016836    
 ezero   0.0000000    
   22684452.    
  8.13783534E+17

Total energy input of :8.133E+07 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 2.268E+07 is absorbed (entot) 
                         through inelastic collisions (shsum =2.268E+07)
                                           + heating (elhsum =1.402E+02)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  19.02 eV (from qtoteV)
                                  or :   5.30 eV (from (entot))
                                  or :******* eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  55.0, longitude 110.0.

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

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

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

 MAIN : The total energy input from the precipitation source is : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]
                                  and from photoelectron source : 1.8595E+08 [eV/cm2/s]
                                                             or : 2.9792E-04 [erg/cm2/s]
 That variable "errorgaupin" is:          110

 MAIN : Total energy deposition in [CO2] is 1.711E+07 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 5.427E+06 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 4.080E+06 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 2.759E+07 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 3.696E-01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 3.666E-02 [eV.cm-2.s-1] ("shsum").
   869256.13               2          21
   873237.13               2          23

 Total Heating :  3.330E+02 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  2.0250691E-06
 entot depart   332.95126       332.95126    
 shsum :   8647086.0       17108044.       17107712.       17107712.    
 shsum :   8723776.0       22534978.       5426933.5       22534646.    
 shsum :   8774184.0       26614508.       4079530.5       26614176.    
 shsum :   9663075.0       54200000.       27585494.       54199672.    
 shsum :   9663075.0       54200000.      0.36963832       54199672.    
 shsum :   9663075.0       54200000.      3.66562232E-02   54199672.    
 fin   54200000.       9663075.0       19.243088    
   5.6089807    
 -6.84908556E+16   19.243088    
 ezero   0.0000000    
   54200000.    
  3.55924490E+17

Total energy input of :1.859E+08 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 5.420E+07 is absorbed (entot) 
                         through inelastic collisions (shsum =5.420E+07)
                                           + heating (elhsum =3.330E+02)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  19.24 eV (from qtoteV)
                                  or :   5.61 eV (from (entot))
                                  or :******* eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  60.0, longitude 110.0.

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

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

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

 MAIN : The total energy input from the precipitation source is : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]
                                  and from photoelectron source : 4.3629E+08 [eV/cm2/s]
                                                             or : 6.9903E-04 [erg/cm2/s]
 That variable "errorgaupin" is:          104

 MAIN : Total energy deposition in [CO2] is 4.406E+07 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 1.380E+07 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 1.028E+07 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 6.948E+07 [eV.cm-2.s-1] ("shsum").

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

 MAIN : Total energy deposition in [O+]  is 8.442E-02 [eV.cm-2.s-1] ("shsum").
   2225891.0               2          21
   2239378.3               2          23

 Total Heating :  8.184E+02 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  5.2423648E-06
 entot depart   818.43823       818.43823    
 shsum :   20035144.       44060108.       44059288.       44059288.    
 shsum :   20233674.       57858608.       13798500.       57857788.    
 shsum :   20363414.       68142320.       10283708.       68141496.    
 shsum :   22609942.      1.37623472E+08   69481152.      1.37622656E+08
 shsum :   22609942.      1.37623472E+08  0.86833346      1.37622656E+08
 shsum :   22609942.      1.37623472E+08  8.44219625E-02  1.37622656E+08
 fin  1.37623472E+08   22609942.       19.296515    
   6.0868564    
 -2.92717376E+16   19.296515    
 ezero   0.0000000    
  1.37623472E+08
  1.51694414E+17

Total energy input of :4.363E+08 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 1.376E+08 is absorbed (entot) 
                         through inelastic collisions (shsum =1.376E+08)
                                           + heating (elhsum =8.184E+02)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  19.30 eV (from qtoteV)
                                  or :   6.09 eV (from (entot))
                                  or :******* eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  45.0, longitude 115.0.

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

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

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

 MAIN : The total energy input from the precipitation source is : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]
                                  and from photoelectron source : 1.6759E+06 [eV/cm2/s]
                                                             or : 2.6851E-06 [erg/cm2/s]
 That variable "errorgaupin" is:         4492

 MAIN : Total energy deposition in [CO2] is 1.587E+05 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 4.781E+04 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 3.288E+04 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 2.395E+05 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 2.872E-03 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 3.296E-04 [eV.cm-2.s-1] ("shsum").
   3432.8743               2          21
   3458.4238               2          23

 Total Heating :  1.786E+00 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  2.0154285E-08
 entot depart   1.7858279       1.7858279    
 shsum :   68373.633       158744.61       158742.83       158742.83    
 shsum :   69136.883       206551.47       47806.855       206549.69    
 shsum :   69630.258       239429.86       32878.395       239428.08    
 shsum :   77850.852       478934.50       239504.66       478932.75    
 shsum :   77850.852       478934.50      2.87168706E-03   478932.75    
 shsum :   77850.852       478934.50      3.29607516E-04   478932.75    
 fin   478934.50       77850.852       21.527122    
   6.1519494    
 -8.50128537E+18   21.527122    
 ezero   0.0000000    
   478934.50    
  3.94910448E+19

Total energy input of :1.676E+06 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 4.789E+05 is absorbed (entot) 
                         through inelastic collisions (shsum =4.789E+05)
                                           + heating (elhsum =1.786E+00)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  21.53 eV (from qtoteV)
                                  or :   6.15 eV (from (entot))
                                  or :******* eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  50.0, longitude 115.0.

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

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

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

 MAIN : The total energy input from the precipitation source is : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]
                                  and from photoelectron source : 1.0243E+07 [eV/cm2/s]
                                                             or : 1.6411E-05 [erg/cm2/s]
 That variable "errorgaupin" is:          439

 MAIN : Total energy deposition in [CO2] is 9.191E+05 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 2.859E+05 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 2.169E+05 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 1.442E+06 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 1.797E-02 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 1.834E-03 [eV.cm-2.s-1] ("shsum").
   106777.29               2          21
   107383.19               2          23

 Total Heating :  3.454E+01 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  1.0553090E-07
 entot depart   34.540180       34.540180    
 shsum :   473122.28       919090.06       919055.50       919055.50    
 shsum :   477118.75       1205022.0       285932.00       1204987.5    
 shsum :   479756.72       1421958.3       216936.27       1421923.8    
 shsum :   526129.19       2863490.3       1441532.0       2863455.8    
 shsum :   526129.19       2863490.3      1.79707743E-02   2863455.8    
 shsum :   526129.19       2863490.3      1.83354493E-03   2863455.8    
 fin   2863490.3       526129.19       19.467707    
   5.4425611    
 -1.25792734E+18   19.467707    
 ezero   0.0000000    
   2863490.3    
  6.46160993E+18

Total energy input of :1.024E+07 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 2.863E+06 is absorbed (entot) 
                         through inelastic collisions (shsum =2.863E+06)
                                           + heating (elhsum =3.454E+01)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  19.47 eV (from qtoteV)
                                  or :   5.44 eV (from (entot))
                                  or :******* eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  55.0, longitude 115.0.

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

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

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

 MAIN : The total energy input from the precipitation source is : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]
                                  and from photoelectron source : 3.8079E+07 [eV/cm2/s]
                                                             or : 6.1011E-05 [erg/cm2/s]
 That variable "errorgaupin" is:          220

 MAIN : Total energy deposition in [CO2] is 3.249E+06 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 1.050E+06 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 7.969E+05 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 5.343E+06 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 6.622E-02 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 6.665E-03 [eV.cm-2.s-1] ("shsum").
   145207.11               2          21
   146190.30               2          23

 Total Heating :  5.785E+01 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  3.8307994E-07
 entot depart   57.852921       57.852921    
 shsum :   1804955.6       3249138.3       3249080.5       3249080.5    
 shsum :   1819462.9       4298987.5       1049849.1       4298929.5    
 shsum :   1829073.4       5095903.5       796916.13       5095845.5    
 shsum :   2000045.8       10438498.       5342595.0       10438440.    
 shsum :   2000045.8       10438498.      6.62217438E-02   10438440.    
 shsum :   2000045.8       10438498.      6.66476181E-03   10438440.    
 fin   10438498.       2000045.8       19.039288    
   5.2191296    
 -3.30908573E+17   19.039288    
 ezero   0.0000000    
   10438498.    
  1.73803019E+18

Total energy input of :3.808E+07 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 1.044E+07 is absorbed (entot) 
                         through inelastic collisions (shsum =1.044E+07)
                                           + heating (elhsum =5.785E+01)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  19.04 eV (from qtoteV)
                                  or :   5.22 eV (from (entot))
                                  or :******* eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  60.0, longitude 115.0.

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

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

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

 MAIN : The total energy input from the precipitation source is : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]
                                  and from photoelectron source : 1.1609E+08 [eV/cm2/s]
                                                             or : 1.8599E-04 [erg/cm2/s]
 That variable "errorgaupin" is:           86

 MAIN : Total energy deposition in [CO2] is 1.032E+07 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 3.296E+06 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 2.488E+06 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 1.677E+07 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 2.255E-01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 2.249E-02 [eV.cm-2.s-1] ("shsum").
   524143.13               2          21
   527022.06               2          23

 Total Heating :  2.043E+02 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  1.2188955E-06
 entot depart   204.26366       204.26366    
 shsum :   5447634.5       10323874.       10323670.       10323670.    
 shsum :   5493794.5       13619396.       3295522.5       13619192.    
 shsum :   5524224.5       16107085.       2487689.0       16106881.    
 shsum :   6063029.5       32875242.       16768157.       32875038.    
 shsum :   6063029.5       32875242.      0.22547077       32875038.    
 shsum :   6063029.5       32875242.      2.24888287E-02   32875038.    
 fin   32875242.       6063029.5       19.146477    
   5.4222469    
 -1.09158681E+17   19.146477    
 ezero   0.0000000    
   32875242.    
  5.70124095E+17

Total energy input of :1.161E+08 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 3.288E+07 is absorbed (entot) 
                         through inelastic collisions (shsum =3.288E+07)
                                           + heating (elhsum =2.043E+02)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  19.15 eV (from qtoteV)
                                  or :   5.42 eV (from (entot))
                                  or :******* eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  45.0, longitude 120.0.

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

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

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

 MAIN : The total energy input from the precipitation source is : 1.3018E-28 [eV/cm2/s]
                                                             or : 2.0858E-40 [erg/cm2/s]
                                  and from photoelectron source : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]

 MAIN : Total energy deposition in [CO2] is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 Total Heating :  1.703E-36 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  0.0000000E+00
 entot depart  1.70344065E-36  1.70344065E-36
 shsum :   0.0000000      1.70344065E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.70344065E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.70344065E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.70344065E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.70344065E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.70344065E-36   0.0000000       0.0000000    
 fin  1.70344065E-36   0.0000000           +Infinity
       +Infinity
       -Infinity       +Infinity
 ezero   0.0000000    
  1.70344065E-36
       +Infinity

Total energy input of :1.302E-28 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 1.703E-36 is absorbed (entot) 
                         through inelastic collisions (shsum =0.000E+00)
                                           + heating (elhsum =1.703E-36)
 This refers to an energy gain of   +Inf %


 The average E. loss per ion pair is :   +Inf eV (from qtoteV)
                                  or :   +Inf eV (from (entot))
                                  or :   -Inf eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  50.0, longitude 120.0.

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

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

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

 MAIN : The total energy input from the precipitation source is : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]
                                  and from photoelectron source : 5.6658E+04 [eV/cm2/s]
                                                             or : 9.0777E-08 [erg/cm2/s]
 That variable "errorgaupin" is:         3911

 MAIN : Total energy deposition in [CO2] is 9.110E+03 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 1.527E+03 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 1.395E+03 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 6.607E+03 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 9.293E-05 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 1.616E-05 [eV.cm-2.s-1] ("shsum").
   1637.7853               2          21
   1645.3134               2          23

 Total Heating :  9.274E-01 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  7.5121342E-10
 entot depart  0.92740768      0.92740768    
 shsum :   1047.4731       9110.9990       9110.0713       9110.0713    
 shsum :   1075.9218       10638.029       1527.0305       10637.102    
 shsum :   1092.7130       12033.012       1394.9827       12032.084    
 shsum :   1333.1777       18640.311       6607.2988       18639.383    
 shsum :   1333.1777       18640.311      9.29300877E-05   18639.383    
 shsum :   1333.1777       18640.311      1.61571406E-05   18639.383    
 fin   18640.311       1333.1777       42.498127    
   13.981865    
 -4.96432139E+20   42.498127    
 ezero   0.0000000    
   18640.311    
  1.16812706E+21

Total energy input of :5.666E+04 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 1.864E+04 is absorbed (entot) 
                         through inelastic collisions (shsum =1.864E+04)
                                           + heating (elhsum =9.274E-01)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  42.50 eV (from qtoteV)
                                  or :  13.98 eV (from (entot))
                                  or :******* eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  55.0, longitude 120.0.

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

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

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

 MAIN : The total energy input from the precipitation source is : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]
                                  and from photoelectron source : 4.6897E+06 [eV/cm2/s]
                                                             or : 7.5138E-06 [erg/cm2/s]
 That variable "errorgaupin" is:         1200

 MAIN : Total energy deposition in [CO2] is 4.308E+05 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 1.346E+05 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 1.043E+05 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 6.710E+05 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 8.312E-03 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 8.761E-04 [eV.cm-2.s-1] ("shsum").
   10184.012               2          21
   10257.668               2          23

 Total Heating :  7.323E+00 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  5.0168936E-08
 entot depart   7.3231850       7.3231850    
 shsum :   206553.23       430808.66       430801.34       430801.34    
 shsum :   208453.14       565454.75       134646.09       565447.44    
 shsum :   209698.67       669779.06       104324.31       669771.75    
 shsum :   231237.97       1340791.5       671012.38       1340784.1    
 shsum :   231237.97       1340791.5      8.31227656E-03   1340784.1    
 shsum :   231237.97       1340791.5      8.76149279E-04   1340784.1    
 fin   1340791.5       231237.97       20.280809    
   5.7983189    
 -2.86212635E+18   20.280809    
 ezero   0.0000000    
   1340791.5    
  1.41124857E+19

Total energy input of :4.690E+06 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 1.341E+06 is absorbed (entot) 
                         through inelastic collisions (shsum =1.341E+06)
                                           + heating (elhsum =7.323E+00)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  20.28 eV (from qtoteV)
                                  or :   5.80 eV (from (entot))
                                  or :******* eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  60.0, longitude 120.0.

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

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

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

 MAIN : The total energy input from the precipitation source is : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]
                                  and from photoelectron source : 3.0629E+07 [eV/cm2/s]
                                                             or : 4.9074E-05 [erg/cm2/s]
 That variable "errorgaupin" is:          173

 MAIN : Total energy deposition in [CO2] is 2.624E+06 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 8.420E+05 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 6.379E+05 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 4.282E+06 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 5.264E-02 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 5.330E-03 [eV.cm-2.s-1] ("shsum").
   184598.16               2          21
   185722.13               2          23

 Total Heating :  6.307E+01 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  3.0828122E-07
 entot depart   63.071423       63.071423    
 shsum :   1445435.9       2623769.8       2623706.8       2623706.8    
 shsum :   1457110.5       3465749.3       841979.50       3465686.3    
 shsum :   1464839.6       4103606.5       637857.31       4103543.5    
 shsum :   1602060.8       8385707.5       4282101.0       8385644.5    
 shsum :   1602060.8       8385707.5      5.26416972E-02   8385644.5    
 shsum :   1602060.8       8385707.5      5.33014582E-03   8385644.5    
 fin   8385707.5       1602060.8       19.118462    
   5.2343254    
 -4.13113113E+17   19.118462    
 ezero   0.0000000    
   8385707.5    
  2.16080712E+18

Total energy input of :3.063E+07 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 8.386E+06 is absorbed (entot) 
                         through inelastic collisions (shsum =8.386E+06)
                                           + heating (elhsum =6.307E+01)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  19.12 eV (from qtoteV)
                                  or :   5.23 eV (from (entot))
                                  or :******* eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  45.0, longitude 125.0.

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

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

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

 MAIN : The total energy input from the precipitation source is : 1.3018E-28 [eV/cm2/s]
                                                             or : 2.0858E-40 [erg/cm2/s]
                                  and from photoelectron source : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]

 MAIN : Total energy deposition in [CO2] is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 Total Heating :  1.710E-36 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  0.0000000E+00
 entot depart  1.70993192E-36  1.70993192E-36
 shsum :   0.0000000      1.70993192E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.70993192E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.70993192E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.70993192E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.70993192E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.70993192E-36   0.0000000       0.0000000    
 fin  1.70993192E-36   0.0000000           +Infinity
       +Infinity
       -Infinity       +Infinity
 ezero   0.0000000    
  1.70993192E-36
       +Infinity

Total energy input of :1.302E-28 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 1.710E-36 is absorbed (entot) 
                         through inelastic collisions (shsum =0.000E+00)
                                           + heating (elhsum =1.710E-36)
 This refers to an energy gain of   +Inf %


 The average E. loss per ion pair is :   +Inf eV (from qtoteV)
                                  or :   +Inf eV (from (entot))
                                  or :   -Inf eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  50.0, longitude 125.0.

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

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

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

 MAIN : The total energy input from the precipitation source is : 1.3018E-28 [eV/cm2/s]
                                                             or : 2.0858E-40 [erg/cm2/s]
                                  and from photoelectron source : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]

 MAIN : Total energy deposition in [CO2] is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 Total Heating :  1.690E-36 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  0.0000000E+00
 entot depart  1.69034011E-36  1.69034011E-36
 shsum :   0.0000000      1.69034011E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.69034011E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.69034011E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.69034011E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.69034011E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.69034011E-36   0.0000000       0.0000000    
 fin  1.69034011E-36   0.0000000           +Infinity
       +Infinity
       -Infinity       +Infinity
 ezero   0.0000000    
  1.69034011E-36
       +Infinity

Total energy input of :1.302E-28 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 1.690E-36 is absorbed (entot) 
                         through inelastic collisions (shsum =0.000E+00)
                                           + heating (elhsum =1.690E-36)
 This refers to an energy gain of   +Inf %


 The average E. loss per ion pair is :   +Inf eV (from qtoteV)
                                  or :   +Inf eV (from (entot))
                                  or :   -Inf eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  55.0, longitude 125.0.

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

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

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

 MAIN : The total energy input from the precipitation source is : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]
                                  and from photoelectron source : 9.0209E+03 [eV/cm2/s]
                                                             or : 1.4453E-08 [erg/cm2/s]
 That variable "errorgaupin" is:         2350

 MAIN : Total energy deposition in [CO2] is 1.697E+03 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 3.200E+02 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 1.932E+02 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 1.109E+03 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 1.321E-05 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 2.690E-06 [eV.cm-2.s-1] ("shsum").
   17.525003               2          21
   17.612188               2          23

 Total Heating :  5.829E-03 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  1.7872022E-10
 entot depart  5.82916569E-03  5.82916569E-03
 shsum :   114.10676       1697.1396       1697.1338       1697.1338    
 shsum :   120.87492       2017.1180       319.97842       2017.1122    
 shsum :   124.71816       2210.2952       193.17709       2210.2893    
 shsum :   167.35767       3319.7607       1109.4655       3319.7549    
 shsum :   167.35767       3319.7607      1.32133173E-05   3319.7549    
 shsum :   167.35767       3319.7607      2.68986082E-06   3319.7549    
 fin   3319.7607       167.35767       53.902042    
   19.836323    
 -3.95459788E+21   53.902042    
 ezero   0.0000000    
   3319.7607    
  7.33663851E+21

Total energy input of :9.021E+03 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 3.320E+03 is absorbed (entot) 
                         through inelastic collisions (shsum =3.320E+03)
                                           + heating (elhsum =5.829E-03)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  53.90 eV (from qtoteV)
                                  or :  19.84 eV (from (entot))
                                  or :******* eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  60.0, longitude 125.0.

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

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

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

 MAIN : The total energy input from the precipitation source is : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]
                                  and from photoelectron source : 5.2198E+06 [eV/cm2/s]
                                                             or : 8.3632E-06 [erg/cm2/s]
 That variable "errorgaupin" is:          528

 MAIN : Total energy deposition in [CO2] is 4.992E+05 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 1.504E+05 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 1.143E+05 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 7.418E+05 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 9.128E-03 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 9.705E-04 [eV.cm-2.s-1] ("shsum").
   41910.684               2          21
   42187.422               2          23

 Total Heating :  1.725E+01 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  5.6297640E-08
 entot depart   17.251211       17.251211    
 shsum :   229357.25       499200.63       499183.38       499183.38    
 shsum :   231489.25       649620.75       150420.14       649603.50    
 shsum :   232885.64       763897.69       114276.95       763880.44    
 shsum :   256952.42       1505698.5       741800.81       1505681.3    
 shsum :   256952.42       1505698.5      9.12757032E-03   1505681.3    
 shsum :   256952.42       1505698.5      9.70500871E-04   1505681.3    
 fin   1505698.5       256952.42       20.314274    
   5.8598337    
 -2.57569972E+18   20.314274    
 ezero   0.0000000    
   1505698.5    
  1.26792602E+19

Total energy input of :5.220E+06 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 1.506E+06 is absorbed (entot) 
                         through inelastic collisions (shsum =1.506E+06)
                                           + heating (elhsum =1.725E+01)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  20.31 eV (from qtoteV)
                                  or :   5.86 eV (from (entot))
                                  or :******* eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  45.0, longitude 130.0.

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

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

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

 MAIN : The total energy input from the precipitation source is : 1.3018E-28 [eV/cm2/s]
                                                             or : 2.0858E-40 [erg/cm2/s]
                                  and from photoelectron source : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]

 MAIN : Total energy deposition in [CO2] is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 Total Heating :  1.713E-36 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  0.0000000E+00
 entot depart  1.71258008E-36  1.71258008E-36
 shsum :   0.0000000      1.71258008E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.71258008E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.71258008E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.71258008E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.71258008E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.71258008E-36   0.0000000       0.0000000    
 fin  1.71258008E-36   0.0000000           +Infinity
       +Infinity
       -Infinity       +Infinity
 ezero   0.0000000    
  1.71258008E-36
       +Infinity

Total energy input of :1.302E-28 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 1.713E-36 is absorbed (entot) 
                         through inelastic collisions (shsum =0.000E+00)
                                           + heating (elhsum =1.713E-36)
 This refers to an energy gain of   +Inf %


 The average E. loss per ion pair is :   +Inf eV (from qtoteV)
                                  or :   +Inf eV (from (entot))
                                  or :   -Inf eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  50.0, longitude 130.0.

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

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

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

 MAIN : The total energy input from the precipitation source is : 1.3018E-28 [eV/cm2/s]
                                                             or : 2.0858E-40 [erg/cm2/s]
                                  and from photoelectron source : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]

 MAIN : Total energy deposition in [CO2] is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 Total Heating :  1.688E-36 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  0.0000000E+00
 entot depart  1.68843685E-36  1.68843685E-36
 shsum :   0.0000000      1.68843685E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.68843685E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.68843685E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.68843685E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.68843685E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.68843685E-36   0.0000000       0.0000000    
 fin  1.68843685E-36   0.0000000           +Infinity
       +Infinity
       -Infinity       +Infinity
 ezero   0.0000000    
  1.68843685E-36
       +Infinity

Total energy input of :1.302E-28 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 1.688E-36 is absorbed (entot) 
                         through inelastic collisions (shsum =0.000E+00)
                                           + heating (elhsum =1.688E-36)
 This refers to an energy gain of   +Inf %


 The average E. loss per ion pair is :   +Inf eV (from qtoteV)
                                  or :   +Inf eV (from (entot))
                                  or :   -Inf eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  55.0, longitude 130.0.

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

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

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

 MAIN : The total energy input from the precipitation source is : 1.3018E-28 [eV/cm2/s]
                                                             or : 2.0858E-40 [erg/cm2/s]
                                  and from photoelectron source : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]

 MAIN : Total energy deposition in [CO2] is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 Total Heating :  1.766E-36 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  0.0000000E+00
 entot depart  1.76603444E-36  1.76603444E-36
 shsum :   0.0000000      1.76603444E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.76603444E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.76603444E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.76603444E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.76603444E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.76603444E-36   0.0000000       0.0000000    
 fin  1.76603444E-36   0.0000000           +Infinity
       +Infinity
       -Infinity       +Infinity
 ezero   0.0000000    
  1.76603444E-36
       +Infinity

Total energy input of :1.302E-28 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 1.766E-36 is absorbed (entot) 
                         through inelastic collisions (shsum =0.000E+00)
                                           + heating (elhsum =1.766E-36)
 This refers to an energy gain of   +Inf %


 The average E. loss per ion pair is :   +Inf eV (from qtoteV)
                                  or :   +Inf eV (from (entot))
                                  or :   -Inf eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  60.0, longitude 130.0.

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

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

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

 MAIN : The total energy input from the precipitation source is : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]
                                  and from photoelectron source : 6.6704E+04 [eV/cm2/s]
                                                             or : 1.0687E-07 [erg/cm2/s]
 That variable "errorgaupin" is:         2862

 MAIN : Total energy deposition in [CO2] is 1.441E+04 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 2.416E+03 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 2.224E+03 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 9.850E+03 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 1.226E-04 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 1.897E-05 [eV.cm-2.s-1] ("shsum").
   2136.0962               2          21
   2147.3350               2          23

 Total Heating :  1.551E+00 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  1.1373384E-09
 entot depart   1.5511445       1.5511445    
 shsum :   1258.7716       14406.830       14405.279       14405.279    
 shsum :   1301.8428       16822.393       2415.5625       16820.842    
 shsum :   1327.8883       19046.615       2224.2227       19045.064    
 shsum :   1676.4415       28896.340       9849.7246       28894.789    
 shsum :   1676.4415       28896.340      1.22645390E-04   28894.789    
 shsum :   1676.4415       28896.340      1.89684470E-05   28894.789    
 fin   28896.340       1676.4415       39.788864    
   17.236712    
 -3.94783995E+20   39.788864    
 ezero   0.0000000    
   28896.340    
  9.92197182E+20

Total energy input of :6.670E+04 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 2.890E+04 is absorbed (entot) 
                         through inelastic collisions (shsum =2.889E+04)
                                           + heating (elhsum =1.551E+00)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  39.79 eV (from qtoteV)
                                  or :  17.24 eV (from (entot))
                                  or :******* eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  45.0, longitude 135.0.

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

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

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

 MAIN : The total energy input from the precipitation source is : 1.3018E-28 [eV/cm2/s]
                                                             or : 2.0858E-40 [erg/cm2/s]
                                  and from photoelectron source : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]

 MAIN : Total energy deposition in [CO2] is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 Total Heating :  1.702E-36 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  0.0000000E+00
 entot depart  1.70158457E-36  1.70158457E-36
 shsum :   0.0000000      1.70158457E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.70158457E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.70158457E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.70158457E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.70158457E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.70158457E-36   0.0000000       0.0000000    
 fin  1.70158457E-36   0.0000000           +Infinity
       +Infinity
       -Infinity       +Infinity
 ezero   0.0000000    
  1.70158457E-36
       +Infinity

Total energy input of :1.302E-28 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 1.702E-36 is absorbed (entot) 
                         through inelastic collisions (shsum =0.000E+00)
                                           + heating (elhsum =1.702E-36)
 This refers to an energy gain of   +Inf %


 The average E. loss per ion pair is :   +Inf eV (from qtoteV)
                                  or :   +Inf eV (from (entot))
                                  or :   -Inf eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  50.0, longitude 135.0.

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

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

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

 MAIN : The total energy input from the precipitation source is : 1.3018E-28 [eV/cm2/s]
                                                             or : 2.0858E-40 [erg/cm2/s]
                                  and from photoelectron source : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]

 MAIN : Total energy deposition in [CO2] is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 Total Heating :  1.684E-36 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  0.0000000E+00
 entot depart  1.68446407E-36  1.68446407E-36
 shsum :   0.0000000      1.68446407E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.68446407E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.68446407E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.68446407E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.68446407E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.68446407E-36   0.0000000       0.0000000    
 fin  1.68446407E-36   0.0000000           +Infinity
       +Infinity
       -Infinity       +Infinity
 ezero   0.0000000    
  1.68446407E-36
       +Infinity

Total energy input of :1.302E-28 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 1.684E-36 is absorbed (entot) 
                         through inelastic collisions (shsum =0.000E+00)
                                           + heating (elhsum =1.684E-36)
 This refers to an energy gain of   +Inf %


 The average E. loss per ion pair is :   +Inf eV (from qtoteV)
                                  or :   +Inf eV (from (entot))
                                  or :   -Inf eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  55.0, longitude 135.0.

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

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

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

 MAIN : The total energy input from the precipitation source is : 1.3018E-28 [eV/cm2/s]
                                                             or : 2.0858E-40 [erg/cm2/s]
                                  and from photoelectron source : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]

 MAIN : Total energy deposition in [CO2] is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 Total Heating :  1.763E-36 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  0.0000000E+00
 entot depart  1.76280656E-36  1.76280656E-36
 shsum :   0.0000000      1.76280656E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.76280656E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.76280656E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.76280656E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.76280656E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.76280656E-36   0.0000000       0.0000000    
 fin  1.76280656E-36   0.0000000           +Infinity
       +Infinity
       -Infinity       +Infinity
 ezero   0.0000000    
  1.76280656E-36
       +Infinity

Total energy input of :1.302E-28 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 1.763E-36 is absorbed (entot) 
                         through inelastic collisions (shsum =0.000E+00)
                                           + heating (elhsum =1.763E-36)
 This refers to an energy gain of   +Inf %


 The average E. loss per ion pair is :   +Inf eV (from qtoteV)
                                  or :   +Inf eV (from (entot))
                                  or :   -Inf eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  60.0, longitude 135.0.

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

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

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

 MAIN : The total energy input from the precipitation source is : 1.3018E-28 [eV/cm2/s]
                                                             or : 2.0858E-40 [erg/cm2/s]
                                  and from photoelectron source : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]

 MAIN : Total energy deposition in [CO2] is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 Total Heating :  1.750E-36 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  0.0000000E+00
 entot depart  1.74972933E-36  1.74972933E-36
 shsum :   0.0000000      1.74972933E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.74972933E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.74972933E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.74972933E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.74972933E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.74972933E-36   0.0000000       0.0000000    
 fin  1.74972933E-36   0.0000000           +Infinity
       +Infinity
       -Infinity       +Infinity
 ezero   0.0000000    
  1.74972933E-36
       +Infinity

Total energy input of :1.302E-28 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 1.750E-36 is absorbed (entot) 
                         through inelastic collisions (shsum =0.000E+00)
                                           + heating (elhsum =1.750E-36)
 This refers to an energy gain of   +Inf %


 The average E. loss per ion pair is :   +Inf eV (from qtoteV)
                                  or :   +Inf eV (from (entot))
                                  or :   -Inf eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  45.0, longitude 140.0.

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

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

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

 MAIN : The total energy input from the precipitation source is : 1.3018E-28 [eV/cm2/s]
                                                             or : 2.0858E-40 [erg/cm2/s]
                                  and from photoelectron source : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]

 MAIN : Total energy deposition in [CO2] is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 Total Heating :  1.695E-36 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  0.0000000E+00
 entot depart  1.69493959E-36  1.69493959E-36
 shsum :   0.0000000      1.69493959E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.69493959E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.69493959E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.69493959E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.69493959E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.69493959E-36   0.0000000       0.0000000    
 fin  1.69493959E-36   0.0000000           +Infinity
       +Infinity
       -Infinity       +Infinity
 ezero   0.0000000    
  1.69493959E-36
       +Infinity

Total energy input of :1.302E-28 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 1.695E-36 is absorbed (entot) 
                         through inelastic collisions (shsum =0.000E+00)
                                           + heating (elhsum =1.695E-36)
 This refers to an energy gain of   +Inf %


 The average E. loss per ion pair is :   +Inf eV (from qtoteV)
                                  or :   +Inf eV (from (entot))
                                  or :   -Inf eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  50.0, longitude 140.0.

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

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

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

 MAIN : The total energy input from the precipitation source is : 1.3018E-28 [eV/cm2/s]
                                                             or : 2.0858E-40 [erg/cm2/s]
                                  and from photoelectron source : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]

 MAIN : Total energy deposition in [CO2] is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 Total Heating :  1.677E-36 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  0.0000000E+00
 entot depart  1.67679078E-36  1.67679078E-36
 shsum :   0.0000000      1.67679078E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.67679078E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.67679078E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.67679078E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.67679078E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.67679078E-36   0.0000000       0.0000000    
 fin  1.67679078E-36   0.0000000           +Infinity
       +Infinity
       -Infinity       +Infinity
 ezero   0.0000000    
  1.67679078E-36
       +Infinity

Total energy input of :1.302E-28 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 1.677E-36 is absorbed (entot) 
                         through inelastic collisions (shsum =0.000E+00)
                                           + heating (elhsum =1.677E-36)
 This refers to an energy gain of   +Inf %


 The average E. loss per ion pair is :   +Inf eV (from qtoteV)
                                  or :   +Inf eV (from (entot))
                                  or :   -Inf eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  55.0, longitude 140.0.

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

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

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

 MAIN : The total energy input from the precipitation source is : 1.3018E-28 [eV/cm2/s]
                                                             or : 2.0858E-40 [erg/cm2/s]
                                  and from photoelectron source : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]

 MAIN : Total energy deposition in [CO2] is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 Total Heating :  1.760E-36 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  0.0000000E+00
 entot depart  1.76040611E-36  1.76040611E-36
 shsum :   0.0000000      1.76040611E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.76040611E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.76040611E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.76040611E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.76040611E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.76040611E-36   0.0000000       0.0000000    
 fin  1.76040611E-36   0.0000000           +Infinity
       +Infinity
       -Infinity       +Infinity
 ezero   0.0000000    
  1.76040611E-36
       +Infinity

Total energy input of :1.302E-28 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 1.760E-36 is absorbed (entot) 
                         through inelastic collisions (shsum =0.000E+00)
                                           + heating (elhsum =1.760E-36)
 This refers to an energy gain of   +Inf %


 The average E. loss per ion pair is :   +Inf eV (from qtoteV)
                                  or :   +Inf eV (from (entot))
                                  or :   -Inf eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  60.0, longitude 140.0.

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

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

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

 MAIN : The total energy input from the precipitation source is : 1.3018E-28 [eV/cm2/s]
                                                             or : 2.0858E-40 [erg/cm2/s]
                                  and from photoelectron source : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]

 MAIN : Total energy deposition in [CO2] is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 Total Heating :  1.752E-36 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  0.0000000E+00
 entot depart  1.75194020E-36  1.75194020E-36
 shsum :   0.0000000      1.75194020E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.75194020E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.75194020E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.75194020E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.75194020E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.75194020E-36   0.0000000       0.0000000    
 fin  1.75194020E-36   0.0000000           +Infinity
       +Infinity
       -Infinity       +Infinity
 ezero   0.0000000    
  1.75194020E-36
       +Infinity

Total energy input of :1.302E-28 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 1.752E-36 is absorbed (entot) 
                         through inelastic collisions (shsum =0.000E+00)
                                           + heating (elhsum =1.752E-36)
 This refers to an energy gain of   +Inf %


 The average E. loss per ion pair is :   +Inf eV (from qtoteV)
                                  or :   +Inf eV (from (entot))
                                  or :   -Inf eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  45.0, longitude 145.0.

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

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

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

 MAIN : The total energy input from the precipitation source is : 1.3018E-28 [eV/cm2/s]
                                                             or : 2.0858E-40 [erg/cm2/s]
                                  and from photoelectron source : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]

 MAIN : Total energy deposition in [CO2] is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 Total Heating :  1.685E-36 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  0.0000000E+00
 entot depart  1.68535086E-36  1.68535086E-36
 shsum :   0.0000000      1.68535086E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.68535086E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.68535086E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.68535086E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.68535086E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.68535086E-36   0.0000000       0.0000000    
 fin  1.68535086E-36   0.0000000           +Infinity
       +Infinity
       -Infinity       +Infinity
 ezero   0.0000000    
  1.68535086E-36
       +Infinity

Total energy input of :1.302E-28 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 1.685E-36 is absorbed (entot) 
                         through inelastic collisions (shsum =0.000E+00)
                                           + heating (elhsum =1.685E-36)
 This refers to an energy gain of   +Inf %


 The average E. loss per ion pair is :   +Inf eV (from qtoteV)
                                  or :   +Inf eV (from (entot))
                                  or :   -Inf eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  50.0, longitude 145.0.

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

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

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

 MAIN : The total energy input from the precipitation source is : 1.3018E-28 [eV/cm2/s]
                                                             or : 2.0858E-40 [erg/cm2/s]
                                  and from photoelectron source : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]

 MAIN : Total energy deposition in [CO2] is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 Total Heating :  1.671E-36 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  0.0000000E+00
 entot depart  1.67124532E-36  1.67124532E-36
 shsum :   0.0000000      1.67124532E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.67124532E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.67124532E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.67124532E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.67124532E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.67124532E-36   0.0000000       0.0000000    
 fin  1.67124532E-36   0.0000000           +Infinity
       +Infinity
       -Infinity       +Infinity
 ezero   0.0000000    
  1.67124532E-36
       +Infinity

Total energy input of :1.302E-28 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 1.671E-36 is absorbed (entot) 
                         through inelastic collisions (shsum =0.000E+00)
                                           + heating (elhsum =1.671E-36)
 This refers to an energy gain of   +Inf %


 The average E. loss per ion pair is :   +Inf eV (from qtoteV)
                                  or :   +Inf eV (from (entot))
                                  or :   -Inf eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  55.0, longitude 145.0.

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

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

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

 MAIN : The total energy input from the precipitation source is : 1.3018E-28 [eV/cm2/s]
                                                             or : 2.0858E-40 [erg/cm2/s]
                                  and from photoelectron source : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]

 MAIN : Total energy deposition in [CO2] is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 Total Heating :  1.758E-36 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  0.0000000E+00
 entot depart  1.75834895E-36  1.75834895E-36
 shsum :   0.0000000      1.75834895E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.75834895E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.75834895E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.75834895E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.75834895E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.75834895E-36   0.0000000       0.0000000    
 fin  1.75834895E-36   0.0000000           +Infinity
       +Infinity
       -Infinity       +Infinity
 ezero   0.0000000    
  1.75834895E-36
       +Infinity

Total energy input of :1.302E-28 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 1.758E-36 is absorbed (entot) 
                         through inelastic collisions (shsum =0.000E+00)
                                           + heating (elhsum =1.758E-36)
 This refers to an energy gain of   +Inf %


 The average E. loss per ion pair is :   +Inf eV (from qtoteV)
                                  or :   +Inf eV (from (entot))
                                  or :   -Inf eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  60.0, longitude 145.0.

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

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

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

 MAIN : The total energy input from the precipitation source is : 1.3018E-28 [eV/cm2/s]
                                                             or : 2.0858E-40 [erg/cm2/s]
                                  and from photoelectron source : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]

 MAIN : Total energy deposition in [CO2] is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 Total Heating :  1.755E-36 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  0.0000000E+00
 entot depart  1.75539300E-36  1.75539300E-36
 shsum :   0.0000000      1.75539300E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.75539300E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.75539300E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.75539300E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.75539300E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.75539300E-36   0.0000000       0.0000000    
 fin  1.75539300E-36   0.0000000           +Infinity
       +Infinity
       -Infinity       +Infinity
 ezero   0.0000000    
  1.75539300E-36
       +Infinity

Total energy input of :1.302E-28 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 1.755E-36 is absorbed (entot) 
                         through inelastic collisions (shsum =0.000E+00)
                                           + heating (elhsum =1.755E-36)
 This refers to an energy gain of   +Inf %


 The average E. loss per ion pair is :   +Inf eV (from qtoteV)
                                  or :   +Inf eV (from (entot))
                                  or :   -Inf eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  45.0, longitude 150.0.

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

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

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

 MAIN : The total energy input from the precipitation source is : 1.3018E-28 [eV/cm2/s]
                                                             or : 2.0858E-40 [erg/cm2/s]
                                  and from photoelectron source : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]

 MAIN : Total energy deposition in [CO2] is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 Total Heating :  1.678E-36 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  0.0000000E+00
 entot depart  1.67753569E-36  1.67753569E-36
 shsum :   0.0000000      1.67753569E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.67753569E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.67753569E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.67753569E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.67753569E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.67753569E-36   0.0000000       0.0000000    
 fin  1.67753569E-36   0.0000000           +Infinity
       +Infinity
       -Infinity       +Infinity
 ezero   0.0000000    
  1.67753569E-36
       +Infinity

Total energy input of :1.302E-28 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 1.678E-36 is absorbed (entot) 
                         through inelastic collisions (shsum =0.000E+00)
                                           + heating (elhsum =1.678E-36)
 This refers to an energy gain of   +Inf %


 The average E. loss per ion pair is :   +Inf eV (from qtoteV)
                                  or :   +Inf eV (from (entot))
                                  or :   -Inf eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  50.0, longitude 150.0.

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

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

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

 MAIN : The total energy input from the precipitation source is : 1.3018E-28 [eV/cm2/s]
                                                             or : 2.0858E-40 [erg/cm2/s]
                                  and from photoelectron source : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]

 MAIN : Total energy deposition in [CO2] is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 Total Heating :  1.670E-36 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  0.0000000E+00
 entot depart  1.67020499E-36  1.67020499E-36
 shsum :   0.0000000      1.67020499E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.67020499E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.67020499E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.67020499E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.67020499E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.67020499E-36   0.0000000       0.0000000    
 fin  1.67020499E-36   0.0000000           +Infinity
       +Infinity
       -Infinity       +Infinity
 ezero   0.0000000    
  1.67020499E-36
       +Infinity

Total energy input of :1.302E-28 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 1.670E-36 is absorbed (entot) 
                         through inelastic collisions (shsum =0.000E+00)
                                           + heating (elhsum =1.670E-36)
 This refers to an energy gain of   +Inf %


 The average E. loss per ion pair is :   +Inf eV (from qtoteV)
                                  or :   +Inf eV (from (entot))
                                  or :   -Inf eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  55.0, longitude 150.0.

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

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

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

 MAIN : The total energy input from the precipitation source is : 1.3018E-28 [eV/cm2/s]
                                                             or : 2.0858E-40 [erg/cm2/s]
                                  and from photoelectron source : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]

 MAIN : Total energy deposition in [CO2] is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 Total Heating :  1.764E-36 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  0.0000000E+00
 entot depart  1.76426069E-36  1.76426069E-36
 shsum :   0.0000000      1.76426069E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.76426069E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.76426069E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.76426069E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.76426069E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.76426069E-36   0.0000000       0.0000000    
 fin  1.76426069E-36   0.0000000           +Infinity
       +Infinity
       -Infinity       +Infinity
 ezero   0.0000000    
  1.76426069E-36
       +Infinity

Total energy input of :1.302E-28 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 1.764E-36 is absorbed (entot) 
                         through inelastic collisions (shsum =0.000E+00)
                                           + heating (elhsum =1.764E-36)
 This refers to an energy gain of   +Inf %


 The average E. loss per ion pair is :   +Inf eV (from qtoteV)
                                  or :   +Inf eV (from (entot))
                                  or :   -Inf eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  60.0, longitude 150.0.

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

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

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

 MAIN : The total energy input from the precipitation source is : 1.3018E-28 [eV/cm2/s]
                                                             or : 2.0858E-40 [erg/cm2/s]
                                  and from photoelectron source : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]

 MAIN : Total energy deposition in [CO2] is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 Total Heating :  1.761E-36 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  0.0000000E+00
 entot depart  1.76067820E-36  1.76067820E-36
 shsum :   0.0000000      1.76067820E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.76067820E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.76067820E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.76067820E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.76067820E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.76067820E-36   0.0000000       0.0000000    
 fin  1.76067820E-36   0.0000000           +Infinity
       +Infinity
       -Infinity       +Infinity
 ezero   0.0000000    
  1.76067820E-36
       +Infinity

Total energy input of :1.302E-28 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 1.761E-36 is absorbed (entot) 
                         through inelastic collisions (shsum =0.000E+00)
                                           + heating (elhsum =1.761E-36)
 This refers to an energy gain of   +Inf %


 The average E. loss per ion pair is :   +Inf eV (from qtoteV)
                                  or :   +Inf eV (from (entot))
                                  or :   -Inf eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  45.0, longitude 155.0.

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

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

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

 MAIN : The total energy input from the precipitation source is : 1.3018E-28 [eV/cm2/s]
                                                             or : 2.0858E-40 [erg/cm2/s]
                                  and from photoelectron source : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]

 MAIN : Total energy deposition in [CO2] is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 Total Heating :  1.679E-36 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  0.0000000E+00
 entot depart  1.67893080E-36  1.67893080E-36
 shsum :   0.0000000      1.67893080E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.67893080E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.67893080E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.67893080E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.67893080E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.67893080E-36   0.0000000       0.0000000    
 fin  1.67893080E-36   0.0000000           +Infinity
       +Infinity
       -Infinity       +Infinity
 ezero   0.0000000    
  1.67893080E-36
       +Infinity

Total energy input of :1.302E-28 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 1.679E-36 is absorbed (entot) 
                         through inelastic collisions (shsum =0.000E+00)
                                           + heating (elhsum =1.679E-36)
 This refers to an energy gain of   +Inf %


 The average E. loss per ion pair is :   +Inf eV (from qtoteV)
                                  or :   +Inf eV (from (entot))
                                  or :   -Inf eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  50.0, longitude 155.0.

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

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

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

 MAIN : The total energy input from the precipitation source is : 1.3018E-28 [eV/cm2/s]
                                                             or : 2.0858E-40 [erg/cm2/s]
                                  and from photoelectron source : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]

 MAIN : Total energy deposition in [CO2] is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 Total Heating :  1.676E-36 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  0.0000000E+00
 entot depart  1.67592767E-36  1.67592767E-36
 shsum :   0.0000000      1.67592767E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.67592767E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.67592767E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.67592767E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.67592767E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.67592767E-36   0.0000000       0.0000000    
 fin  1.67592767E-36   0.0000000           +Infinity
       +Infinity
       -Infinity       +Infinity
 ezero   0.0000000    
  1.67592767E-36
       +Infinity

Total energy input of :1.302E-28 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 1.676E-36 is absorbed (entot) 
                         through inelastic collisions (shsum =0.000E+00)
                                           + heating (elhsum =1.676E-36)
 This refers to an energy gain of   +Inf %


 The average E. loss per ion pair is :   +Inf eV (from qtoteV)
                                  or :   +Inf eV (from (entot))
                                  or :   -Inf eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  55.0, longitude 155.0.

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

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

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

 MAIN : The total energy input from the precipitation source is : 1.3018E-28 [eV/cm2/s]
                                                             or : 2.0858E-40 [erg/cm2/s]
                                  and from photoelectron source : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]

 MAIN : Total energy deposition in [CO2] is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 Total Heating :  1.675E-36 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  0.0000000E+00
 entot depart  1.67470978E-36  1.67470978E-36
 shsum :   0.0000000      1.67470978E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.67470978E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.67470978E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.67470978E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.67470978E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.67470978E-36   0.0000000       0.0000000    
 fin  1.67470978E-36   0.0000000           +Infinity
       +Infinity
       -Infinity       +Infinity
 ezero   0.0000000    
  1.67470978E-36
       +Infinity

Total energy input of :1.302E-28 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 1.675E-36 is absorbed (entot) 
                         through inelastic collisions (shsum =0.000E+00)
                                           + heating (elhsum =1.675E-36)
 This refers to an energy gain of   +Inf %


 The average E. loss per ion pair is :   +Inf eV (from qtoteV)
                                  or :   +Inf eV (from (entot))
                                  or :   -Inf eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  60.0, longitude 155.0.

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

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

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

 MAIN : The total energy input from the precipitation source is : 1.3018E-28 [eV/cm2/s]
                                                             or : 2.0858E-40 [erg/cm2/s]
                                  and from photoelectron source : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]

 MAIN : Total energy deposition in [CO2] is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 Total Heating :  1.677E-36 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  0.0000000E+00
 entot depart  1.67738197E-36  1.67738197E-36
 shsum :   0.0000000      1.67738197E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.67738197E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.67738197E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.67738197E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.67738197E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.67738197E-36   0.0000000       0.0000000    
 fin  1.67738197E-36   0.0000000           +Infinity
       +Infinity
       -Infinity       +Infinity
 ezero   0.0000000    
  1.67738197E-36
       +Infinity

Total energy input of :1.302E-28 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 1.677E-36 is absorbed (entot) 
                         through inelastic collisions (shsum =0.000E+00)
                                           + heating (elhsum =1.677E-36)
 This refers to an energy gain of   +Inf %


 The average E. loss per ion pair is :   +Inf eV (from qtoteV)
                                  or :   +Inf eV (from (entot))
                                  or :   -Inf eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  45.0, longitude 160.0.

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

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

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

 MAIN : The total energy input from the precipitation source is : 1.3018E-28 [eV/cm2/s]
                                                             or : 2.0858E-40 [erg/cm2/s]
                                  and from photoelectron source : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]

 MAIN : Total energy deposition in [CO2] is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 Total Heating :  1.682E-36 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  0.0000000E+00
 entot depart  1.68241840E-36  1.68241840E-36
 shsum :   0.0000000      1.68241840E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.68241840E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.68241840E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.68241840E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.68241840E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.68241840E-36   0.0000000       0.0000000    
 fin  1.68241840E-36   0.0000000           +Infinity
       +Infinity
       -Infinity       +Infinity
 ezero   0.0000000    
  1.68241840E-36
       +Infinity

Total energy input of :1.302E-28 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 1.682E-36 is absorbed (entot) 
                         through inelastic collisions (shsum =0.000E+00)
                                           + heating (elhsum =1.682E-36)
 This refers to an energy gain of   +Inf %


 The average E. loss per ion pair is :   +Inf eV (from qtoteV)
                                  or :   +Inf eV (from (entot))
                                  or :   -Inf eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  50.0, longitude 160.0.

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

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

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

 MAIN : The total energy input from the precipitation source is : 1.3018E-28 [eV/cm2/s]
                                                             or : 2.0858E-40 [erg/cm2/s]
                                  and from photoelectron source : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]

 MAIN : Total energy deposition in [CO2] is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 Total Heating :  1.685E-36 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  0.0000000E+00
 entot depart  1.68497239E-36  1.68497239E-36
 shsum :   0.0000000      1.68497239E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.68497239E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.68497239E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.68497239E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.68497239E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.68497239E-36   0.0000000       0.0000000    
 fin  1.68497239E-36   0.0000000           +Infinity
       +Infinity
       -Infinity       +Infinity
 ezero   0.0000000    
  1.68497239E-36
       +Infinity

Total energy input of :1.302E-28 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 1.685E-36 is absorbed (entot) 
                         through inelastic collisions (shsum =0.000E+00)
                                           + heating (elhsum =1.685E-36)
 This refers to an energy gain of   +Inf %


 The average E. loss per ion pair is :   +Inf eV (from qtoteV)
                                  or :   +Inf eV (from (entot))
                                  or :   -Inf eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  55.0, longitude 160.0.

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

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

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

 MAIN : The total energy input from the precipitation source is : 1.3018E-28 [eV/cm2/s]
                                                             or : 2.0858E-40 [erg/cm2/s]
                                  and from photoelectron source : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]

 MAIN : Total energy deposition in [CO2] is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 Total Heating :  1.687E-36 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  0.0000000E+00
 entot depart  1.68747904E-36  1.68747904E-36
 shsum :   0.0000000      1.68747904E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.68747904E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.68747904E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.68747904E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.68747904E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.68747904E-36   0.0000000       0.0000000    
 fin  1.68747904E-36   0.0000000           +Infinity
       +Infinity
       -Infinity       +Infinity
 ezero   0.0000000    
  1.68747904E-36
       +Infinity

Total energy input of :1.302E-28 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 1.687E-36 is absorbed (entot) 
                         through inelastic collisions (shsum =0.000E+00)
                                           + heating (elhsum =1.687E-36)
 This refers to an energy gain of   +Inf %


 The average E. loss per ion pair is :   +Inf eV (from qtoteV)
                                  or :   +Inf eV (from (entot))
                                  or :   -Inf eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  60.0, longitude 160.0.

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

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

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

 MAIN : The total energy input from the precipitation source is : 1.3018E-28 [eV/cm2/s]
                                                             or : 2.0858E-40 [erg/cm2/s]
                                  and from photoelectron source : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]

 MAIN : Total energy deposition in [CO2] is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 Total Heating :  1.689E-36 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  0.0000000E+00
 entot depart  1.68948919E-36  1.68948919E-36
 shsum :   0.0000000      1.68948919E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.68948919E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.68948919E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.68948919E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.68948919E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.68948919E-36   0.0000000       0.0000000    
 fin  1.68948919E-36   0.0000000           +Infinity
       +Infinity
       -Infinity       +Infinity
 ezero   0.0000000    
  1.68948919E-36
       +Infinity

Total energy input of :1.302E-28 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 1.689E-36 is absorbed (entot) 
                         through inelastic collisions (shsum =0.000E+00)
                                           + heating (elhsum =1.689E-36)
 This refers to an energy gain of   +Inf %


 The average E. loss per ion pair is :   +Inf eV (from qtoteV)
                                  or :   +Inf eV (from (entot))
                                  or :   -Inf eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  45.0, longitude 165.0.

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

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

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

 MAIN : The total energy input from the precipitation source is : 1.3018E-28 [eV/cm2/s]
                                                             or : 2.0858E-40 [erg/cm2/s]
                                  and from photoelectron source : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]

 MAIN : Total energy deposition in [CO2] is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 Total Heating :  1.696E-36 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  0.0000000E+00
 entot depart  1.69559015E-36  1.69559015E-36
 shsum :   0.0000000      1.69559015E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.69559015E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.69559015E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.69559015E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.69559015E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.69559015E-36   0.0000000       0.0000000    
 fin  1.69559015E-36   0.0000000           +Infinity
       +Infinity
       -Infinity       +Infinity
 ezero   0.0000000    
  1.69559015E-36
       +Infinity

Total energy input of :1.302E-28 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 1.696E-36 is absorbed (entot) 
                         through inelastic collisions (shsum =0.000E+00)
                                           + heating (elhsum =1.696E-36)
 This refers to an energy gain of   +Inf %


 The average E. loss per ion pair is :   +Inf eV (from qtoteV)
                                  or :   +Inf eV (from (entot))
                                  or :   -Inf eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  50.0, longitude 165.0.

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

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

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

 MAIN : The total energy input from the precipitation source is : 1.3018E-28 [eV/cm2/s]
                                                             or : 2.0858E-40 [erg/cm2/s]
                                  and from photoelectron source : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]

 MAIN : Total energy deposition in [CO2] is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 Total Heating :  1.697E-36 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  0.0000000E+00
 entot depart  1.69681971E-36  1.69681971E-36
 shsum :   0.0000000      1.69681971E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.69681971E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.69681971E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.69681971E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.69681971E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.69681971E-36   0.0000000       0.0000000    
 fin  1.69681971E-36   0.0000000           +Infinity
       +Infinity
       -Infinity       +Infinity
 ezero   0.0000000    
  1.69681971E-36
       +Infinity

Total energy input of :1.302E-28 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 1.697E-36 is absorbed (entot) 
                         through inelastic collisions (shsum =0.000E+00)
                                           + heating (elhsum =1.697E-36)
 This refers to an energy gain of   +Inf %


 The average E. loss per ion pair is :   +Inf eV (from qtoteV)
                                  or :   +Inf eV (from (entot))
                                  or :   -Inf eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  55.0, longitude 165.0.

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

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

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

 MAIN : The total energy input from the precipitation source is : 1.3018E-28 [eV/cm2/s]
                                                             or : 2.0858E-40 [erg/cm2/s]
                                  and from photoelectron source : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]

 MAIN : Total energy deposition in [CO2] is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 Total Heating :  1.699E-36 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  0.0000000E+00
 entot depart  1.69903040E-36  1.69903040E-36
 shsum :   0.0000000      1.69903040E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.69903040E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.69903040E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.69903040E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.69903040E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.69903040E-36   0.0000000       0.0000000    
 fin  1.69903040E-36   0.0000000           +Infinity
       +Infinity
       -Infinity       +Infinity
 ezero   0.0000000    
  1.69903040E-36
       +Infinity

Total energy input of :1.302E-28 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 1.699E-36 is absorbed (entot) 
                         through inelastic collisions (shsum =0.000E+00)
                                           + heating (elhsum =1.699E-36)
 This refers to an energy gain of   +Inf %


 The average E. loss per ion pair is :   +Inf eV (from qtoteV)
                                  or :   +Inf eV (from (entot))
                                  or :   -Inf eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  60.0, longitude 165.0.

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

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

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

 MAIN : The total energy input from the precipitation source is : 1.3018E-28 [eV/cm2/s]
                                                             or : 2.0858E-40 [erg/cm2/s]
                                  and from photoelectron source : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]

 MAIN : Total energy deposition in [CO2] is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 Total Heating :  1.699E-36 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  0.0000000E+00
 entot depart  1.69916062E-36  1.69916062E-36
 shsum :   0.0000000      1.69916062E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.69916062E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.69916062E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.69916062E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.69916062E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.69916062E-36   0.0000000       0.0000000    
 fin  1.69916062E-36   0.0000000           +Infinity
       +Infinity
       -Infinity       +Infinity
 ezero   0.0000000    
  1.69916062E-36
       +Infinity

Total energy input of :1.302E-28 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 1.699E-36 is absorbed (entot) 
                         through inelastic collisions (shsum =0.000E+00)
                                           + heating (elhsum =1.699E-36)
 This refers to an energy gain of   +Inf %


 The average E. loss per ion pair is :   +Inf eV (from qtoteV)
                                  or :   +Inf eV (from (entot))
                                  or :   -Inf eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  45.0, longitude 170.0.

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

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

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

 MAIN : The total energy input from the precipitation source is : 1.3018E-28 [eV/cm2/s]
                                                             or : 2.0858E-40 [erg/cm2/s]
                                  and from photoelectron source : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]

 MAIN : Total energy deposition in [CO2] is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 Total Heating :  1.610E-36 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  0.0000000E+00
 entot depart  1.60968056E-36  1.60968056E-36
 shsum :   0.0000000      1.60968056E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.60968056E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.60968056E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.60968056E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.60968056E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.60968056E-36   0.0000000       0.0000000    
 fin  1.60968056E-36   0.0000000           +Infinity
       +Infinity
       -Infinity       +Infinity
 ezero   0.0000000    
  1.60968056E-36
       +Infinity

Total energy input of :1.302E-28 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 1.610E-36 is absorbed (entot) 
                         through inelastic collisions (shsum =0.000E+00)
                                           + heating (elhsum =1.610E-36)
 This refers to an energy gain of   +Inf %


 The average E. loss per ion pair is :   +Inf eV (from qtoteV)
                                  or :   +Inf eV (from (entot))
                                  or :   -Inf eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  50.0, longitude 170.0.

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

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

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

 MAIN : The total energy input from the precipitation source is : 1.3018E-28 [eV/cm2/s]
                                                             or : 2.0858E-40 [erg/cm2/s]
                                  and from photoelectron source : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]

 MAIN : Total energy deposition in [CO2] is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 Total Heating :  1.612E-36 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  0.0000000E+00
 entot depart  1.61245930E-36  1.61245930E-36
 shsum :   0.0000000      1.61245930E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.61245930E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.61245930E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.61245930E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.61245930E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.61245930E-36   0.0000000       0.0000000    
 fin  1.61245930E-36   0.0000000           +Infinity
       +Infinity
       -Infinity       +Infinity
 ezero   0.0000000    
  1.61245930E-36
       +Infinity

Total energy input of :1.302E-28 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 1.612E-36 is absorbed (entot) 
                         through inelastic collisions (shsum =0.000E+00)
                                           + heating (elhsum =1.612E-36)
 This refers to an energy gain of   +Inf %


 The average E. loss per ion pair is :   +Inf eV (from qtoteV)
                                  or :   +Inf eV (from (entot))
                                  or :   -Inf eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  55.0, longitude 170.0.

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

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

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

 MAIN : The total energy input from the precipitation source is : 1.3018E-28 [eV/cm2/s]
                                                             or : 2.0858E-40 [erg/cm2/s]
                                  and from photoelectron source : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]

 MAIN : Total energy deposition in [CO2] is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 Total Heating :  1.711E-36 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  0.0000000E+00
 entot depart  1.71065261E-36  1.71065261E-36
 shsum :   0.0000000      1.71065261E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.71065261E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.71065261E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.71065261E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.71065261E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.71065261E-36   0.0000000       0.0000000    
 fin  1.71065261E-36   0.0000000           +Infinity
       +Infinity
       -Infinity       +Infinity
 ezero   0.0000000    
  1.71065261E-36
       +Infinity

Total energy input of :1.302E-28 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 1.711E-36 is absorbed (entot) 
                         through inelastic collisions (shsum =0.000E+00)
                                           + heating (elhsum =1.711E-36)
 This refers to an energy gain of   +Inf %


 The average E. loss per ion pair is :   +Inf eV (from qtoteV)
                                  or :   +Inf eV (from (entot))
                                  or :   -Inf eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  60.0, longitude 170.0.

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

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

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

 MAIN : The total energy input from the precipitation source is : 1.3018E-28 [eV/cm2/s]
                                                             or : 2.0858E-40 [erg/cm2/s]
                                  and from photoelectron source : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]

 MAIN : Total energy deposition in [CO2] is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 Total Heating :  1.711E-36 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  0.0000000E+00
 entot depart  1.71138586E-36  1.71138586E-36
 shsum :   0.0000000      1.71138586E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.71138586E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.71138586E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.71138586E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.71138586E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.71138586E-36   0.0000000       0.0000000    
 fin  1.71138586E-36   0.0000000           +Infinity
       +Infinity
       -Infinity       +Infinity
 ezero   0.0000000    
  1.71138586E-36
       +Infinity

Total energy input of :1.302E-28 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 1.711E-36 is absorbed (entot) 
                         through inelastic collisions (shsum =0.000E+00)
                                           + heating (elhsum =1.711E-36)
 This refers to an energy gain of   +Inf %


 The average E. loss per ion pair is :   +Inf eV (from qtoteV)
                                  or :   +Inf eV (from (entot))
                                  or :   -Inf eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  45.0, longitude 175.0.

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

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

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

 MAIN : The total energy input from the precipitation source is : 1.3018E-28 [eV/cm2/s]
                                                             or : 2.0858E-40 [erg/cm2/s]
                                  and from photoelectron source : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]

 MAIN : Total energy deposition in [CO2] is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 Total Heating :  1.626E-36 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  0.0000000E+00
 entot depart  1.62577240E-36  1.62577240E-36
 shsum :   0.0000000      1.62577240E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.62577240E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.62577240E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.62577240E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.62577240E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.62577240E-36   0.0000000       0.0000000    
 fin  1.62577240E-36   0.0000000           +Infinity
       +Infinity
       -Infinity       +Infinity
 ezero   0.0000000    
  1.62577240E-36
       +Infinity

Total energy input of :1.302E-28 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 1.626E-36 is absorbed (entot) 
                         through inelastic collisions (shsum =0.000E+00)
                                           + heating (elhsum =1.626E-36)
 This refers to an energy gain of   +Inf %


 The average E. loss per ion pair is :   +Inf eV (from qtoteV)
                                  or :   +Inf eV (from (entot))
                                  or :   -Inf eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  50.0, longitude 175.0.

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

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

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

 MAIN : The total energy input from the precipitation source is : 1.3018E-28 [eV/cm2/s]
                                                             or : 2.0858E-40 [erg/cm2/s]
                                  and from photoelectron source : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]

 MAIN : Total energy deposition in [CO2] is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 Total Heating :  1.626E-36 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  0.0000000E+00
 entot depart  1.62625687E-36  1.62625687E-36
 shsum :   0.0000000      1.62625687E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.62625687E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.62625687E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.62625687E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.62625687E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.62625687E-36   0.0000000       0.0000000    
 fin  1.62625687E-36   0.0000000           +Infinity
       +Infinity
       -Infinity       +Infinity
 ezero   0.0000000    
  1.62625687E-36
       +Infinity

Total energy input of :1.302E-28 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 1.626E-36 is absorbed (entot) 
                         through inelastic collisions (shsum =0.000E+00)
                                           + heating (elhsum =1.626E-36)
 This refers to an energy gain of   +Inf %


 The average E. loss per ion pair is :   +Inf eV (from qtoteV)
                                  or :   +Inf eV (from (entot))
                                  or :   -Inf eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  55.0, longitude 175.0.

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

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

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

 MAIN : The total energy input from the precipitation source is : 1.3018E-28 [eV/cm2/s]
                                                             or : 2.0858E-40 [erg/cm2/s]
                                  and from photoelectron source : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]

 MAIN : Total energy deposition in [CO2] is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 Total Heating :  1.628E-36 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  0.0000000E+00
 entot depart  1.62754579E-36  1.62754579E-36
 shsum :   0.0000000      1.62754579E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.62754579E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.62754579E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.62754579E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.62754579E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.62754579E-36   0.0000000       0.0000000    
 fin  1.62754579E-36   0.0000000           +Infinity
       +Infinity
       -Infinity       +Infinity
 ezero   0.0000000    
  1.62754579E-36
       +Infinity

Total energy input of :1.302E-28 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 1.628E-36 is absorbed (entot) 
                         through inelastic collisions (shsum =0.000E+00)
                                           + heating (elhsum =1.628E-36)
 This refers to an energy gain of   +Inf %


 The average E. loss per ion pair is :   +Inf eV (from qtoteV)
                                  or :   +Inf eV (from (entot))
                                  or :   -Inf eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  60.0, longitude 175.0.

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

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

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

 MAIN : The total energy input from the precipitation source is : 1.3018E-28 [eV/cm2/s]
                                                             or : 2.0858E-40 [erg/cm2/s]
                                  and from photoelectron source : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]

 MAIN : Total energy deposition in [CO2] is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 Total Heating :  1.724E-36 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  0.0000000E+00
 entot depart  1.72449825E-36  1.72449825E-36
 shsum :   0.0000000      1.72449825E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.72449825E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.72449825E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.72449825E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.72449825E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.72449825E-36   0.0000000       0.0000000    
 fin  1.72449825E-36   0.0000000           +Infinity
       +Infinity
       -Infinity       +Infinity
 ezero   0.0000000    
  1.72449825E-36
       +Infinity

Total energy input of :1.302E-28 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 1.724E-36 is absorbed (entot) 
                         through inelastic collisions (shsum =0.000E+00)
                                           + heating (elhsum =1.724E-36)
 This refers to an energy gain of   +Inf %


 The average E. loss per ion pair is :   +Inf eV (from qtoteV)
                                  or :   +Inf eV (from (entot))
                                  or :   -Inf eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  45.0, longitude 180.0.

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

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

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

 MAIN : The total energy input from the precipitation source is : 1.3018E-28 [eV/cm2/s]
                                                             or : 2.0858E-40 [erg/cm2/s]
                                  and from photoelectron source : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]

 MAIN : Total energy deposition in [CO2] is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 Total Heating :  1.645E-36 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  0.0000000E+00
 entot depart  1.64487920E-36  1.64487920E-36
 shsum :   0.0000000      1.64487920E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.64487920E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.64487920E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.64487920E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.64487920E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.64487920E-36   0.0000000       0.0000000    
 fin  1.64487920E-36   0.0000000           +Infinity
       +Infinity
       -Infinity       +Infinity
 ezero   0.0000000    
  1.64487920E-36
       +Infinity

Total energy input of :1.302E-28 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 1.645E-36 is absorbed (entot) 
                         through inelastic collisions (shsum =0.000E+00)
                                           + heating (elhsum =1.645E-36)
 This refers to an energy gain of   +Inf %


 The average E. loss per ion pair is :   +Inf eV (from qtoteV)
                                  or :   +Inf eV (from (entot))
                                  or :   -Inf eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  50.0, longitude 180.0.

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

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

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

 MAIN : The total energy input from the precipitation source is : 1.3018E-28 [eV/cm2/s]
                                                             or : 2.0858E-40 [erg/cm2/s]
                                  and from photoelectron source : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]

 MAIN : Total energy deposition in [CO2] is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 Total Heating :  1.642E-36 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  0.0000000E+00
 entot depart  1.64150963E-36  1.64150963E-36
 shsum :   0.0000000      1.64150963E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.64150963E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.64150963E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.64150963E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.64150963E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.64150963E-36   0.0000000       0.0000000    
 fin  1.64150963E-36   0.0000000           +Infinity
       +Infinity
       -Infinity       +Infinity
 ezero   0.0000000    
  1.64150963E-36
       +Infinity

Total energy input of :1.302E-28 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 1.642E-36 is absorbed (entot) 
                         through inelastic collisions (shsum =0.000E+00)
                                           + heating (elhsum =1.642E-36)
 This refers to an energy gain of   +Inf %


 The average E. loss per ion pair is :   +Inf eV (from qtoteV)
                                  or :   +Inf eV (from (entot))
                                  or :   -Inf eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  55.0, longitude 180.0.

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

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

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

 MAIN : The total energy input from the precipitation source is : 1.3018E-28 [eV/cm2/s]
                                                             or : 2.0858E-40 [erg/cm2/s]
                                  and from photoelectron source : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]

 MAIN : Total energy deposition in [CO2] is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 Total Heating :  1.638E-36 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  0.0000000E+00
 entot depart  1.63830543E-36  1.63830543E-36
 shsum :   0.0000000      1.63830543E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.63830543E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.63830543E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.63830543E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.63830543E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.63830543E-36   0.0000000       0.0000000    
 fin  1.63830543E-36   0.0000000           +Infinity
       +Infinity
       -Infinity       +Infinity
 ezero   0.0000000    
  1.63830543E-36
       +Infinity

Total energy input of :1.302E-28 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 1.638E-36 is absorbed (entot) 
                         through inelastic collisions (shsum =0.000E+00)
                                           + heating (elhsum =1.638E-36)
 This refers to an energy gain of   +Inf %


 The average E. loss per ion pair is :   +Inf eV (from qtoteV)
                                  or :   +Inf eV (from (entot))
                                  or :   -Inf eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  60.0, longitude 180.0.

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

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

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

 MAIN : The total energy input from the precipitation source is : 1.3018E-28 [eV/cm2/s]
                                                             or : 2.0858E-40 [erg/cm2/s]
                                  and from photoelectron source : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]

 MAIN : Total energy deposition in [CO2] is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 Total Heating :  1.639E-36 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  0.0000000E+00
 entot depart  1.63881376E-36  1.63881376E-36
 shsum :   0.0000000      1.63881376E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.63881376E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.63881376E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.63881376E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.63881376E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.63881376E-36   0.0000000       0.0000000    
 fin  1.63881376E-36   0.0000000           +Infinity
       +Infinity
       -Infinity       +Infinity
 ezero   0.0000000    
  1.63881376E-36
       +Infinity

Total energy input of :1.302E-28 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 1.639E-36 is absorbed (entot) 
                         through inelastic collisions (shsum =0.000E+00)
                                           + heating (elhsum =1.639E-36)
 This refers to an energy gain of   +Inf %


 The average E. loss per ion pair is :   +Inf eV (from qtoteV)
                                  or :   +Inf eV (from (entot))
                                  or :   -Inf eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  45.0, longitude 185.0.

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

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

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

 MAIN : The total energy input from the precipitation source is : 1.3018E-28 [eV/cm2/s]
                                                             or : 2.0858E-40 [erg/cm2/s]
                                  and from photoelectron source : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]

 MAIN : Total energy deposition in [CO2] is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 Total Heating :  1.563E-36 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  0.0000000E+00
 entot depart  1.56336821E-36  1.56336821E-36
 shsum :   0.0000000      1.56336821E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.56336821E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.56336821E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.56336821E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.56336821E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.56336821E-36   0.0000000       0.0000000    
 fin  1.56336821E-36   0.0000000           +Infinity
       +Infinity
       -Infinity       +Infinity
 ezero   0.0000000    
  1.56336821E-36
       +Infinity

Total energy input of :1.302E-28 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 1.563E-36 is absorbed (entot) 
                         through inelastic collisions (shsum =0.000E+00)
                                           + heating (elhsum =1.563E-36)
 This refers to an energy gain of   +Inf %


 The average E. loss per ion pair is :   +Inf eV (from qtoteV)
                                  or :   +Inf eV (from (entot))
                                  or :   -Inf eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  50.0, longitude 185.0.

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

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

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

 MAIN : The total energy input from the precipitation source is : 1.3018E-28 [eV/cm2/s]
                                                             or : 2.0858E-40 [erg/cm2/s]
                                  and from photoelectron source : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]

 MAIN : Total energy deposition in [CO2] is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 Total Heating :  1.657E-36 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  0.0000000E+00
 entot depart  1.65696239E-36  1.65696239E-36
 shsum :   0.0000000      1.65696239E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.65696239E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.65696239E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.65696239E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.65696239E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.65696239E-36   0.0000000       0.0000000    
 fin  1.65696239E-36   0.0000000           +Infinity
       +Infinity
       -Infinity       +Infinity
 ezero   0.0000000    
  1.65696239E-36
       +Infinity

Total energy input of :1.302E-28 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 1.657E-36 is absorbed (entot) 
                         through inelastic collisions (shsum =0.000E+00)
                                           + heating (elhsum =1.657E-36)
 This refers to an energy gain of   +Inf %


 The average E. loss per ion pair is :   +Inf eV (from qtoteV)
                                  or :   +Inf eV (from (entot))
                                  or :   -Inf eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  55.0, longitude 185.0.

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

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

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

 MAIN : The total energy input from the precipitation source is : 1.3018E-28 [eV/cm2/s]
                                                             or : 2.0858E-40 [erg/cm2/s]
                                  and from photoelectron source : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]

 MAIN : Total energy deposition in [CO2] is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 Total Heating :  1.653E-36 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  0.0000000E+00
 entot depart  1.65295445E-36  1.65295445E-36
 shsum :   0.0000000      1.65295445E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.65295445E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.65295445E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.65295445E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.65295445E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.65295445E-36   0.0000000       0.0000000    
 fin  1.65295445E-36   0.0000000           +Infinity
       +Infinity
       -Infinity       +Infinity
 ezero   0.0000000    
  1.65295445E-36
       +Infinity

Total energy input of :1.302E-28 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 1.653E-36 is absorbed (entot) 
                         through inelastic collisions (shsum =0.000E+00)
                                           + heating (elhsum =1.653E-36)
 This refers to an energy gain of   +Inf %


 The average E. loss per ion pair is :   +Inf eV (from qtoteV)
                                  or :   +Inf eV (from (entot))
                                  or :   -Inf eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  60.0, longitude 185.0.

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

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

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

 MAIN : The total energy input from the precipitation source is : 1.3018E-28 [eV/cm2/s]
                                                             or : 2.0858E-40 [erg/cm2/s]
                                  and from photoelectron source : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]

 MAIN : Total energy deposition in [CO2] is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 Total Heating :  1.648E-36 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  0.0000000E+00
 entot depart  1.64784682E-36  1.64784682E-36
 shsum :   0.0000000      1.64784682E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.64784682E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.64784682E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.64784682E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.64784682E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.64784682E-36   0.0000000       0.0000000    
 fin  1.64784682E-36   0.0000000           +Infinity
       +Infinity
       -Infinity       +Infinity
 ezero   0.0000000    
  1.64784682E-36
       +Infinity

Total energy input of :1.302E-28 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 1.648E-36 is absorbed (entot) 
                         through inelastic collisions (shsum =0.000E+00)
                                           + heating (elhsum =1.648E-36)
 This refers to an energy gain of   +Inf %


 The average E. loss per ion pair is :   +Inf eV (from qtoteV)
                                  or :   +Inf eV (from (entot))
                                  or :   -Inf eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  45.0, longitude 190.0.

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

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

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

 MAIN : The total energy input from the precipitation source is : 1.3018E-28 [eV/cm2/s]
                                                             or : 2.0858E-40 [erg/cm2/s]
                                  and from photoelectron source : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]

 MAIN : Total energy deposition in [CO2] is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 Total Heating :  1.584E-36 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  0.0000000E+00
 entot depart  1.58421325E-36  1.58421325E-36
 shsum :   0.0000000      1.58421325E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.58421325E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.58421325E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.58421325E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.58421325E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.58421325E-36   0.0000000       0.0000000    
 fin  1.58421325E-36   0.0000000           +Infinity
       +Infinity
       -Infinity       +Infinity
 ezero   0.0000000    
  1.58421325E-36
       +Infinity

Total energy input of :1.302E-28 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 1.584E-36 is absorbed (entot) 
                         through inelastic collisions (shsum =0.000E+00)
                                           + heating (elhsum =1.584E-36)
 This refers to an energy gain of   +Inf %


 The average E. loss per ion pair is :   +Inf eV (from qtoteV)
                                  or :   +Inf eV (from (entot))
                                  or :   -Inf eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  50.0, longitude 190.0.

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

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

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

 MAIN : The total energy input from the precipitation source is : 1.3018E-28 [eV/cm2/s]
                                                             or : 2.0858E-40 [erg/cm2/s]
                                  and from photoelectron source : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]

 MAIN : Total energy deposition in [CO2] is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 Total Heating :  1.580E-36 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  0.0000000E+00
 entot depart  1.58003940E-36  1.58003940E-36
 shsum :   0.0000000      1.58003940E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.58003940E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.58003940E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.58003940E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.58003940E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.58003940E-36   0.0000000       0.0000000    
 fin  1.58003940E-36   0.0000000           +Infinity
       +Infinity
       -Infinity       +Infinity
 ezero   0.0000000    
  1.58003940E-36
       +Infinity

Total energy input of :1.302E-28 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 1.580E-36 is absorbed (entot) 
                         through inelastic collisions (shsum =0.000E+00)
                                           + heating (elhsum =1.580E-36)
 This refers to an energy gain of   +Inf %


 The average E. loss per ion pair is :   +Inf eV (from qtoteV)
                                  or :   +Inf eV (from (entot))
                                  or :   -Inf eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  55.0, longitude 190.0.

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

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

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

 MAIN : The total energy input from the precipitation source is : 1.3018E-28 [eV/cm2/s]
                                                             or : 2.0858E-40 [erg/cm2/s]
                                  and from photoelectron source : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]

 MAIN : Total energy deposition in [CO2] is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 Total Heating :  1.674E-36 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  0.0000000E+00
 entot depart  1.67429616E-36  1.67429616E-36
 shsum :   0.0000000      1.67429616E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.67429616E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.67429616E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.67429616E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.67429616E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.67429616E-36   0.0000000       0.0000000    
 fin  1.67429616E-36   0.0000000           +Infinity
       +Infinity
       -Infinity       +Infinity
 ezero   0.0000000    
  1.67429616E-36
       +Infinity

Total energy input of :1.302E-28 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 1.674E-36 is absorbed (entot) 
                         through inelastic collisions (shsum =0.000E+00)
                                           + heating (elhsum =1.674E-36)
 This refers to an energy gain of   +Inf %


 The average E. loss per ion pair is :   +Inf eV (from qtoteV)
                                  or :   +Inf eV (from (entot))
                                  or :   -Inf eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  60.0, longitude 190.0.

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

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

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

 MAIN : The total energy input from the precipitation source is : 1.3018E-28 [eV/cm2/s]
                                                             or : 2.0858E-40 [erg/cm2/s]
                                  and from photoelectron source : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]

 MAIN : Total energy deposition in [CO2] is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 Total Heating :  1.666E-36 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  0.0000000E+00
 entot depart  1.66643346E-36  1.66643346E-36
 shsum :   0.0000000      1.66643346E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.66643346E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.66643346E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.66643346E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.66643346E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.66643346E-36   0.0000000       0.0000000    
 fin  1.66643346E-36   0.0000000           +Infinity
       +Infinity
       -Infinity       +Infinity
 ezero   0.0000000    
  1.66643346E-36
       +Infinity

Total energy input of :1.302E-28 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 1.666E-36 is absorbed (entot) 
                         through inelastic collisions (shsum =0.000E+00)
                                           + heating (elhsum =1.666E-36)
 This refers to an energy gain of   +Inf %


 The average E. loss per ion pair is :   +Inf eV (from qtoteV)
                                  or :   +Inf eV (from (entot))
                                  or :   -Inf eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  45.0, longitude 195.0.

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

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

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

 MAIN : The total energy input from the precipitation source is : 1.3018E-28 [eV/cm2/s]
                                                             or : 2.0858E-40 [erg/cm2/s]
                                  and from photoelectron source : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]

 MAIN : Total energy deposition in [CO2] is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 Total Heating :  1.509E-36 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  0.0000000E+00
 entot depart  1.50859013E-36  1.50859013E-36
 shsum :   0.0000000      1.50859013E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.50859013E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.50859013E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.50859013E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.50859013E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.50859013E-36   0.0000000       0.0000000    
 fin  1.50859013E-36   0.0000000           +Infinity
       +Infinity
       -Infinity       +Infinity
 ezero   0.0000000    
  1.50859013E-36
       +Infinity

Total energy input of :1.302E-28 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 1.509E-36 is absorbed (entot) 
                         through inelastic collisions (shsum =0.000E+00)
                                           + heating (elhsum =1.509E-36)
 This refers to an energy gain of   +Inf %


 The average E. loss per ion pair is :   +Inf eV (from qtoteV)
                                  or :   +Inf eV (from (entot))
                                  or :   -Inf eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  50.0, longitude 195.0.

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

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

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

 MAIN : The total energy input from the precipitation source is : 1.3018E-28 [eV/cm2/s]
                                                             or : 2.0858E-40 [erg/cm2/s]
                                  and from photoelectron source : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]

 MAIN : Total energy deposition in [CO2] is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 Total Heating :  1.602E-36 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  0.0000000E+00
 entot depart  1.60166432E-36  1.60166432E-36
 shsum :   0.0000000      1.60166432E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.60166432E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.60166432E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.60166432E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.60166432E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.60166432E-36   0.0000000       0.0000000    
 fin  1.60166432E-36   0.0000000           +Infinity
       +Infinity
       -Infinity       +Infinity
 ezero   0.0000000    
  1.60166432E-36
       +Infinity

Total energy input of :1.302E-28 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 1.602E-36 is absorbed (entot) 
                         through inelastic collisions (shsum =0.000E+00)
                                           + heating (elhsum =1.602E-36)
 This refers to an energy gain of   +Inf %


 The average E. loss per ion pair is :   +Inf eV (from qtoteV)
                                  or :   +Inf eV (from (entot))
                                  or :   -Inf eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  55.0, longitude 195.0.

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

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

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

 MAIN : The total energy input from the precipitation source is : 1.3018E-28 [eV/cm2/s]
                                                             or : 2.0858E-40 [erg/cm2/s]
                                  and from photoelectron source : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]

 MAIN : Total energy deposition in [CO2] is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 Total Heating :  1.595E-36 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  0.0000000E+00
 entot depart  1.59486599E-36  1.59486599E-36
 shsum :   0.0000000      1.59486599E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.59486599E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.59486599E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.59486599E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.59486599E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.59486599E-36   0.0000000       0.0000000    
 fin  1.59486599E-36   0.0000000           +Infinity
       +Infinity
       -Infinity       +Infinity
 ezero   0.0000000    
  1.59486599E-36
       +Infinity

Total energy input of :1.302E-28 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 1.595E-36 is absorbed (entot) 
                         through inelastic collisions (shsum =0.000E+00)
                                           + heating (elhsum =1.595E-36)
 This refers to an energy gain of   +Inf %


 The average E. loss per ion pair is :   +Inf eV (from qtoteV)
                                  or :   +Inf eV (from (entot))
                                  or :   -Inf eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  60.0, longitude 195.0.

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

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

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

 MAIN : The total energy input from the precipitation source is : 1.3018E-28 [eV/cm2/s]
                                                             or : 2.0858E-40 [erg/cm2/s]
                                  and from photoelectron source : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]

 MAIN : Total energy deposition in [CO2] is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 Total Heating :  1.686E-36 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  0.0000000E+00
 entot depart  1.68615477E-36  1.68615477E-36
 shsum :   0.0000000      1.68615477E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.68615477E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.68615477E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.68615477E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.68615477E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.68615477E-36   0.0000000       0.0000000    
 fin  1.68615477E-36   0.0000000           +Infinity
       +Infinity
       -Infinity       +Infinity
 ezero   0.0000000    
  1.68615477E-36
       +Infinity

Total energy input of :1.302E-28 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 1.686E-36 is absorbed (entot) 
                         through inelastic collisions (shsum =0.000E+00)
                                           + heating (elhsum =1.686E-36)
 This refers to an energy gain of   +Inf %


 The average E. loss per ion pair is :   +Inf eV (from qtoteV)
                                  or :   +Inf eV (from (entot))
                                  or :   -Inf eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  45.0, longitude 200.0.

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

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

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

 MAIN : The total energy input from the precipitation source is : 1.3018E-28 [eV/cm2/s]
                                                             or : 2.0858E-40 [erg/cm2/s]
                                  and from photoelectron source : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]

 MAIN : Total energy deposition in [CO2] is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 Total Heating :  1.526E-36 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  0.0000000E+00
 entot depart  1.52572229E-36  1.52572229E-36
 shsum :   0.0000000      1.52572229E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.52572229E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.52572229E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.52572229E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.52572229E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.52572229E-36   0.0000000       0.0000000    
 fin  1.52572229E-36   0.0000000           +Infinity
       +Infinity
       -Infinity       +Infinity
 ezero   0.0000000    
  1.52572229E-36
       +Infinity

Total energy input of :1.302E-28 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 1.526E-36 is absorbed (entot) 
                         through inelastic collisions (shsum =0.000E+00)
                                           + heating (elhsum =1.526E-36)
 This refers to an energy gain of   +Inf %


 The average E. loss per ion pair is :   +Inf eV (from qtoteV)
                                  or :   +Inf eV (from (entot))
                                  or :   -Inf eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  50.0, longitude 200.0.

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

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

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

 MAIN : The total energy input from the precipitation source is : 1.3018E-28 [eV/cm2/s]
                                                             or : 2.0858E-40 [erg/cm2/s]
                                  and from photoelectron source : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]

 MAIN : Total energy deposition in [CO2] is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 Total Heating :  1.525E-36 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  0.0000000E+00
 entot depart  1.52545037E-36  1.52545037E-36
 shsum :   0.0000000      1.52545037E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.52545037E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.52545037E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.52545037E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.52545037E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.52545037E-36   0.0000000       0.0000000    
 fin  1.52545037E-36   0.0000000           +Infinity
       +Infinity
       -Infinity       +Infinity
 ezero   0.0000000    
  1.52545037E-36
       +Infinity

Total energy input of :1.302E-28 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 1.525E-36 is absorbed (entot) 
                         through inelastic collisions (shsum =0.000E+00)
                                           + heating (elhsum =1.525E-36)
 This refers to an energy gain of   +Inf %


 The average E. loss per ion pair is :   +Inf eV (from qtoteV)
                                  or :   +Inf eV (from (entot))
                                  or :   -Inf eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  55.0, longitude 200.0.

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

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

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

 MAIN : The total energy input from the precipitation source is : 1.3018E-28 [eV/cm2/s]
                                                             or : 2.0858E-40 [erg/cm2/s]
                                  and from photoelectron source : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]

 MAIN : Total energy deposition in [CO2] is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 Total Heating :  1.614E-36 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  0.0000000E+00
 entot depart  1.61412615E-36  1.61412615E-36
 shsum :   0.0000000      1.61412615E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.61412615E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.61412615E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.61412615E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.61412615E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.61412615E-36   0.0000000       0.0000000    
 fin  1.61412615E-36   0.0000000           +Infinity
       +Infinity
       -Infinity       +Infinity
 ezero   0.0000000    
  1.61412615E-36
       +Infinity

Total energy input of :1.302E-28 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 1.614E-36 is absorbed (entot) 
                         through inelastic collisions (shsum =0.000E+00)
                                           + heating (elhsum =1.614E-36)
 This refers to an energy gain of   +Inf %


 The average E. loss per ion pair is :   +Inf eV (from qtoteV)
                                  or :   +Inf eV (from (entot))
                                  or :   -Inf eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  60.0, longitude 200.0.

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

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

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

 MAIN : The total energy input from the precipitation source is : 1.3018E-28 [eV/cm2/s]
                                                             or : 2.0858E-40 [erg/cm2/s]
                                  and from photoelectron source : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]

 MAIN : Total energy deposition in [CO2] is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 Total Heating :  1.604E-36 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  0.0000000E+00
 entot depart  1.60411160E-36  1.60411160E-36
 shsum :   0.0000000      1.60411160E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.60411160E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.60411160E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.60411160E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.60411160E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.60411160E-36   0.0000000       0.0000000    
 fin  1.60411160E-36   0.0000000           +Infinity
       +Infinity
       -Infinity       +Infinity
 ezero   0.0000000    
  1.60411160E-36
       +Infinity

Total energy input of :1.302E-28 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 1.604E-36 is absorbed (entot) 
                         through inelastic collisions (shsum =0.000E+00)
                                           + heating (elhsum =1.604E-36)
 This refers to an energy gain of   +Inf %


 The average E. loss per ion pair is :   +Inf eV (from qtoteV)
                                  or :   +Inf eV (from (entot))
                                  or :   -Inf eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  45.0, longitude 205.0.

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

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

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

 MAIN : The total energy input from the precipitation source is : 1.3018E-28 [eV/cm2/s]
                                                             or : 2.0858E-40 [erg/cm2/s]
                                  and from photoelectron source : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]

 MAIN : Total energy deposition in [CO2] is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 Total Heating :  1.540E-36 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  0.0000000E+00
 entot depart  1.53987518E-36  1.53987518E-36
 shsum :   0.0000000      1.53987518E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.53987518E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.53987518E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.53987518E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.53987518E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.53987518E-36   0.0000000       0.0000000    
 fin  1.53987518E-36   0.0000000           +Infinity
       +Infinity
       -Infinity       +Infinity
 ezero   0.0000000    
  1.53987518E-36
       +Infinity

Total energy input of :1.302E-28 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 1.540E-36 is absorbed (entot) 
                         through inelastic collisions (shsum =0.000E+00)
                                           + heating (elhsum =1.540E-36)
 This refers to an energy gain of   +Inf %


 The average E. loss per ion pair is :   +Inf eV (from qtoteV)
                                  or :   +Inf eV (from (entot))
                                  or :   -Inf eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  50.0, longitude 205.0.

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

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

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

 MAIN : The total energy input from the precipitation source is : 1.3018E-28 [eV/cm2/s]
                                                             or : 2.0858E-40 [erg/cm2/s]
                                  and from photoelectron source : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]

 MAIN : Total energy deposition in [CO2] is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 Total Heating :  1.543E-36 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  0.0000000E+00
 entot depart  1.54251186E-36  1.54251186E-36
 shsum :   0.0000000      1.54251186E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.54251186E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.54251186E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.54251186E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.54251186E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.54251186E-36   0.0000000       0.0000000    
 fin  1.54251186E-36   0.0000000           +Infinity
       +Infinity
       -Infinity       +Infinity
 ezero   0.0000000    
  1.54251186E-36
       +Infinity

Total energy input of :1.302E-28 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 1.543E-36 is absorbed (entot) 
                         through inelastic collisions (shsum =0.000E+00)
                                           + heating (elhsum =1.543E-36)
 This refers to an energy gain of   +Inf %


 The average E. loss per ion pair is :   +Inf eV (from qtoteV)
                                  or :   +Inf eV (from (entot))
                                  or :   -Inf eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  55.0, longitude 205.0.

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

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

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

 MAIN : The total energy input from the precipitation source is : 1.3018E-28 [eV/cm2/s]
                                                             or : 2.0858E-40 [erg/cm2/s]
                                  and from photoelectron source : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]

 MAIN : Total energy deposition in [CO2] is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 Total Heating :  1.630E-36 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  0.0000000E+00
 entot depart  1.63008813E-36  1.63008813E-36
 shsum :   0.0000000      1.63008813E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.63008813E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.63008813E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.63008813E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.63008813E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.63008813E-36   0.0000000       0.0000000    
 fin  1.63008813E-36   0.0000000           +Infinity
       +Infinity
       -Infinity       +Infinity
 ezero   0.0000000    
  1.63008813E-36
       +Infinity

Total energy input of :1.302E-28 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 1.630E-36 is absorbed (entot) 
                         through inelastic collisions (shsum =0.000E+00)
                                           + heating (elhsum =1.630E-36)
 This refers to an energy gain of   +Inf %


 The average E. loss per ion pair is :   +Inf eV (from qtoteV)
                                  or :   +Inf eV (from (entot))
                                  or :   -Inf eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  60.0, longitude 205.0.

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

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

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

 MAIN : The total energy input from the precipitation source is : 1.3018E-28 [eV/cm2/s]
                                                             or : 2.0858E-40 [erg/cm2/s]
                                  and from photoelectron source : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]

 MAIN : Total energy deposition in [CO2] is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 Total Heating :  1.614E-36 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  0.0000000E+00
 entot depart  1.61389028E-36  1.61389028E-36
 shsum :   0.0000000      1.61389028E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.61389028E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.61389028E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.61389028E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.61389028E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.61389028E-36   0.0000000       0.0000000    
 fin  1.61389028E-36   0.0000000           +Infinity
       +Infinity
       -Infinity       +Infinity
 ezero   0.0000000    
  1.61389028E-36
       +Infinity

Total energy input of :1.302E-28 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 1.614E-36 is absorbed (entot) 
                         through inelastic collisions (shsum =0.000E+00)
                                           + heating (elhsum =1.614E-36)
 This refers to an energy gain of   +Inf %


 The average E. loss per ion pair is :   +Inf eV (from qtoteV)
                                  or :   +Inf eV (from (entot))
                                  or :   -Inf eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  45.0, longitude 210.0.

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

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

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

 MAIN : The total energy input from the precipitation source is : 1.3018E-28 [eV/cm2/s]
                                                             or : 2.0858E-40 [erg/cm2/s]
                                  and from photoelectron source : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]

 MAIN : Total energy deposition in [CO2] is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 Total Heating :  1.550E-36 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  0.0000000E+00
 entot depart  1.54983054E-36  1.54983054E-36
 shsum :   0.0000000      1.54983054E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.54983054E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.54983054E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.54983054E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.54983054E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.54983054E-36   0.0000000       0.0000000    
 fin  1.54983054E-36   0.0000000           +Infinity
       +Infinity
       -Infinity       +Infinity
 ezero   0.0000000    
  1.54983054E-36
       +Infinity

Total energy input of :1.302E-28 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 1.550E-36 is absorbed (entot) 
                         through inelastic collisions (shsum =0.000E+00)
                                           + heating (elhsum =1.550E-36)
 This refers to an energy gain of   +Inf %


 The average E. loss per ion pair is :   +Inf eV (from qtoteV)
                                  or :   +Inf eV (from (entot))
                                  or :   -Inf eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  50.0, longitude 210.0.

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

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

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

 MAIN : The total energy input from the precipitation source is : 1.3018E-28 [eV/cm2/s]
                                                             or : 2.0858E-40 [erg/cm2/s]
                                  and from photoelectron source : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]

 MAIN : Total energy deposition in [CO2] is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 Total Heating :  1.556E-36 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  0.0000000E+00
 entot depart  1.55582478E-36  1.55582478E-36
 shsum :   0.0000000      1.55582478E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.55582478E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.55582478E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.55582478E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.55582478E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.55582478E-36   0.0000000       0.0000000    
 fin  1.55582478E-36   0.0000000           +Infinity
       +Infinity
       -Infinity       +Infinity
 ezero   0.0000000    
  1.55582478E-36
       +Infinity

Total energy input of :1.302E-28 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 1.556E-36 is absorbed (entot) 
                         through inelastic collisions (shsum =0.000E+00)
                                           + heating (elhsum =1.556E-36)
 This refers to an energy gain of   +Inf %


 The average E. loss per ion pair is :   +Inf eV (from qtoteV)
                                  or :   +Inf eV (from (entot))
                                  or :   -Inf eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  55.0, longitude 210.0.

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

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

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

 MAIN : The total energy input from the precipitation source is : 1.3018E-28 [eV/cm2/s]
                                                             or : 2.0858E-40 [erg/cm2/s]
                                  and from photoelectron source : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]

 MAIN : Total energy deposition in [CO2] is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 Total Heating :  1.545E-36 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  0.0000000E+00
 entot depart  1.54545580E-36  1.54545580E-36
 shsum :   0.0000000      1.54545580E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.54545580E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.54545580E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.54545580E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.54545580E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.54545580E-36   0.0000000       0.0000000    
 fin  1.54545580E-36   0.0000000           +Infinity
       +Infinity
       -Infinity       +Infinity
 ezero   0.0000000    
  1.54545580E-36
       +Infinity

Total energy input of :1.302E-28 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 1.545E-36 is absorbed (entot) 
                         through inelastic collisions (shsum =0.000E+00)
                                           + heating (elhsum =1.545E-36)
 This refers to an energy gain of   +Inf %


 The average E. loss per ion pair is :   +Inf eV (from qtoteV)
                                  or :   +Inf eV (from (entot))
                                  or :   -Inf eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  60.0, longitude 210.0.

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

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

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

 MAIN : The total energy input from the precipitation source is : 1.3018E-28 [eV/cm2/s]
                                                             or : 2.0858E-40 [erg/cm2/s]
                                  and from photoelectron source : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]

 MAIN : Total energy deposition in [CO2] is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 Total Heating :  1.626E-36 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  0.0000000E+00
 entot depart  1.62642278E-36  1.62642278E-36
 shsum :   0.0000000      1.62642278E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.62642278E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.62642278E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.62642278E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.62642278E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.62642278E-36   0.0000000       0.0000000    
 fin  1.62642278E-36   0.0000000           +Infinity
       +Infinity
       -Infinity       +Infinity
 ezero   0.0000000    
  1.62642278E-36
       +Infinity

Total energy input of :1.302E-28 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 1.626E-36 is absorbed (entot) 
                         through inelastic collisions (shsum =0.000E+00)
                                           + heating (elhsum =1.626E-36)
 This refers to an energy gain of   +Inf %


 The average E. loss per ion pair is :   +Inf eV (from qtoteV)
                                  or :   +Inf eV (from (entot))
                                  or :   -Inf eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  45.0, longitude 215.0.

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

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

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

 MAIN : The total energy input from the precipitation source is : 1.3018E-28 [eV/cm2/s]
                                                             or : 2.0858E-40 [erg/cm2/s]
                                  and from photoelectron source : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]

 MAIN : Total energy deposition in [CO2] is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 Total Heating :  1.648E-36 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  0.0000000E+00
 entot depart  1.64792915E-36  1.64792915E-36
 shsum :   0.0000000      1.64792915E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.64792915E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.64792915E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.64792915E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.64792915E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.64792915E-36   0.0000000       0.0000000    
 fin  1.64792915E-36   0.0000000           +Infinity
       +Infinity
       -Infinity       +Infinity
 ezero   0.0000000    
  1.64792915E-36
       +Infinity

Total energy input of :1.302E-28 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 1.648E-36 is absorbed (entot) 
                         through inelastic collisions (shsum =0.000E+00)
                                           + heating (elhsum =1.648E-36)
 This refers to an energy gain of   +Inf %


 The average E. loss per ion pair is :   +Inf eV (from qtoteV)
                                  or :   +Inf eV (from (entot))
                                  or :   -Inf eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  50.0, longitude 215.0.

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

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

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

 MAIN : The total energy input from the precipitation source is : 1.3018E-28 [eV/cm2/s]
                                                             or : 2.0858E-40 [erg/cm2/s]
                                  and from photoelectron source : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]

 MAIN : Total energy deposition in [CO2] is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 Total Heating :  1.561E-36 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  0.0000000E+00
 entot depart  1.56080237E-36  1.56080237E-36
 shsum :   0.0000000      1.56080237E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.56080237E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.56080237E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.56080237E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.56080237E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.56080237E-36   0.0000000       0.0000000    
 fin  1.56080237E-36   0.0000000           +Infinity
       +Infinity
       -Infinity       +Infinity
 ezero   0.0000000    
  1.56080237E-36
       +Infinity

Total energy input of :1.302E-28 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 1.561E-36 is absorbed (entot) 
                         through inelastic collisions (shsum =0.000E+00)
                                           + heating (elhsum =1.561E-36)
 This refers to an energy gain of   +Inf %


 The average E. loss per ion pair is :   +Inf eV (from qtoteV)
                                  or :   +Inf eV (from (entot))
                                  or :   -Inf eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  55.0, longitude 215.0.

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

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

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

 MAIN : The total energy input from the precipitation source is : 1.3018E-28 [eV/cm2/s]
                                                             or : 2.0858E-40 [erg/cm2/s]
                                  and from photoelectron source : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]

 MAIN : Total energy deposition in [CO2] is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 Total Heating :  1.557E-36 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  0.0000000E+00
 entot depart  1.55668789E-36  1.55668789E-36
 shsum :   0.0000000      1.55668789E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.55668789E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.55668789E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.55668789E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.55668789E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.55668789E-36   0.0000000       0.0000000    
 fin  1.55668789E-36   0.0000000           +Infinity
       +Infinity
       -Infinity       +Infinity
 ezero   0.0000000    
  1.55668789E-36
       +Infinity

Total energy input of :1.302E-28 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 1.557E-36 is absorbed (entot) 
                         through inelastic collisions (shsum =0.000E+00)
                                           + heating (elhsum =1.557E-36)
 This refers to an energy gain of   +Inf %


 The average E. loss per ion pair is :   +Inf eV (from qtoteV)
                                  or :   +Inf eV (from (entot))
                                  or :   -Inf eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  60.0, longitude 215.0.

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

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

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

 MAIN : The total energy input from the precipitation source is : 1.3018E-28 [eV/cm2/s]
                                                             or : 2.0858E-40 [erg/cm2/s]
                                  and from photoelectron source : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]

 MAIN : Total energy deposition in [CO2] is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 Total Heating :  1.638E-36 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  0.0000000E+00
 entot depart  1.63758384E-36  1.63758384E-36
 shsum :   0.0000000      1.63758384E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.63758384E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.63758384E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.63758384E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.63758384E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.63758384E-36   0.0000000       0.0000000    
 fin  1.63758384E-36   0.0000000           +Infinity
       +Infinity
       -Infinity       +Infinity
 ezero   0.0000000    
  1.63758384E-36
       +Infinity

Total energy input of :1.302E-28 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 1.638E-36 is absorbed (entot) 
                         through inelastic collisions (shsum =0.000E+00)
                                           + heating (elhsum =1.638E-36)
 This refers to an energy gain of   +Inf %


 The average E. loss per ion pair is :   +Inf eV (from qtoteV)
                                  or :   +Inf eV (from (entot))
                                  or :   -Inf eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  45.0, longitude 220.0.

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

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

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

 MAIN : The total energy input from the precipitation source is : 1.3018E-28 [eV/cm2/s]
                                                             or : 2.0858E-40 [erg/cm2/s]
                                  and from photoelectron source : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]

 MAIN : Total energy deposition in [CO2] is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 Total Heating :  1.646E-36 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  0.0000000E+00
 entot depart  1.64615575E-36  1.64615575E-36
 shsum :   0.0000000      1.64615575E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.64615575E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.64615575E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.64615575E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.64615575E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.64615575E-36   0.0000000       0.0000000    
 fin  1.64615575E-36   0.0000000           +Infinity
       +Infinity
       -Infinity       +Infinity
 ezero   0.0000000    
  1.64615575E-36
       +Infinity

Total energy input of :1.302E-28 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 1.646E-36 is absorbed (entot) 
                         through inelastic collisions (shsum =0.000E+00)
                                           + heating (elhsum =1.646E-36)
 This refers to an energy gain of   +Inf %


 The average E. loss per ion pair is :   +Inf eV (from qtoteV)
                                  or :   +Inf eV (from (entot))
                                  or :   -Inf eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  50.0, longitude 220.0.

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

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

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

 MAIN : The total energy input from the precipitation source is : 1.3018E-28 [eV/cm2/s]
                                                             or : 2.0858E-40 [erg/cm2/s]
                                  and from photoelectron source : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]

 MAIN : Total energy deposition in [CO2] is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 Total Heating :  1.662E-36 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  0.0000000E+00
 entot depart  1.66240131E-36  1.66240131E-36
 shsum :   0.0000000      1.66240131E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.66240131E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.66240131E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.66240131E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.66240131E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.66240131E-36   0.0000000       0.0000000    
 fin  1.66240131E-36   0.0000000           +Infinity
       +Infinity
       -Infinity       +Infinity
 ezero   0.0000000    
  1.66240131E-36
       +Infinity

Total energy input of :1.302E-28 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 1.662E-36 is absorbed (entot) 
                         through inelastic collisions (shsum =0.000E+00)
                                           + heating (elhsum =1.662E-36)
 This refers to an energy gain of   +Inf %


 The average E. loss per ion pair is :   +Inf eV (from qtoteV)
                                  or :   +Inf eV (from (entot))
                                  or :   -Inf eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  55.0, longitude 220.0.

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

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

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

 MAIN : The total energy input from the precipitation source is : 1.3018E-28 [eV/cm2/s]
                                                             or : 2.0858E-40 [erg/cm2/s]
                                  and from photoelectron source : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]

 MAIN : Total energy deposition in [CO2] is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 Total Heating :  1.566E-36 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  0.0000000E+00
 entot depart  1.56609924E-36  1.56609924E-36
 shsum :   0.0000000      1.56609924E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.56609924E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.56609924E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.56609924E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.56609924E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.56609924E-36   0.0000000       0.0000000    
 fin  1.56609924E-36   0.0000000           +Infinity
       +Infinity
       -Infinity       +Infinity
 ezero   0.0000000    
  1.56609924E-36
       +Infinity

Total energy input of :1.302E-28 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 1.566E-36 is absorbed (entot) 
                         through inelastic collisions (shsum =0.000E+00)
                                           + heating (elhsum =1.566E-36)
 This refers to an energy gain of   +Inf %


 The average E. loss per ion pair is :   +Inf eV (from qtoteV)
                                  or :   +Inf eV (from (entot))
                                  or :   -Inf eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  60.0, longitude 220.0.

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

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

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

 MAIN : The total energy input from the precipitation source is : 1.3018E-28 [eV/cm2/s]
                                                             or : 2.0858E-40 [erg/cm2/s]
                                  and from photoelectron source : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]

 MAIN : Total energy deposition in [CO2] is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 Total Heating :  1.649E-36 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  0.0000000E+00
 entot depart  1.64911153E-36  1.64911153E-36
 shsum :   0.0000000      1.64911153E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.64911153E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.64911153E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.64911153E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.64911153E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.64911153E-36   0.0000000       0.0000000    
 fin  1.64911153E-36   0.0000000           +Infinity
       +Infinity
       -Infinity       +Infinity
 ezero   0.0000000    
  1.64911153E-36
       +Infinity

Total energy input of :1.302E-28 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 1.649E-36 is absorbed (entot) 
                         through inelastic collisions (shsum =0.000E+00)
                                           + heating (elhsum =1.649E-36)
 This refers to an energy gain of   +Inf %


 The average E. loss per ion pair is :   +Inf eV (from qtoteV)
                                  or :   +Inf eV (from (entot))
                                  or :   -Inf eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  45.0, longitude 225.0.

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

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

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

 MAIN : The total energy input from the precipitation source is : 1.3018E-28 [eV/cm2/s]
                                                             or : 2.0858E-40 [erg/cm2/s]
                                  and from photoelectron source : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]

 MAIN : Total energy deposition in [CO2] is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 Total Heating :  1.643E-36 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  0.0000000E+00
 entot depart  1.64296357E-36  1.64296357E-36
 shsum :   0.0000000      1.64296357E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.64296357E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.64296357E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.64296357E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.64296357E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.64296357E-36   0.0000000       0.0000000    
 fin  1.64296357E-36   0.0000000           +Infinity
       +Infinity
       -Infinity       +Infinity
 ezero   0.0000000    
  1.64296357E-36
       +Infinity

Total energy input of :1.302E-28 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 1.643E-36 is absorbed (entot) 
                         through inelastic collisions (shsum =0.000E+00)
                                           + heating (elhsum =1.643E-36)
 This refers to an energy gain of   +Inf %


 The average E. loss per ion pair is :   +Inf eV (from qtoteV)
                                  or :   +Inf eV (from (entot))
                                  or :   -Inf eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  50.0, longitude 225.0.

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

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

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

 MAIN : The total energy input from the precipitation source is : 1.3018E-28 [eV/cm2/s]
                                                             or : 2.0858E-40 [erg/cm2/s]
                                  and from photoelectron source : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]

 MAIN : Total energy deposition in [CO2] is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 Total Heating :  1.663E-36 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  0.0000000E+00
 entot depart  1.66322890E-36  1.66322890E-36
 shsum :   0.0000000      1.66322890E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.66322890E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.66322890E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.66322890E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.66322890E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.66322890E-36   0.0000000       0.0000000    
 fin  1.66322890E-36   0.0000000           +Infinity
       +Infinity
       -Infinity       +Infinity
 ezero   0.0000000    
  1.66322890E-36
       +Infinity

Total energy input of :1.302E-28 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 1.663E-36 is absorbed (entot) 
                         through inelastic collisions (shsum =0.000E+00)
                                           + heating (elhsum =1.663E-36)
 This refers to an energy gain of   +Inf %


 The average E. loss per ion pair is :   +Inf eV (from qtoteV)
                                  or :   +Inf eV (from (entot))
                                  or :   -Inf eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  55.0, longitude 225.0.

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

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

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

 MAIN : The total energy input from the precipitation source is : 1.3018E-28 [eV/cm2/s]
                                                             or : 2.0858E-40 [erg/cm2/s]
                                  and from photoelectron source : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]

 MAIN : Total energy deposition in [CO2] is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 Total Heating :  1.665E-36 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  0.0000000E+00
 entot depart  1.66527440E-36  1.66527440E-36
 shsum :   0.0000000      1.66527440E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.66527440E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.66527440E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.66527440E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.66527440E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.66527440E-36   0.0000000       0.0000000    
 fin  1.66527440E-36   0.0000000           +Infinity
       +Infinity
       -Infinity       +Infinity
 ezero   0.0000000    
  1.66527440E-36
       +Infinity

Total energy input of :1.302E-28 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 1.665E-36 is absorbed (entot) 
                         through inelastic collisions (shsum =0.000E+00)
                                           + heating (elhsum =1.665E-36)
 This refers to an energy gain of   +Inf %


 The average E. loss per ion pair is :   +Inf eV (from qtoteV)
                                  or :   +Inf eV (from (entot))
                                  or :   -Inf eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  60.0, longitude 225.0.

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

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

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

 MAIN : The total energy input from the precipitation source is : 1.3018E-28 [eV/cm2/s]
                                                             or : 2.0858E-40 [erg/cm2/s]
                                  and from photoelectron source : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]

 MAIN : Total energy deposition in [CO2] is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 Total Heating :  1.657E-36 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  0.0000000E+00
 entot depart  1.65696257E-36  1.65696257E-36
 shsum :   0.0000000      1.65696257E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.65696257E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.65696257E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.65696257E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.65696257E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.65696257E-36   0.0000000       0.0000000    
 fin  1.65696257E-36   0.0000000           +Infinity
       +Infinity
       -Infinity       +Infinity
 ezero   0.0000000    
  1.65696257E-36
       +Infinity

Total energy input of :1.302E-28 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 1.657E-36 is absorbed (entot) 
                         through inelastic collisions (shsum =0.000E+00)
                                           + heating (elhsum =1.657E-36)
 This refers to an energy gain of   +Inf %


 The average E. loss per ion pair is :   +Inf eV (from qtoteV)
                                  or :   +Inf eV (from (entot))
                                  or :   -Inf eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  45.0, longitude 230.0.

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

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

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

 MAIN : The total energy input from the precipitation source is : 1.3018E-28 [eV/cm2/s]
                                                             or : 2.0858E-40 [erg/cm2/s]
                                  and from photoelectron source : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]

 MAIN : Total energy deposition in [CO2] is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 Total Heating :  1.644E-36 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  0.0000000E+00
 entot depart  1.64385036E-36  1.64385036E-36
 shsum :   0.0000000      1.64385036E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.64385036E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.64385036E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.64385036E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.64385036E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.64385036E-36   0.0000000       0.0000000    
 fin  1.64385036E-36   0.0000000           +Infinity
       +Infinity
       -Infinity       +Infinity
 ezero   0.0000000    
  1.64385036E-36
       +Infinity

Total energy input of :1.302E-28 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 1.644E-36 is absorbed (entot) 
                         through inelastic collisions (shsum =0.000E+00)
                                           + heating (elhsum =1.644E-36)
 This refers to an energy gain of   +Inf %


 The average E. loss per ion pair is :   +Inf eV (from qtoteV)
                                  or :   +Inf eV (from (entot))
                                  or :   -Inf eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  50.0, longitude 230.0.

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

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

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

 MAIN : The total energy input from the precipitation source is : 1.3018E-28 [eV/cm2/s]
                                                             or : 2.0858E-40 [erg/cm2/s]
                                  and from photoelectron source : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]

 MAIN : Total energy deposition in [CO2] is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 Total Heating :  1.665E-36 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  0.0000000E+00
 entot depart  1.66460052E-36  1.66460052E-36
 shsum :   0.0000000      1.66460052E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.66460052E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.66460052E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.66460052E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.66460052E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.66460052E-36   0.0000000       0.0000000    
 fin  1.66460052E-36   0.0000000           +Infinity
       +Infinity
       -Infinity       +Infinity
 ezero   0.0000000    
  1.66460052E-36
       +Infinity

Total energy input of :1.302E-28 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 1.665E-36 is absorbed (entot) 
                         through inelastic collisions (shsum =0.000E+00)
                                           + heating (elhsum =1.665E-36)
 This refers to an energy gain of   +Inf %


 The average E. loss per ion pair is :   +Inf eV (from qtoteV)
                                  or :   +Inf eV (from (entot))
                                  or :   -Inf eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  55.0, longitude 230.0.

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

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

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

 MAIN : The total energy input from the precipitation source is : 1.3018E-28 [eV/cm2/s]
                                                             or : 2.0858E-40 [erg/cm2/s]
                                  and from photoelectron source : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]

 MAIN : Total energy deposition in [CO2] is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 Total Heating :  1.670E-36 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  0.0000000E+00
 entot depart  1.66995657E-36  1.66995657E-36
 shsum :   0.0000000      1.66995657E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.66995657E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.66995657E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.66995657E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.66995657E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.66995657E-36   0.0000000       0.0000000    
 fin  1.66995657E-36   0.0000000           +Infinity
       +Infinity
       -Infinity       +Infinity
 ezero   0.0000000    
  1.66995657E-36
       +Infinity

Total energy input of :1.302E-28 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 1.670E-36 is absorbed (entot) 
                         through inelastic collisions (shsum =0.000E+00)
                                           + heating (elhsum =1.670E-36)
 This refers to an energy gain of   +Inf %


 The average E. loss per ion pair is :   +Inf eV (from qtoteV)
                                  or :   +Inf eV (from (entot))
                                  or :   -Inf eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  60.0, longitude 230.0.

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

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

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

 MAIN : The total energy input from the precipitation source is : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]
                                  and from photoelectron source : 9.2463E+04 [eV/cm2/s]
                                                             or : 1.4814E-07 [erg/cm2/s]
 That variable "errorgaupin" is:        11655

 MAIN : Total energy deposition in [CO2] is 8.056E+04 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 7.557E+03 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 1.194E+04 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 3.086E+04 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 3.201E-04 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 4.202E-05 [eV.cm-2.s-1] ("shsum").
   12746.162               2          21
   12778.443               2          23

 Total Heating :  1.446E+01 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  3.3244807E-09
 entot depart   14.461196       14.461196    
 shsum :   3008.6873       80572.664       80558.203       80558.203    
 shsum :   3134.5859       88130.156       7557.4951       88115.695    
 shsum :   3211.3882       100067.38       11937.227       100052.92    
 shsum :   4275.7764       130931.73       30864.344       130917.27    
 shsum :   4275.7764       130931.73      3.20146617E-04   130917.27    
 shsum :   4275.7764       130931.73      4.20241922E-05   130917.27    
 fin   130931.73       4275.7764       21.624912    
   30.621744    
 -1.54786467E+20   21.624912    
 ezero   0.0000000    
   130931.73    
  7.15778411E+20

Total energy input of :9.246E+04 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 1.309E+05 is absorbed (entot) 
                         through inelastic collisions (shsum =1.309E+05)
                                           + heating (elhsum =1.446E+01)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  21.62 eV (from qtoteV)
                                  or :  30.62 eV (from (entot))
                                  or :******* eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  45.0, longitude 235.0.

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

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

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

 MAIN : The total energy input from the precipitation source is : 1.3018E-28 [eV/cm2/s]
                                                             or : 2.0858E-40 [erg/cm2/s]
                                  and from photoelectron source : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]

 MAIN : Total energy deposition in [CO2] is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 Total Heating :  1.649E-36 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  0.0000000E+00
 entot depart  1.64906418E-36  1.64906418E-36
 shsum :   0.0000000      1.64906418E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.64906418E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.64906418E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.64906418E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.64906418E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.64906418E-36   0.0000000       0.0000000    
 fin  1.64906418E-36   0.0000000           +Infinity
       +Infinity
       -Infinity       +Infinity
 ezero   0.0000000    
  1.64906418E-36
       +Infinity

Total energy input of :1.302E-28 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 1.649E-36 is absorbed (entot) 
                         through inelastic collisions (shsum =0.000E+00)
                                           + heating (elhsum =1.649E-36)
 This refers to an energy gain of   +Inf %


 The average E. loss per ion pair is :   +Inf eV (from qtoteV)
                                  or :   +Inf eV (from (entot))
                                  or :   -Inf eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  50.0, longitude 235.0.

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

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

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

 MAIN : The total energy input from the precipitation source is : 1.3018E-28 [eV/cm2/s]
                                                             or : 2.0858E-40 [erg/cm2/s]
                                  and from photoelectron source : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]

 MAIN : Total energy deposition in [CO2] is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 Total Heating :  1.574E-36 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  0.0000000E+00
 entot depart  1.57355997E-36  1.57355997E-36
 shsum :   0.0000000      1.57355997E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.57355997E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.57355997E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.57355997E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.57355997E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.57355997E-36   0.0000000       0.0000000    
 fin  1.57355997E-36   0.0000000           +Infinity
       +Infinity
       -Infinity       +Infinity
 ezero   0.0000000    
  1.57355997E-36
       +Infinity

Total energy input of :1.302E-28 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 1.574E-36 is absorbed (entot) 
                         through inelastic collisions (shsum =0.000E+00)
                                           + heating (elhsum =1.574E-36)
 This refers to an energy gain of   +Inf %


 The average E. loss per ion pair is :   +Inf eV (from qtoteV)
                                  or :   +Inf eV (from (entot))
                                  or :   -Inf eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  55.0, longitude 235.0.

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

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

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

 MAIN : The total energy input from the precipitation source is : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]
                                  and from photoelectron source : 1.6491E+04 [eV/cm2/s]
                                                             or : 2.6421E-08 [erg/cm2/s]
 That variable "errorgaupin" is:         8404

 MAIN : Total energy deposition in [CO2] is 4.468E+03 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 1.226E+03 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 8.582E+02 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 4.959E+03 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 4.179E-05 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 6.095E-06 [eV.cm-2.s-1] ("shsum").
   67.254341               2          21
   67.437431               2          23

 Total Heating :  3.181E-02 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  5.1658566E-10
 entot depart  3.18100937E-02  3.18100937E-02
 shsum :   348.33063       4467.7104       4467.6787       4467.6787    
 shsum :   367.89383       5693.4150       1225.7046       5693.3833    
 shsum :   379.88608       6551.6157       858.20056       6551.5840    
 shsum :   547.66925       11510.533       4958.9170       11510.501    
 shsum :   547.66925       11510.533      4.17855081E-05   11510.501    
 shsum :   547.66925       11510.533      6.09535891E-06   11510.501    
 fin   11510.533       547.66925       30.110373    
   21.017307    
 -1.20845258E+21   30.110373    
 ezero   0.0000000    
   11510.533    
  4.01340927E+21

Total energy input of :1.649E+04 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 1.151E+04 is absorbed (entot) 
                         through inelastic collisions (shsum =1.151E+04)
                                           + heating (elhsum =3.181E-02)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  30.11 eV (from qtoteV)
                                  or :  21.02 eV (from (entot))
                                  or :******* eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  60.0, longitude 235.0.

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

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

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

 MAIN : The total energy input from the precipitation source is : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]
                                  and from photoelectron source : 3.4658E+06 [eV/cm2/s]
                                                             or : 5.5530E-06 [erg/cm2/s]
 That variable "errorgaupin" is:         1912

 MAIN : Total energy deposition in [CO2] is 2.997E+05 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 9.074E+04 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 6.918E+04 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 4.536E+05 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 5.348E-03 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 5.569E-04 [eV.cm-2.s-1] ("shsum").
   29017.150               2          21
   29126.051               2          23

 Total Heating :  1.127E+01 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  3.3709536E-08
 entot depart   11.273402       11.273402    
 shsum :   158058.78       299730.78       299719.50       299719.50    
 shsum :   159335.38       390468.56       90737.766       390457.25    
 shsum :   160170.70       459650.47       69181.898       459639.16    
 shsum :   174693.98       913288.50       453638.00       913277.13    
 shsum :   174693.98       913288.50      5.34799881E-03   913277.13    
 shsum :   174693.98       913288.50      5.56863321E-04   913277.13    
 fin   913288.50       174693.98       19.839434    
   5.2279334    
 -3.78852372E+18   19.839434    
 ezero   0.0000000    
   913288.50    
  1.90959265E+19

Total energy input of :3.466E+06 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 9.133E+05 is absorbed (entot) 
                         through inelastic collisions (shsum =9.133E+05)
                                           + heating (elhsum =1.127E+01)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  19.84 eV (from qtoteV)
                                  or :   5.23 eV (from (entot))
                                  or :******* eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  45.0, longitude 240.0.

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

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

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

 MAIN : The total energy input from the precipitation source is : 1.3018E-28 [eV/cm2/s]
                                                             or : 2.0858E-40 [erg/cm2/s]
                                  and from photoelectron source : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]

 MAIN : Total energy deposition in [CO2] is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 Total Heating :  1.567E-36 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  0.0000000E+00
 entot depart  1.56692683E-36  1.56692683E-36
 shsum :   0.0000000      1.56692683E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.56692683E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.56692683E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.56692683E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.56692683E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.56692683E-36   0.0000000       0.0000000    
 fin  1.56692683E-36   0.0000000           +Infinity
       +Infinity
       -Infinity       +Infinity
 ezero   0.0000000    
  1.56692683E-36
       +Infinity

Total energy input of :1.302E-28 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 1.567E-36 is absorbed (entot) 
                         through inelastic collisions (shsum =0.000E+00)
                                           + heating (elhsum =1.567E-36)
 This refers to an energy gain of   +Inf %


 The average E. loss per ion pair is :   +Inf eV (from qtoteV)
                                  or :   +Inf eV (from (entot))
                                  or :   -Inf eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  50.0, longitude 240.0.

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

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

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

 MAIN : The total energy input from the precipitation source is : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]
                                  and from photoelectron source : 7.5734E+04 [eV/cm2/s]
                                                             or : 1.2134E-07 [erg/cm2/s]
 That variable "errorgaupin" is:        10801

 MAIN : Total energy deposition in [CO2] is 8.480E+04 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 6.843E+03 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 1.498E+04 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 2.715E+04 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 2.412E-04 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 3.109E-05 [eV.cm-2.s-1] ("shsum").
   13759.157               2          21
   13786.119               2          23

 Total Heating :  1.901E+01 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  2.7599656E-09
 entot depart   19.008425       19.008425    
 shsum :   2511.4414       84817.773       84798.766       84798.766    
 shsum :   2615.9619       91661.125       6843.3525       91642.117    
 shsum :   2679.6582       106638.94       14977.816       106619.94    
 shsum :   3486.8723       133790.88       27151.934       133771.88    
 shsum :   3486.8723       133790.88      2.41230431E-04   133771.88    
 shsum :   3486.8723       133790.88      3.10938194E-05   133771.88    
 fin   133790.88       3486.8723       21.719868    
   38.369881    
 -1.89806863E+20   21.719868    
 ezero   0.0000000    
   133790.88    
  8.73885931E+20

Total energy input of :7.573E+04 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 1.338E+05 is absorbed (entot) 
                         through inelastic collisions (shsum =1.338E+05)
                                           + heating (elhsum =1.901E+01)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  21.72 eV (from qtoteV)
                                  or :  38.37 eV (from (entot))
                                  or :******* eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  55.0, longitude 240.0.

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

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

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

 MAIN : The total energy input from the precipitation source is : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]
                                  and from photoelectron source : 3.0716E+06 [eV/cm2/s]
                                                             or : 4.9213E-06 [erg/cm2/s]
 That variable "errorgaupin" is:         4807

 MAIN : Total energy deposition in [CO2] is 2.643E+05 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 8.862E+04 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 6.982E+04 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 4.413E+05 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 4.675E-03 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 4.790E-04 [eV.cm-2.s-1] ("shsum").
   4944.4702               2          21
   4992.0063               2          23

 Total Heating :  2.151E+00 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  3.2097667E-08
 entot depart   2.1508479       2.1508479    
 shsum :   141214.97       264258.78       264256.63       264256.63    
 shsum :   142430.52       352880.50       88621.703       352878.31    
 shsum :   143230.89       422703.47       69822.977       422701.28    
 shsum :   157246.33       864030.13       441326.69       864028.00    
 shsum :   157246.33       864030.13      4.67457669E-03   864028.00    
 shsum :   157246.33       864030.13      4.78983624E-04   864028.00    
 fin   864030.13       157246.33       19.533525    
   5.4947553    
 -4.20888873E+18   19.533525    
 ezero   0.0000000    
   864030.13    
  2.15469996E+19

Total energy input of :3.072E+06 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 8.640E+05 is absorbed (entot) 
                         through inelastic collisions (shsum =8.640E+05)
                                           + heating (elhsum =2.151E+00)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  19.53 eV (from qtoteV)
                                  or :   5.49 eV (from (entot))
                                  or :******* eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  60.0, longitude 240.0.

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

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

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

 MAIN : The total energy input from the precipitation source is : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]
                                  and from photoelectron source : 1.8921E+07 [eV/cm2/s]
                                                             or : 3.0315E-05 [erg/cm2/s]
 That variable "errorgaupin" is:          438

 MAIN : Total energy deposition in [CO2] is 1.603E+06 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 5.179E+05 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 3.944E+05 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 2.632E+06 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 3.017E-02 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 3.030E-03 [eV.cm-2.s-1] ("shsum").
   76923.094               2          21
   77063.109               2          23

 Total Heating :  2.814E+01 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  1.8833603E-07
 entot depart   28.143044       28.143044    
 shsum :   901418.94       1603070.9       1603042.8       1603042.8    
 shsum :   908551.25       2121007.5       517936.50       2120979.3    
 shsum :   913281.63       2515436.5       394428.97       2515408.3    
 shsum :   997349.50       5147197.5       2631761.0       5147169.0    
 shsum :   997349.50       5147197.5      3.01687606E-02   5147169.0    
 shsum :   997349.50       5147197.5      3.02985543E-03   5147169.0    
 fin   5147197.5       997349.50       18.971321    
   5.1608763    
 -6.63591139E+17   18.971321    
 ezero   0.0000000    
   5147197.5    
  3.49786452E+18

Total energy input of :1.892E+07 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 5.147E+06 is absorbed (entot) 
                         through inelastic collisions (shsum =5.147E+06)
                                           + heating (elhsum =2.814E+01)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  18.97 eV (from qtoteV)
                                  or :   5.16 eV (from (entot))
                                  or :******* eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  45.0, longitude 245.0.

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

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

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

 MAIN : The total energy input from the precipitation source is : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]
                                  and from photoelectron source : 9.9037E+05 [eV/cm2/s]
                                                             or : 1.5868E-06 [erg/cm2/s]
 That variable "errorgaupin" is:         5629

 MAIN : Total energy deposition in [CO2] is 1.567E+05 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 4.142E+04 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 4.562E+04 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 1.853E+05 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 1.741E-03 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 1.637E-04 [eV.cm-2.s-1] ("shsum").
   19622.252               2          21
   19717.305               2          23

 Total Heating :  1.273E+01 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  1.1117590E-08
 entot depart   12.732971       12.732971    
 shsum :   43540.516       156681.08       156668.34       156668.34    
 shsum :   43961.539       198098.25       41417.164       198085.50    
 shsum :   44239.000       243716.27       45618.012       243703.52    
 shsum :   48980.516       429003.34       185287.08       428990.59    
 shsum :   48980.516       429003.34      1.74065470E-03   428990.59    
 shsum :   48980.516       429003.34      1.63655975E-04   428990.59    
 fin   429003.34       48980.516       20.219755    
   8.7586527    
 -1.35121546E+19   20.219755    
 ezero   0.0000000    
   429003.34    
  6.68265047E+19

Total energy input of :9.904E+05 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 4.290E+05 is absorbed (entot) 
                         through inelastic collisions (shsum =4.290E+05)
                                           + heating (elhsum =1.273E+01)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  20.22 eV (from qtoteV)
                                  or :   8.76 eV (from (entot))
                                  or :******* eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  50.0, longitude 245.0.

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

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

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

 MAIN : The total energy input from the precipitation source is : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]
                                  and from photoelectron source : 5.5386E+06 [eV/cm2/s]
                                                             or : 8.8739E-06 [erg/cm2/s]
 That variable "errorgaupin" is:         2122

 MAIN : Total energy deposition in [CO2] is 4.764E+05 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 1.464E+05 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 1.104E+05 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 7.469E+05 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 8.168E-03 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 8.313E-04 [eV.cm-2.s-1] ("shsum").
   151387.44               2          21
   151655.16               2          23

 Total Heating :  3.925E+01 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  5.4195965E-08
 entot depart   39.248882       39.248882    
 shsum :   260711.75       476413.22       476373.97       476373.97    
 shsum :   262764.16       622844.75       146431.56       622805.50    
 shsum :   264119.25       733249.56       110404.81       733210.31    
 shsum :   288113.19       1480179.5       746929.94       1480140.3    
 shsum :   288113.19       1480179.5      8.16834532E-03   1480140.3    
 shsum :   288113.19       1480179.5      8.31307843E-04   1480140.3    
 fin   1480179.5       288113.19       19.223558    
   5.1374931    
 -2.29712594E+18   19.223558    
 ezero   0.0000000    
   1480179.5    
  1.19495364E+19

Total energy input of :5.539E+06 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 1.480E+06 is absorbed (entot) 
                         through inelastic collisions (shsum =1.480E+06)
                                           + heating (elhsum =3.925E+01)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  19.22 eV (from qtoteV)
                                  or :   5.14 eV (from (entot))
                                  or :******* eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  55.0, longitude 245.0.

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

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

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

 MAIN : The total energy input from the precipitation source is : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]
                                  and from photoelectron source : 2.1916E+07 [eV/cm2/s]
                                                             or : 3.5114E-05 [erg/cm2/s]
 That variable "errorgaupin" is:          449

 MAIN : Total energy deposition in [CO2] is 1.850E+06 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 5.988E+05 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 4.539E+05 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 3.041E+06 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 3.282E-02 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 3.309E-03 [eV.cm-2.s-1] ("shsum").
   104522.41               2          21
   105033.72               2          23

 Total Heating :  3.501E+01 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  2.1756993E-07
 entot depart   35.013000       35.013000    
 shsum :   1047024.0       1849958.5       1849923.5       1849923.5    
 shsum :   1055263.4       2448790.5       598832.06       2448755.5    
 shsum :   1060728.8       2902724.8       453934.31       2902689.8    
 shsum :   1157944.4       5943274.0       3040549.0       5943239.0    
 shsum :   1157944.4       5943274.0      3.28207426E-02   5943239.0    
 shsum :   1157944.4       5943274.0      3.30931786E-03   5943239.0    
 fin   5943274.0       1157944.4       18.926733    
   5.1326075    
 -5.71557927E+17   18.926733    
 ezero   0.0000000    
   5943274.0    
  3.01984442E+18

Total energy input of :2.192E+07 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 5.943E+06 is absorbed (entot) 
                         through inelastic collisions (shsum =5.943E+06)
                                           + heating (elhsum =3.501E+01)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  18.93 eV (from qtoteV)
                                  or :   5.13 eV (from (entot))
                                  or :******* eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  60.0, longitude 245.0.

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

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

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

 MAIN : The total energy input from the precipitation source is : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]
                                  and from photoelectron source : 7.5432E+07 [eV/cm2/s]
                                                             or : 1.2086E-04 [erg/cm2/s]
 That variable "errorgaupin" is:          186

 MAIN : Total energy deposition in [CO2] is 6.554E+06 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 2.105E+06 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 1.597E+06 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 1.070E+07 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 1.255E-01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 1.258E-02 [eV.cm-2.s-1] ("shsum").
   331722.09               2          21
   333017.81               2          23

 Total Heating :  1.216E+02 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  7.6934907E-07
 entot depart   121.59108       121.59108    
 shsum :   3587861.0       6554345.5       6554224.0       6554224.0    
 shsum :   3616996.5       8658878.0       2104532.0       8658756.0    
 shsum :   3636272.0       10255745.       1596867.1       10255623.    
 shsum :   3978876.5       20959296.       10703552.       20959176.    
 shsum :   3978876.5       20959296.      0.12548237       20959176.    
 shsum :   3978876.5       20959296.      1.25769023E-02   20959176.    
 fin   20959296.       3978876.5       18.958103    
   5.2676415    
 -1.66336473E+17   18.958103    
 ezero   0.0000000    
   20959296.    
  8.77389801E+17

Total energy input of :7.543E+07 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 2.096E+07 is absorbed (entot) 
                         through inelastic collisions (shsum =2.096E+07)
                                           + heating (elhsum =1.216E+02)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  18.96 eV (from qtoteV)
                                  or :   5.27 eV (from (entot))
                                  or :******* eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  45.0, longitude 250.0.

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

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

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

 MAIN : The total energy input from the precipitation source is : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]
                                  and from photoelectron source : 1.6260E+07 [eV/cm2/s]
                                                             or : 2.6051E-05 [erg/cm2/s]
 That variable "errorgaupin" is:          709

 MAIN : Total energy deposition in [CO2] is 1.390E+06 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 4.414E+05 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 3.338E+05 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 2.244E+06 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 2.274E-02 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 2.291E-03 [eV.cm-2.s-1] ("shsum").
   180479.05               2          21
   180910.52               2          23

 Total Heating :  4.873E+01 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  1.6075204E-07
 entot depart   48.732815       48.732815    
 shsum :   777631.75       1390101.3       1390052.5       1390052.5    
 shsum :   783719.44       1831501.5       441400.25       1831452.8    
 shsum :   787758.19       2165287.8       333786.19       2165239.0    
 shsum :   859596.06       4409156.0       2243868.5       4409107.5    
 shsum :   859596.06       4409156.0      2.27411538E-02   4409107.5    
 shsum :   859596.06       4409156.0      2.29085935E-03   4409107.5    
 fin   4409156.0       859596.06       18.915583    
   5.1293349    
 -7.69934048E+17   18.915583    
 ezero   0.0000000    
   4409156.0    
  4.07036923E+18

Total energy input of :1.626E+07 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 4.409E+06 is absorbed (entot) 
                         through inelastic collisions (shsum =4.409E+06)
                                           + heating (elhsum =4.873E+01)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  18.92 eV (from qtoteV)
                                  or :   5.13 eV (from (entot))
                                  or :******* eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  50.0, longitude 250.0.

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

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

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

 MAIN : The total energy input from the precipitation source is : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]
                                  and from photoelectron source : 4.2619E+07 [eV/cm2/s]
                                                             or : 6.8285E-05 [erg/cm2/s]
 That variable "errorgaupin" is:          497

 MAIN : Total energy deposition in [CO2] is 3.624E+06 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 1.173E+06 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 8.925E+05 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 5.976E+06 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 6.070E-02 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 6.121E-03 [eV.cm-2.s-1] ("shsum").
   167377.28               2          21
   167453.25               2          23

 Total Heating :  5.764E+01 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  4.2607269E-07
 entot depart   57.643536       57.643536    
 shsum :   2040980.9       3623742.8       3623685.0       3623685.0    
 shsum :   2057116.4       4797206.0       1173463.0       4797148.0    
 shsum :   2067821.1       5689754.0       892548.19       5689696.0    
 shsum :   2258686.8       11666046.       5976292.5       11665988.    
 shsum :   2258686.8       11666046.      6.06999025E-02   11665988.    
 shsum :   2258686.8       11666046.      6.12119399E-03   11665988.    
 fin   11666046.       2258686.8       18.869123    
   5.1649685    
 -2.93016413E+17   18.869123    
 ezero   0.0000000    
   11666046.    
  1.55288824E+18

Total energy input of :4.262E+07 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 1.167E+07 is absorbed (entot) 
                         through inelastic collisions (shsum =1.167E+07)
                                           + heating (elhsum =5.764E+01)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  18.87 eV (from qtoteV)
                                  or :   5.16 eV (from (entot))
                                  or :******* eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  55.0, longitude 250.0.

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

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

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

 MAIN : The total energy input from the precipitation source is : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]
                                  and from photoelectron source : 1.0859E+08 [eV/cm2/s]
                                                             or : 1.7398E-04 [erg/cm2/s]
 That variable "errorgaupin" is:          218

 MAIN : Total energy deposition in [CO2] is 9.643E+06 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 3.076E+06 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 2.327E+06 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 1.563E+07 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 1.740E-01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 1.752E-02 [eV.cm-2.s-1] ("shsum").
   483111.19               2          21
   484107.75               2          23

 Total Heating :  1.695E+02 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  1.1326131E-06
 entot depart   169.54103       169.54103    
 shsum :   5126824.0       9643648.0       9643478.0       9643478.0    
 shsum :   5169716.5       12720145.       3076497.0       12719975.    
 shsum :   5198022.0       15047404.       2327259.5       15047234.    
 shsum :   5699434.0       30675460.       15628055.       30675288.    
 shsum :   5699434.0       30675460.      0.17403758       30675288.    
 shsum :   5699434.0       30675460.      1.75180919E-02   30675288.    
 fin   30675460.       5699434.0       19.052219    
   5.3821940    
 -1.16122455E+17   19.052219    
 ezero   0.0000000    
   30675460.    
  6.09495717E+17

Total energy input of :1.086E+08 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 3.068E+07 is absorbed (entot) 
                         through inelastic collisions (shsum =3.068E+07)
                                           + heating (elhsum =1.695E+02)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  19.05 eV (from qtoteV)
                                  or :   5.38 eV (from (entot))
                                  or :******* eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  60.0, longitude 250.0.

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

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

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

 MAIN : The total energy input from the precipitation source is : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]
                                  and from photoelectron source : 3.0007E+08 [eV/cm2/s]
                                                             or : 4.8077E-04 [erg/cm2/s]
 That variable "errorgaupin" is:          133

 MAIN : Total energy deposition in [CO2] is 2.909E+07 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 9.124E+06 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 6.823E+06 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 4.610E+07 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 5.317E-01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 5.268E-02 [eV.cm-2.s-1] ("shsum").
   1443673.1               2          21
   1446920.8               2          23

 Total Heating :  5.061E+02 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  3.4423595E-06
 entot depart   506.12134       506.12134    
 shsum :   13839630.       29092636.       29092130.       29092130.    
 shsum :   13969993.       38216280.       9123646.0       38215776.    
 shsum :   14055362.       45039124.       6822845.0       45038620.    
 shsum :   15545084.       91143392.       46104272.       91142896.    
 shsum :   15545084.       91143392.      0.53171504       91142896.    
 shsum :   15545084.       91143392.      5.26764467E-02   91142896.    
 fin   91143392.       15545084.       19.303146    
   5.8631649    
 -4.25750230E+16   19.303146    
 ezero   0.0000000    
   91143392.    
  2.20560022E+17

Total energy input of :3.001E+08 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 9.114E+07 is absorbed (entot) 
                         through inelastic collisions (shsum =9.114E+07)
                                           + heating (elhsum =5.061E+02)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  19.30 eV (from qtoteV)
                                  or :   5.86 eV (from (entot))
                                  or :******* eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  45.0, longitude 255.0.

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

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

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

 MAIN : The total energy input from the precipitation source is : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]
                                  and from photoelectron source : 1.2777E+08 [eV/cm2/s]
                                                             or : 2.0472E-04 [erg/cm2/s]
 That variable "errorgaupin" is:          325

 MAIN : Total energy deposition in [CO2] is 1.150E+07 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 3.658E+06 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 2.764E+06 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 1.857E+07 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 1.805E-01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 1.828E-02 [eV.cm-2.s-1] ("shsum").
   586486.50               2          21
   587294.38               2          23

 Total Heating :  1.844E+02 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  1.3490619E-06
 entot depart   184.36996       184.36996    
 shsum :   6020498.0       11497908.       11497724.       11497724.    
 shsum :   6071587.0       15156261.       3658352.8       15156077.    
 shsum :   6105269.0       17920632.       2764370.5       17920448.    
 shsum :   6701365.5       36489504.       18568874.       36489320.    
 shsum :   6701365.5       36489504.      0.18051109       36489320.    
 shsum :   6701365.5       36489504.      1.82848386E-02   36489320.    
 fin   36489504.       6701365.5       19.066458    
   5.4450850    
 -9.87608059E+16   19.066458    
 ezero   0.0000000    
   36489504.    
  5.17981955E+17

Total energy input of :1.278E+08 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 3.649E+07 is absorbed (entot) 
                         through inelastic collisions (shsum =3.649E+07)
                                           + heating (elhsum =1.844E+02)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  19.07 eV (from qtoteV)
                                  or :   5.45 eV (from (entot))
                                  or :******* eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  50.0, longitude 255.0.

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

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

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

 MAIN : The total energy input from the precipitation source is : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]
                                  and from photoelectron source : 2.6079E+08 [eV/cm2/s]
                                                             or : 4.1784E-04 [erg/cm2/s]
 That variable "errorgaupin" is:          201

 MAIN : Total energy deposition in [CO2] is 2.503E+07 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 7.853E+06 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 5.881E+06 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 3.968E+07 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 4.109E-01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 4.106E-02 [eV.cm-2.s-1] ("shsum").
   1237447.1               2          21
   1239623.8               2          23

 Total Heating :  4.005E+02 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  2.9540074E-06
 entot depart   400.48941       400.48941    
 shsum :   12051209.       25033728.       25033328.       25033328.    
 shsum :   12163078.       32886820.       7853093.0       32886420.    
 shsum :   12236379.       38768192.       5881373.5       38767792.    
 shsum :   13517691.       78449016.       39680824.       78448616.    
 shsum :   13517691.       78449016.      0.41089153       78448616.    
 shsum :   13517691.       78449016.      4.10567746E-02   78448616.    
 fin   78449016.       13517691.       19.292704    
   5.8034329    
 -4.89604539E+16   19.292704    
 ezero   0.0000000    
   78449016.    
  2.53777025E+17

Total energy input of :2.608E+08 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 7.845E+07 is absorbed (entot) 
                         through inelastic collisions (shsum =7.845E+07)
                                           + heating (elhsum =4.005E+02)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  19.29 eV (from qtoteV)
                                  or :   5.80 eV (from (entot))
                                  or :******* eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  55.0, longitude 255.0.

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

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

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

 MAIN : The total energy input from the precipitation source is : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]
                                  and from photoelectron source : 5.4953E+08 [eV/cm2/s]
                                                             or : 8.8046E-04 [erg/cm2/s]
 That variable "errorgaupin" is:          127

 MAIN : Total energy deposition in [CO2] is 5.855E+07 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 1.805E+07 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 1.339E+07 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 8.974E+07 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 9.115E-01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 8.880E-02 [eV.cm-2.s-1] ("shsum").
   2827343.0               2          21
   2833652.3               2          23

 Total Heating :  9.217E+02 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  6.9184998E-06
 entot depart   921.67432       921.67432    
 shsum :   25058798.       58551456.       58550536.       58550536.    
 shsum :   25320802.       76597240.       18045782.       76596320.    
 shsum :   25491392.       89988696.       13391456.       89987776.    
 shsum :   28396702.      1.79729088E+08   89740384.      1.79728160E+08
 shsum :   28396702.      1.79729088E+08  0.91148126      1.79728160E+08
 shsum :   28396702.      1.79729088E+08  8.88023973E-02  1.79728160E+08
 fin  1.79729088E+08   28396702.       19.351933    
   6.3292241    
 -2.33066594E+16   19.351933    
 ezero   0.0000000    
  1.79729088E+08
  1.20435822E+17

Total energy input of :5.495E+08 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 1.797E+08 is absorbed (entot) 
                         through inelastic collisions (shsum =1.797E+08)
                                           + heating (elhsum =9.217E+02)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  19.35 eV (from qtoteV)
                                  or :   6.33 eV (from (entot))
                                  or :******* eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  60.0, longitude 255.0.

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

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

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

 MAIN : The total energy input from the precipitation source is : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]
                                  and from photoelectron source : 1.1185E+09 [eV/cm2/s]
                                                             or : 1.7920E-03 [erg/cm2/s]
 That variable "errorgaupin" is:           92

 MAIN : Total energy deposition in [CO2] is 1.399E+08 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 4.169E+07 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 3.068E+07 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 1.991E+08 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 1.832E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 1.732E-01 [eV.cm-2.s-1] ("shsum").
   6382346.0               2          21
   6401401.0               2          23

 Total Heating :  2.071E+03 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  1.6223847E-05
 entot depart   2071.4114       2071.4114    
 shsum :   50561264.      1.39946544E+08  1.39944480E+08  1.39944480E+08
 shsum :   51175664.      1.81640304E+08   41693756.      1.81638240E+08
 shsum :   51573132.      2.12323648E+08   30683348.      2.12321584E+08
 shsum :   57998932.      4.11433536E+08  1.99109872E+08  4.11431456E+08
 shsum :   57998932.      4.11433536E+08   1.8318722      4.11431456E+08
 shsum :   57998932.      4.11433536E+08  0.17319116      4.11431456E+08
 fin  4.11433536E+08   57998932.       19.284084    
   7.0938125    
 -1.14111118E+16   19.284084    
 ezero   0.0000000    
  4.11433536E+08
  5.91737229E+16

Total energy input of :1.118E+09 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 4.114E+08 is absorbed (entot) 
                         through inelastic collisions (shsum =4.114E+08)
                                           + heating (elhsum =2.071E+03)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  19.28 eV (from qtoteV)
                                  or :   7.09 eV (from (entot))
                                  or :******* eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  45.0, longitude 260.0.

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

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

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

 MAIN : The total energy input from the precipitation source is : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]
                                  and from photoelectron source : 9.7453E+08 [eV/cm2/s]
                                                             or : 1.5614E-03 [erg/cm2/s]
 That variable "errorgaupin" is:          143

 MAIN : Total energy deposition in [CO2] is 1.203E+08 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 3.572E+07 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 2.626E+07 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 1.711E+08 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 1.369E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 1.311E-01 [eV.cm-2.s-1] ("shsum").
   5397674.0               2          21
   5404849.0               2          23

 Total Heating :  1.549E+03 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  1.3939067E-05
 entot depart   1549.3483       1549.3483    
 shsum :   43847048.      1.20307456E+08  1.20305904E+08  1.20305904E+08
 shsum :   44374924.      1.56024848E+08   35717392.      1.56023296E+08
 shsum :   44715852.      1.82284512E+08   26259670.      1.82282960E+08
 shsum :   50252236.      3.53416128E+08  1.71131600E+08  3.53414560E+08
 shsum :   50252236.      3.53416128E+08   1.3686631      3.53414560E+08
 shsum :   50252236.      3.53416128E+08  0.13113582      3.53414560E+08
 fin  3.53416128E+08   50252236.       19.392763    
   7.0328441    
 -1.31702058E+16   19.392763    
 ezero   0.0000000    
  3.53416128E+08
  6.79129893E+16

Total energy input of :9.745E+08 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 3.534E+08 is absorbed (entot) 
                         through inelastic collisions (shsum =3.534E+08)
                                           + heating (elhsum =1.549E+03)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  19.39 eV (from qtoteV)
                                  or :   7.03 eV (from (entot))
                                  or :******* eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  50.0, longitude 260.0.

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

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

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

 MAIN : The total energy input from the precipitation source is : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]
                                  and from photoelectron source : 1.5245E+09 [eV/cm2/s]
                                                             or : 2.4425E-03 [erg/cm2/s]
 That variable "errorgaupin" is:          131

 MAIN : Total energy deposition in [CO2] is 2.156E+08 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 6.173E+07 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 4.517E+07 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 2.839E+08 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 2.136E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 2.001E-01 [eV.cm-2.s-1] ("shsum").
   9071702.0               2          21
   9086930.0               2          23

 Total Heating :  2.660E+03 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  2.4245248E-05
 entot depart   2660.0659       2660.0659    
 shsum :   68257976.      2.15561792E+08  2.15559136E+08  2.15559136E+08
 shsum :   69176144.      2.77288192E+08   61726412.      2.77285536E+08
 shsum :   69766488.      3.22460352E+08   45172144.      3.22457664E+08
 shsum :   78904624.      6.06388992E+08  2.83928672E+08  6.06386304E+08
 shsum :   78904624.      6.06388992E+08   2.1360979      6.06386304E+08
 shsum :   78904624.      6.06388992E+08  0.20007372      6.06386304E+08
 fin  6.06388992E+08   78904624.       19.320620    
   7.6850882    
 -8.38775008E+15   19.320620    
 ezero   0.0000000    
  6.06388992E+08
  4.34134607E+16

Total energy input of :1.524E+09 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 6.064E+08 is absorbed (entot) 
                         through inelastic collisions (shsum =6.064E+08)
                                           + heating (elhsum =2.660E+03)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  19.32 eV (from qtoteV)
                                  or :   7.69 eV (from (entot))
                                  or :******* eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  55.0, longitude 260.0.

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

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

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

 MAIN : The total energy input from the precipitation source is : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]
                                  and from photoelectron source : 2.3463E+09 [eV/cm2/s]
                                                             or : 3.7592E-03 [erg/cm2/s]
 That variable "errorgaupin" is:           98

 MAIN : Total energy deposition in [CO2] is 3.894E+08 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 1.063E+08 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 7.770E+07 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 4.632E+08 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 3.202E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 2.919E-01 [eV.cm-2.s-1] ("shsum").
   15097810.               2          21
   15129845.               2          23

 Total Heating :  4.527E+03 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  4.1631571E-05
 entot depart   4527.2412       4527.2412    
 shsum :  1.05000184E+08  3.89432928E+08  3.89428416E+08  3.89428416E+08
 shsum :  1.06576776E+08  4.95764640E+08  1.06331712E+08  4.95760128E+08
 shsum :  1.07586672E+08  5.73460416E+08   77695800.      5.73455936E+08
 shsum :  1.22343128E+08  1.03662202E+09  4.63161600E+08  1.03661754E+09
 shsum :  1.22343128E+08  1.03662202E+09   3.2015886      1.03661754E+09
 shsum :  1.22343128E+08  1.03662202E+09  0.29186940      1.03661754E+09
 fin  1.03662202E+09  1.22343128E+08   19.177771    
   8.4730711    
 -5.40964016E+15   19.177771    
 ezero   0.0000000    
  1.03662202E+09
  2.82078677E+16

Total energy input of :2.346E+09 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 1.037E+09 is absorbed (entot) 
                         through inelastic collisions (shsum =1.037E+09)
                                           + heating (elhsum =4.527E+03)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  19.18 eV (from qtoteV)
                                  or :   8.47 eV (from (entot))
                                  or :******* eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  60.0, longitude 260.0.

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

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

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

 MAIN : The total energy input from the precipitation source is : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]
                                  and from photoelectron source : 3.5023E+09 [eV/cm2/s]
                                                             or : 5.6114E-03 [erg/cm2/s]
 That variable "errorgaupin" is:           92

 MAIN : Total energy deposition in [CO2] is 6.910E+08 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 1.782E+08 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 1.304E+08 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 7.269E+08 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 4.557E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 4.023E-01 [eV.cm-2.s-1] ("shsum").
   24314270.               2          21
   24386130.               2          23

 Total Heating :  7.487E+03 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  6.8780180E-05
 entot depart   7486.9712       7486.9712    
 shsum :  1.57279376E+08  6.91053696E+08  6.91046208E+08  6.91046208E+08
 shsum :  1.59884096E+08  8.69234816E+08  1.78181152E+08  8.69227392E+08
 shsum :  1.61546512E+08  9.99668096E+08  1.30433248E+08  9.99660672E+08
 shsum :  1.84358784E+08  1.72654323E+09  7.26875136E+08  1.72653581E+09
 shsum :  1.84358784E+08  1.72654323E+09   4.5572228      1.72653581E+09
 shsum :  1.84358784E+08  1.72654323E+09  0.40229607      1.72653581E+09
 fin  1.72654323E+09  1.84358784E+08   18.997135    
   9.3651257    
 -3.58991459E+15   18.997135    
 ezero   0.0000000    
  1.72654323E+09
  1.88971367E+16

Total energy input of :3.502E+09 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 1.727E+09 is absorbed (entot) 
                         through inelastic collisions (shsum =1.727E+09)
                                           + heating (elhsum =7.487E+03)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  19.00 eV (from qtoteV)
                                  or :   9.37 eV (from (entot))
                                  or :******* eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  45.0, longitude 265.0.

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

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

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

 MAIN : The total energy input from the precipitation source is : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]
                                  and from photoelectron source : 5.4263E+09 [eV/cm2/s]
                                                             or : 8.6941E-03 [erg/cm2/s]
 That variable "errorgaupin" is:          120

 MAIN : Total energy deposition in [CO2] is 1.404E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 3.205E+08 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 2.340E+08 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 1.169E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 5.140E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 4.375E-01 [eV.cm-2.s-1] ("shsum").
   39355996.               2          21
   39404924.               2          23

 Total Heating :  1.070E+04 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  1.2109567E-04
 entot depart   10697.576       10697.576    
 shsum :  2.41541536E+08  1.40367104E+09  1.40366029E+09  1.40366029E+09
 shsum :  2.46127456E+08  1.72413990E+09  3.20468864E+08  1.72412915E+09
 shsum :  2.49004320E+08  1.95811610E+09  2.33976256E+08  1.95810534E+09
 shsum :  2.84862784E+08  3.12664781E+09  1.16853158E+09  3.12663706E+09
 shsum :  2.84862784E+08  3.12664781E+09   5.1401663      3.12663706E+09
 shsum :  2.84862784E+08  3.12664781E+09  0.43750507      3.12663706E+09
 fin  3.12664781E+09  2.84862784E+08   19.048975    
   10.975979    
 -2.32333706E+15   19.048975    
 ezero   0.0000000    
  3.12664781E+09
  1.21966516E+16

Total energy input of :5.426E+09 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 3.127E+09 is absorbed (entot) 
                         through inelastic collisions (shsum =3.127E+09)
                                           + heating (elhsum =1.070E+04)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  19.05 eV (from qtoteV)
                                  or :  10.98 eV (from (entot))
                                  or :******* eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  50.0, longitude 265.0.

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

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

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

 MAIN : The total energy input from the precipitation source is : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]
                                  and from photoelectron source : 6.4824E+09 [eV/cm2/s]
                                                             or : 1.0386E-02 [erg/cm2/s]
 That variable "errorgaupin" is:           94

 MAIN : Total energy deposition in [CO2] is 1.805E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 4.006E+08 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 2.934E+08 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 1.408E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 6.094E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 5.074E-01 [eV.cm-2.s-1] ("shsum").
   48288448.               2          21
   48371988.               2          23

 Total Heating :  1.378E+04 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  1.4855046E-04
 entot depart   13777.153       13777.153    
 shsum :  2.90525472E+08  1.80483840E+09  1.80482458E+09  1.80482458E+09
 shsum :  2.96151104E+08  2.20544410E+09  4.00605568E+08  2.20543027E+09
 shsum :  2.99670432E+08  2.49880986E+09  2.93365632E+08  2.49879603E+09
 shsum :  3.42357664E+08  3.90691533E+09  1.40810547E+09  3.90690150E+09
 shsum :  3.42357664E+08  3.90691533E+09   6.0943718      3.90690150E+09
 shsum :  3.42357664E+08  3.90691533E+09  0.50743032      3.90690150E+09
 fin  3.90691533E+09  3.42357664E+08   18.934568    
   11.411795    
 -1.93316035E+15   18.934568    
 ezero   0.0000000    
  3.90691533E+09
  1.02096881E+16

Total energy input of :6.482E+09 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 3.907E+09 is absorbed (entot) 
                         through inelastic collisions (shsum =3.907E+09)
                                           + heating (elhsum =1.378E+04)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  18.93 eV (from qtoteV)
                                  or :  11.41 eV (from (entot))
                                  or :******* eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  55.0, longitude 265.0.

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

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

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

 MAIN : The total energy input from the precipitation source is : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]
                                  and from photoelectron source : 7.6896E+09 [eV/cm2/s]
                                                             or : 1.2320E-02 [erg/cm2/s]
 That variable "errorgaupin" is:           87

 MAIN : Total energy deposition in [CO2] is 2.297E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 4.956E+08 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 3.641E+08 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 1.679E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 7.141E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 5.814E-01 [eV.cm-2.s-1] ("shsum").
   58643300.               2          21
   58779192.               2          23

 Total Heating :  1.754E+04 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  1.8003531E-04
 entot depart   17535.393       17535.393    
 shsum :  3.47198016E+08  2.29680435E+09  2.29678694E+09  2.29678694E+09
 shsum :  3.54016000E+08  2.79241754E+09  4.95613280E+08  2.79240013E+09
 shsum :  3.58267616E+08  3.15649203E+09  3.64074464E+08  3.15647462E+09
 shsum :  4.08505600E+08  4.83512525E+09  1.67863309E+09  4.83510784E+09
 shsum :  4.08505600E+08  4.83512525E+09   7.1412606      4.83510784E+09
 shsum :  4.08505600E+08  4.83512525E+09  0.58140272      4.83510784E+09
 fin  4.83512525E+09  4.08505600E+08   18.823652    
   11.836129    
 -1.62013025E+15   18.823652    
 ezero   0.0000000    
  4.83512525E+09
  8.60688522E+15

Total energy input of :7.690E+09 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 4.835E+09 is absorbed (entot) 
                         through inelastic collisions (shsum =4.835E+09)
                                           + heating (elhsum =1.754E+04)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  18.82 eV (from qtoteV)
                                  or :  11.84 eV (from (entot))
                                  or :******* eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  60.0, longitude 265.0.

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

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

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

 MAIN : The total energy input from the precipitation source is : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]
                                  and from photoelectron source : 9.0453E+09 [eV/cm2/s]
                                                             or : 1.4492E-02 [erg/cm2/s]
 That variable "errorgaupin" is:           90

 MAIN : Total energy deposition in [CO2] is 2.890E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 6.057E+08 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 4.461E+08 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 1.976E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 8.254E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 6.570E-01 [eV.cm-2.s-1] ("shsum").
   70297616.               2          21
   70518784.               2          23

 Total Heating :  2.197E+04 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  2.1536069E-04
 entot depart   21973.869       21973.869    
 shsum :  4.11369856E+08  2.88954624E+09  2.88952422E+09  2.88952422E+09
 shsum :  4.19525600E+08  3.49523328E+09  6.05687040E+08  3.49521126E+09
 shsum :  4.24591552E+08  3.94138291E+09  4.46149536E+08  3.94136090E+09
 shsum :  4.82965344E+08  5.91771392E+09  1.97633101E+09  5.91769190E+09
 shsum :  4.82965344E+08  5.91771392E+09   8.2538357      5.91769190E+09
 shsum :  4.82965344E+08  5.91771392E+09  0.65699315      5.91769190E+09
 fin  5.91771392E+09  4.82965344E+08   18.728582    
   12.252875    
 -1.37035146E+15   18.728582    
 ezero   0.0000000    
  5.91771392E+09
  7.31689984E+15

Total energy input of :9.045E+09 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 5.918E+09 is absorbed (entot) 
                         through inelastic collisions (shsum =5.918E+09)
                                           + heating (elhsum =2.197E+04)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  18.73 eV (from qtoteV)
                                  or :  12.25 eV (from (entot))
                                  or :******* eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  45.0, longitude 270.0.

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

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

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

 MAIN : The total energy input from the precipitation source is : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]
                                  and from photoelectron source : 1.8333E+10 [eV/cm2/s]
                                                             or : 2.9374E-02 [erg/cm2/s]
 That variable "errorgaupin" is:           98

 MAIN : Total energy deposition in [CO2] is 8.147E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 1.399E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 1.024E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 3.722E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 9.788E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 7.088E-01 [eV.cm-2.s-1] ("shsum").
  1.34958352E+08           2          21
  1.35138480E+08           2          23

 Total Heating :  3.923E+04 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  4.4864934E-04
 entot depart   39229.523       39229.523    
 shsum :  8.41847040E+08  8.14710886E+09  8.14706944E+09  8.14706944E+09
 shsum :  8.58837504E+08  9.54581811E+09  1.39870886E+09  9.54577818E+09
 shsum :  8.68940416E+08  1.05696338E+10  1.02381562E+09  1.05695939E+10
 shsum :  9.72021312E+08  1.42920878E+10  3.72245402E+09  1.42920479E+10
 shsum :  9.72021312E+08  1.42920878E+10   9.7884903      1.42920479E+10
 shsum :  9.72021312E+08  1.42920878E+10  0.70880628      1.42920479E+10
 fin  1.42920878E+10  9.72021312E+08   18.860958    
   14.703471    
 -6.80882508E+14   18.860958    
 ezero   0.0000000    
  1.42920878E+10
  3.61000967E+15

Total energy input of :1.833E+10 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 1.429E+10 is absorbed (entot) 
                         through inelastic collisions (shsum =1.429E+10)
                                           + heating (elhsum =3.923E+04)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  18.86 eV (from qtoteV)
                                  or :  14.70 eV (from (entot))
                                  or :******* eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  50.0, longitude 270.0.

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

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

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

 MAIN : The total energy input from the precipitation source is : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]
                                  and from photoelectron source : 1.8594E+10 [eV/cm2/s]
                                                             or : 2.9792E-02 [erg/cm2/s]
 That variable "errorgaupin" is:           91

 MAIN : Total energy deposition in [CO2] is 8.252E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 1.420E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 1.041E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 3.777E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 1.079E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 7.784E-01 [eV.cm-2.s-1] ("shsum").
  1.37843488E+08           2          21
  1.38098704E+08           2          23

 Total Heating :  4.280E+04 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  4.5434551E-04
 entot depart   42799.570       42799.570    
 shsum :  8.56397696E+08  8.25191117E+09  8.25186816E+09  8.25186816E+09
 shsum :  8.73603840E+08  9.67232717E+09  1.42041574E+09  9.67228416E+09
 shsum :  8.83842560E+08  1.07129631E+10  1.04063622E+09  1.07129201E+10
 shsum :  9.88282560E+08  1.44898785E+10  3.77691494E+09  1.44898355E+10
 shsum :  9.88282560E+08  1.44898785E+10   10.786488      1.44898355E+10
 shsum :  9.88282560E+08  1.44898785E+10  0.77839863      1.44898355E+10
 fin  1.44898785E+10  9.88282560E+08   18.814835    
   14.661675    
 -6.69679220E+14   18.814835    
 ezero   0.0000000    
  1.44898785E+10
  3.55931483E+15

Total energy input of :1.859E+10 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 1.449E+10 is absorbed (entot) 
                         through inelastic collisions (shsum =1.449E+10)
                                           + heating (elhsum =4.280E+04)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  18.81 eV (from qtoteV)
                                  or :  14.66 eV (from (entot))
                                  or :******* eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  55.0, longitude 270.0.

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

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

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

 MAIN : The total energy input from the precipitation source is : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]
                                  and from photoelectron source : 1.8825E+10 [eV/cm2/s]
                                                             or : 3.0162E-02 [erg/cm2/s]
 That variable "errorgaupin" is:          104

 MAIN : Total energy deposition in [CO2] is 8.341E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 1.440E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 1.056E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 3.827E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 1.145E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 8.243E-01 [eV.cm-2.s-1] ("shsum").
  1.40651472E+08           2          21
  1.41002896E+08           2          23

 Total Heating :  4.545E+04 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  4.5934448E-04
 entot depart   45447.902       45447.902    
 shsum :  8.69703488E+08  8.34144922E+09  8.34140365E+09  8.34140365E+09
 shsum :  8.87098944E+08  9.78150298E+09  1.44005402E+09  9.78145792E+09
 shsum :  8.97460992E+08  1.08377242E+10  1.05622150E+09  1.08376791E+10
 shsum :  1.00315142E+09  1.46650204E+10  3.82729626E+09  1.46649754E+10
 shsum :  1.00315142E+09  1.46650204E+10   11.453587      1.46649754E+10
 shsum :  1.00315142E+09  1.46650204E+10  0.82429123      1.46649754E+10
 fin  1.46650204E+10  1.00315142E+09   18.766151    
   14.618950    
 -6.59753148E+14   18.766151    
 ezero   0.0000000    
  1.46650204E+10
  3.51565488E+15

Total energy input of :1.883E+10 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 1.467E+10 is absorbed (entot) 
                         through inelastic collisions (shsum =1.466E+10)
                                           + heating (elhsum =4.545E+04)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  18.77 eV (from qtoteV)
                                  or :  14.62 eV (from (entot))
                                  or :******* eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  60.0, longitude 270.0.

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

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

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

 MAIN : The total energy input from the precipitation source is : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]
                                  and from photoelectron source : 1.9045E+10 [eV/cm2/s]
                                                             or : 3.0514E-02 [erg/cm2/s]
 That variable "errorgaupin" is:           90

 MAIN : Total energy deposition in [CO2] is 8.427E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 1.459E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 1.071E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 3.876E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 1.212E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 8.696E-01 [eV.cm-2.s-1] ("shsum").
  1.43499984E+08           2          21
  1.43971712E+08           2          23

 Total Heating :  4.808E+04 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  4.6416128E-04
 entot depart   48081.277       48081.277    
 shsum :  8.82546304E+08  8.42655437E+09  8.42650624E+09  8.42650624E+09
 shsum :  9.00124160E+08  9.88581581E+09  1.45926170E+09  9.88576768E+09
 shsum :  9.10604224E+08  1.09571328E+10  1.07131680E+09  1.09570847E+10
 shsum :  1.01750816E+09  1.48335309E+10  3.87639859E+09  1.48334838E+10
 shsum :  1.01750816E+09  1.48335309E+10   12.121027      1.48334838E+10
 shsum :  1.01750816E+09  1.48335309E+10  0.86959827      1.48334838E+10
 fin  1.48335309E+10  1.01750816E+09   18.717459    
   14.578292    
 -6.50444209E+14   18.717459    
 ezero   0.0000000    
  1.48335309E+10
  3.47506690E+15

Total energy input of :1.905E+10 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 1.483E+10 is absorbed (entot) 
                         through inelastic collisions (shsum =1.483E+10)
                                           + heating (elhsum =4.808E+04)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  18.72 eV (from qtoteV)
                                  or :  14.58 eV (from (entot))
                                  or :******* eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  45.0, longitude 275.0.

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

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

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

 MAIN : The total energy input from the precipitation source is : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]
                                  and from photoelectron source : 3.9246E+10 [eV/cm2/s]
                                                             or : 6.2880E-02 [erg/cm2/s]
 That variable "errorgaupin" is:          104

 MAIN : Total energy deposition in [CO2] is 2.214E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 3.152E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 2.260E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 6.777E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 1.371E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 8.895E-01 [eV.cm-2.s-1] ("shsum").
  2.47565248E+08           2          21
  2.47958176E+08           2          23

 Total Heating :  7.961E+04 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  8.8423869E-04
 entot depart   79609.117       79609.117    
 shsum :  1.85846413E+09  2.21392138E+10  2.21391340E+10  2.21391340E+10
 shsum :  1.89195046E+09  2.52908093E+10  3.15159654E+09  2.52907315E+10
 shsum :  1.91078554E+09  2.75508429E+10  2.26003379E+09  2.75507651E+10
 shsum :  2.08437670E+09  3.43282893E+10  6.77744640E+09  3.43282115E+10
 shsum :  2.08437670E+09  3.43282893E+10   13.710508      3.43282115E+10
 shsum :  2.08437670E+09  3.43282893E+10  0.88951755      3.43282115E+10
 fin  3.43282893E+10  2.08437670E+09   18.828787    
   16.469330    
 -3.17520490E+14   18.828787    
 ezero   0.0000000    
  3.43282893E+10
  1.68635663E+15

Total energy input of :3.925E+10 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 3.433E+10 is absorbed (entot) 
                         through inelastic collisions (shsum =3.433E+10)
                                           + heating (elhsum =7.961E+04)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  18.83 eV (from qtoteV)
                                  or :  16.47 eV (from (entot))
                                  or :******* eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  50.0, longitude 275.0.

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

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

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

 MAIN : The total energy input from the precipitation source is : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]
                                  and from photoelectron source : 3.7287E+10 [eV/cm2/s]
                                                             or : 5.9741E-02 [erg/cm2/s]
 That variable "errorgaupin" is:           94

 MAIN : Total energy deposition in [CO2] is 2.070E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 2.991E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 2.150E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 6.535E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 1.418E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 9.270E-01 [eV.cm-2.s-1] ("shsum").
  2.40409456E+08           2          21
  2.40926640E+08           2          23

 Total Heating :  8.000E+04 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  8.4681629E-04
 entot depart   80001.336       80001.336    
 shsum :  1.76355814E+09  2.06972948E+10  2.06972150E+10  2.06972150E+10
 shsum :  1.79562726E+09  2.36882555E+10  2.99096141E+09  2.36881756E+10
 shsum :  1.81375309E+09  2.58383114E+10  2.15005619E+09  2.58382316E+10
 shsum :  1.98203187E+09  3.23734364E+10  6.53512448E+09  3.23733565E+10
 shsum :  1.98203187E+09  3.23734364E+10   14.183493      3.23733565E+10
 shsum :  1.98203187E+09  3.23734364E+10  0.92700535      3.23733565E+10
 fin  3.23734364E+10  1.98203187E+09   18.812336    
   16.333460    
 -3.33916058E+14   18.812336    
 ezero   0.0000000    
  3.23734364E+10
  1.77498462E+15

Total energy input of :3.729E+10 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 3.237E+10 is absorbed (entot) 
                         through inelastic collisions (shsum =3.237E+10)
                                           + heating (elhsum =8.000E+04)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  18.81 eV (from qtoteV)
                                  or :  16.33 eV (from (entot))
                                  or :******* eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  55.0, longitude 275.0.

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

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

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

 MAIN : The total energy input from the precipitation source is : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]
                                  and from photoelectron source : 3.5180E+10 [eV/cm2/s]
                                                             or : 5.6365E-02 [erg/cm2/s]
 That variable "errorgaupin" is:           91

 MAIN : Total energy deposition in [CO2] is 1.917E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 2.818E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 2.032E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 6.270E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 1.461E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 9.623E-01 [eV.cm-2.s-1] ("shsum").
  2.32290576E+08           2          21
  2.32935856E+08           2          23

 Total Heating :  7.967E+04 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  8.0602802E-04
 entot depart   79674.516       79674.516    
 shsum :  1.66196736E+09  1.91697224E+10  1.91696425E+10  1.91696425E+10
 shsum :  1.69249178E+09  2.19882004E+10  2.81847731E+09  2.19881206E+10
 shsum :  1.70984166E+09  2.40200212E+10  2.03181978E+09  2.40199393E+10
 shsum :  1.87224922E+09  3.02896947E+10  6.26967245E+09  3.02896128E+10
 shsum :  1.87224922E+09  3.02896947E+10   14.607959      3.02896128E+10
 shsum :  1.87224922E+09  3.02896947E+10  0.96231282      3.02896128E+10
 fin  3.02896947E+10  1.87224922E+09   18.789988    
   16.178238    
 -3.53495840E+14   18.789988    
 ezero   0.0000000    
  3.02896947E+10
  1.88129889E+15

Total energy input of :3.518E+10 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 3.029E+10 is absorbed (entot) 
                         through inelastic collisions (shsum =3.029E+10)
                                           + heating (elhsum =7.967E+04)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  18.79 eV (from qtoteV)
                                  or :  16.18 eV (from (entot))
                                  or :******* eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  60.0, longitude 275.0.

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

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

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

 MAIN : The total energy input from the precipitation source is : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]
                                  and from photoelectron source : 3.2995E+10 [eV/cm2/s]
                                                             or : 5.2865E-02 [erg/cm2/s]
 That variable "errorgaupin" is:           96

 MAIN : Total energy deposition in [CO2] is 1.760E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 2.639E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 1.909E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 5.989E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 1.499E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 9.956E-01 [eV.cm-2.s-1] ("shsum").
  2.23526640E+08           2          21
  2.24320032E+08           2          23

 Total Heating :  7.883E+04 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  7.6300086E-04
 entot depart   78834.336       78834.336    
 shsum :  1.55720576E+09  1.76005816E+10  1.76005038E+10  1.76005038E+10
 shsum :  1.58610074E+09  2.02396242E+10  2.63904282E+09  2.02395464E+10
 shsum :  1.60262976E+09  2.21482783E+10  1.90865459E+09  2.21482004E+10
 shsum :  1.75878605E+09  2.81374781E+10  5.98920038E+09  2.81374003E+10
 shsum :  1.75878605E+09  2.81374781E+10   14.992487      2.81374003E+10
 shsum :  1.75878605E+09  2.81374781E+10  0.99555445      2.81374003E+10
 fin  2.81374781E+10  1.75878605E+09   18.760115    
   15.998239    
 -3.76300607E+14   18.760115    
 ezero   0.0000000    
  2.81374781E+10
  2.00585455E+15

Total energy input of :3.300E+10 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 2.814E+10 is absorbed (entot) 
                         through inelastic collisions (shsum =2.814E+10)
                                           + heating (elhsum =7.883E+04)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  18.76 eV (from qtoteV)
                                  or :  16.00 eV (from (entot))
                                  or :******* eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  45.0, longitude 280.0.

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

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

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

 MAIN : The total energy input from the precipitation source is : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]
                                  and from photoelectron source : 6.3968E+10 [eV/cm2/s]
                                                             or : 1.0249E-01 [erg/cm2/s]
 That variable "errorgaupin" is:          115

 MAIN : Total energy deposition in [CO2] is 4.057E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 5.105E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 3.563E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 9.522E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 1.671E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 1.014E+00 [eV.cm-2.s-1] ("shsum").
  3.40097280E+08           2          21
  3.40748736E+08           2          23

 Total Heating :  1.187E+05 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  1.3158706E-03
 entot depart   118732.29       118732.29    
 shsum :  3.09740390E+09  4.05657559E+10  4.05656371E+10  4.05656371E+10
 shsum :  3.14723610E+09  4.56709120E+10  5.10515763E+09  4.56707932E+10
 shsum :  3.17397120E+09  4.92339855E+10  3.56307430E+09  4.92338668E+10
 shsum :  3.40596096E+09  5.87561452E+10  9.52215962E+09  5.87560264E+10
 shsum :  3.40596096E+09  5.87561452E+10   16.713112      5.87560264E+10
 shsum :  3.40596096E+09  5.87561452E+10   1.0144365      5.87560264E+10
 fin  5.87561452E+10  3.40596096E+09   18.781048    
   17.250975    
 -1.94315880E+14   18.781048    
 ezero   0.0000000    
  5.87561452E+10
  1.03463809E+15

Total energy input of :6.397E+10 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 5.876E+10 is absorbed (entot) 
                         through inelastic collisions (shsum =5.876E+10)
                                           + heating (elhsum =1.187E+05)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  18.78 eV (from qtoteV)
                                  or :  17.25 eV (from (entot))
                                  or :******* eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  50.0, longitude 280.0.

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

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

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

 MAIN : The total energy input from the precipitation source is : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]
                                  and from photoelectron source : 5.9382E+10 [eV/cm2/s]
                                                             or : 9.5142E-02 [erg/cm2/s]
 That variable "errorgaupin" is:          100

 MAIN : Total energy deposition in [CO2] is 3.701E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 4.753E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 3.333E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 9.066E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 1.710E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 1.049E+00 [eV.cm-2.s-1] ("shsum").
  3.27331232E+08           2          21
  3.28135616E+08           2          23

 Total Heating :  1.173E+05 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  1.2404594E-03
 entot depart   117285.73       117285.73    
 shsum :  2.86689459E+09  3.70144092E+10  3.70142904E+10  3.70142904E+10
 shsum :  2.91387110E+09  4.17670799E+10  4.75267072E+09  4.17669612E+10
 shsum :  2.93927168E+09  4.50999706E+10  3.33289216E+09  4.50998518E+10
 shsum :  3.16181274E+09  5.41662659E+10  9.06629632E+09  5.41661471E+10
 shsum :  3.16181274E+09  5.41662659E+10   17.103712      5.41661471E+10
 shsum :  3.16181274E+09  5.41662659E+10   1.0490588      5.41661471E+10
 fin  5.41662659E+10  3.16181274E+09   18.780981    
   17.131395    
 -2.09320516E+14   18.780981    
 ezero   0.0000000    
  5.41662659E+10
  1.11453455E+15

Total energy input of :5.938E+10 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 5.417E+10 is absorbed (entot) 
                         through inelastic collisions (shsum =5.417E+10)
                                           + heating (elhsum =1.173E+05)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  18.78 eV (from qtoteV)
                                  or :  17.13 eV (from (entot))
                                  or :******* eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  55.0, longitude 280.0.

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

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

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

 MAIN : The total energy input from the precipitation source is : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]
                                  and from photoelectron source : 5.4493E+10 [eV/cm2/s]
                                                             or : 8.7309E-02 [erg/cm2/s]
 That variable "errorgaupin" is:          109

 MAIN : Total energy deposition in [CO2] is 3.328E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 4.373E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 3.084E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 8.562E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 1.743E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 1.081E+00 [eV.cm-2.s-1] ("shsum").
  3.12602816E+08           2          21
  3.13567712E+08           2          23

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

Total N I (1200 A to 1744 A) (kR.A):  1.1580653E-03
 entot depart   114605.85       114605.85    
 shsum :  2.62241126E+09  3.32761641E+10  3.32760494E+10  3.32760494E+10
 shsum :  2.66626739E+09  3.76494694E+10  4.37330432E+09  3.76493548E+10
 shsum :  2.69019802E+09  4.07333683E+10  3.08390093E+09  4.07332536E+10
 shsum :  2.90219520E+09  4.92958188E+10  8.56245094E+09  4.92957041E+10
 shsum :  2.90219520E+09  4.92958188E+10   17.425947      4.92957041E+10
 shsum :  2.90219520E+09  4.92958188E+10   1.0812317      4.92957041E+10
 fin  4.92958188E+10  2.90219520E+09   18.776442    
   16.985701    
 -2.28045399E+14   18.776442    
 ezero   0.0000000    
  4.92958188E+10
  1.21452938E+15

Total energy input of :5.449E+10 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 4.930E+10 is absorbed (entot) 
                         through inelastic collisions (shsum =4.930E+10)
                                           + heating (elhsum =1.146E+05)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  18.78 eV (from qtoteV)
                                  or :  16.99 eV (from (entot))
                                  or :******* eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  60.0, longitude 280.0.

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

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

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

 MAIN : The total energy input from the precipitation source is : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]
                                  and from photoelectron source : 4.9419E+10 [eV/cm2/s]
                                                             or : 7.9179E-02 [erg/cm2/s]
 That variable "errorgaupin" is:           90

 MAIN : Total energy deposition in [CO2] is 2.944E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 3.975E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 2.820E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 8.016E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 1.769E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 1.111E+00 [eV.cm-2.s-1] ("shsum").
  2.96160576E+08           2          21
  2.97291008E+08           2          23

 Total Heating :  1.110E+05 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  1.0701205E-03
 entot depart   110952.63       110952.63    
 shsum :  2.37030016E+09  2.94388736E+10  2.94387630E+10  2.94387630E+10
 shsum :  2.41082573E+09  3.34135808E+10  3.97470669E+09  3.34134702E+10
 shsum :  2.43316787E+09  3.62335109E+10  2.81992909E+09  3.62334003E+10
 shsum :  2.63361766E+09  4.42499031E+10  8.01639219E+09  4.42497925E+10
 shsum :  2.63361766E+09  4.42499031E+10   17.692068      4.42497925E+10
 shsum :  2.63361766E+09  4.42499031E+10   1.1112580      4.42497925E+10
 fin  4.42499031E+10  2.63361766E+09   18.764540    
   16.801947    
 -2.51301573E+14   18.764540    
 ezero   0.0000000    
  4.42499031E+10
  1.33923670E+15

Total energy input of :4.942E+10 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 4.425E+10 is absorbed (entot) 
                         through inelastic collisions (shsum =4.425E+10)
                                           + heating (elhsum =1.110E+05)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  18.76 eV (from qtoteV)
                                  or :  16.80 eV (from (entot))
                                  or :******* eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  45.0, longitude 285.0.

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

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

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

 MAIN : The total energy input from the precipitation source is : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]
                                  and from photoelectron source : 8.9948E+10 [eV/cm2/s]
                                                             or : 1.4411E-01 [erg/cm2/s]
 That variable "errorgaupin" is:           91

 MAIN : Total energy deposition in [CO2] is 6.107E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 7.026E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 4.788E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 1.184E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 1.868E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 1.084E+00 [eV.cm-2.s-1] ("shsum").
  4.10521344E+08           2          21
  4.11456320E+08           2          23

 Total Heating :  1.508E+05 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  1.7140443E-03
 entot depart   150841.03       150841.03    
 shsum :  4.42381210E+09  6.10662031E+10  6.10660516E+10  6.10660516E+10
 shsum :  4.48872346E+09  6.80917524E+10  7.02555034E+09  6.80916009E+10
 shsum :  4.52228813E+09  7.28792924E+10  4.78753690E+09  7.28791368E+10
 shsum :  4.80122522E+09  8.47166013E+10  1.18373048E+10  8.47164375E+10
 shsum :  4.80122522E+09  8.47166013E+10   18.677197      8.47164375E+10
 shsum :  4.80122522E+09  8.47166013E+10   1.0839416      8.47164375E+10
 fin  8.47166013E+10  4.80122522E+09   18.734402    
   17.644789    
 -1.37846539E+14   18.734402    
 ezero   0.0000000    
  8.47166013E+10
  7.35793664E+14

Total energy input of :8.995E+10 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 8.472E+10 is absorbed (entot) 
                         through inelastic collisions (shsum =8.472E+10)
                                           + heating (elhsum =1.508E+05)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  18.73 eV (from qtoteV)
                                  or :  17.64 eV (from (entot))
                                  or :******* eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  50.0, longitude 285.0.

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

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

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

 MAIN : The total energy input from the precipitation source is : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]
                                  and from photoelectron source : 8.2704E+10 [eV/cm2/s]
                                                             or : 1.3251E-01 [erg/cm2/s]
 That variable "errorgaupin" is:           99

 MAIN : Total energy deposition in [CO2] is 5.524E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 6.503E+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 1.124E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 1.901E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 1.116E+00 [eV.cm-2.s-1] ("shsum").
  3.95306016E+08           2          21
  3.96422304E+08           2          23

 Total Heating :  1.482E+05 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  1.6073291E-03
 entot depart   148220.09       148220.09    
 shsum :  4.05308877E+09  5.52416625E+10  5.52415150E+10  5.52415150E+10
 shsum :  4.11395866E+09  6.17444065E+10  6.50274253E+09  6.17442591E+10
 shsum :  4.14573440E+09  6.62039183E+10  4.45950976E+09  6.62037709E+10
 shsum :  4.41274880E+09  7.74448333E+10  1.12409170E+10  7.74446858E+10
 shsum :  4.41274880E+09  7.74448333E+10   19.012632      7.74446858E+10
 shsum :  4.41274880E+09  7.74448333E+10   1.1164050      7.74446858E+10
 fin  7.74448333E+10  4.41274880E+09   18.742004    
   17.550247    
 -1.49981869E+14   18.742004    
 ezero   0.0000000    
  7.74448333E+10
  8.00244548E+14

Total energy input of :8.270E+10 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 7.744E+10 is absorbed (entot) 
                         through inelastic collisions (shsum =7.744E+10)
                                           + heating (elhsum =1.482E+05)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  18.74 eV (from qtoteV)
                                  or :  17.55 eV (from (entot))
                                  or :******* eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  55.0, longitude 285.0.

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

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

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

 MAIN : The total energy input from the precipitation source is : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]
                                  and from photoelectron source : 7.4978E+10 [eV/cm2/s]
                                                             or : 1.2013E-01 [erg/cm2/s]
 That variable "errorgaupin" is:           90

 MAIN : Total energy deposition in [CO2] is 4.910E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 5.936E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 4.100E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 1.057E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 1.929E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 1.148E+00 [eV.cm-2.s-1] ("shsum").
  3.77456928E+08           2          21
  3.78763744E+08           2          23

 Total Heating :  1.442E+05 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  1.4899592E-03
 entot depart   144211.98       144211.98    
 shsum :  3.65977805E+09  4.91030159E+10  4.91028726E+10  4.91028726E+10
 shsum :  3.71620301E+09  5.50385418E+10  5.93552691E+09  5.50383985E+10
 shsum :  3.74598682E+09  5.91390024E+10  4.10046106E+09  5.91388590E+10
 shsum :  3.99947110E+09  6.97099305E+10  1.05709302E+10  6.97097912E+10
 shsum :  3.99947110E+09  6.97099305E+10   19.294762      6.97097912E+10
 shsum :  3.99947110E+09  6.97099305E+10   1.1477770      6.97097912E+10
 fin  6.97099305E+10  3.99947110E+09   18.747055    
   17.429787    
 -1.65479956E+14   18.747055    
 ezero   0.0000000    
  6.97099305E+10
  8.82698390E+14

Total energy input of :7.498E+10 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 6.971E+10 is absorbed (entot) 
                         through inelastic collisions (shsum =6.971E+10)
                                           + heating (elhsum =1.442E+05)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  18.75 eV (from qtoteV)
                                  or :  17.43 eV (from (entot))
                                  or :******* eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  60.0, longitude 285.0.

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

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

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

 MAIN : The total energy input from the precipitation source is : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]
                                  and from photoelectron source : 6.6927E+10 [eV/cm2/s]
                                                             or : 1.0723E-01 [erg/cm2/s]
 That variable "errorgaupin" is:           95

 MAIN : Total energy deposition in [CO2] is 4.277E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 5.333E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 3.714E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 9.832E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 1.952E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 1.178E+00 [eV.cm-2.s-1] ("shsum").
  3.57036032E+08           2          21
  3.58528928E+08           2          23

 Total Heating :  1.390E+05 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  1.3635429E-03
 entot depart   138969.77       138969.77    
 shsum :  3.25230490E+09  4.27712184E+10  4.27710792E+10  4.27710792E+10
 shsum :  3.30394240E+09  4.81042227E+10  5.33300531E+09  4.81040835E+10
 shsum :  3.33154662E+09  5.18185861E+10  3.71436237E+09  5.18184468E+10
 shsum :  3.56995738E+09  6.16507023E+10  9.83211520E+09  6.16505631E+10
 shsum :  3.56995738E+09  6.16507023E+10   19.520950      6.16505631E+10
 shsum :  3.56995738E+09  6.16507023E+10   1.1775253      6.16505631E+10
 fin  6.16507023E+10  3.56995738E+09   18.747183    
   17.269310    
 -1.85389411E+14   18.747183    
 ezero   0.0000000    
  6.16507023E+10
  9.88892128E+14

Total energy input of :6.693E+10 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 6.165E+10 is absorbed (entot) 
                         through inelastic collisions (shsum =6.165E+10)
                                           + heating (elhsum =1.390E+05)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  18.75 eV (from qtoteV)
                                  or :  17.27 eV (from (entot))
                                  or :******* eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  45.0, longitude 290.0.

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

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

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

 MAIN : The total energy input from the precipitation source is : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]
                                  and from photoelectron source : 1.1612E+11 [eV/cm2/s]
                                                             or : 1.8605E-01 [erg/cm2/s]
 That variable "errorgaupin" is:          101

 MAIN : Total energy deposition in [CO2] is 8.244E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 8.849E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 5.910E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 1.379E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 2.075E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 1.168E+00 [eV.cm-2.s-1] ("shsum").
  4.64669952E+08           2          21
  4.65956608E+08           2          23

 Total Heating :  1.810E+05 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  2.0791430E-03
 entot depart   181004.72       181004.72    
 shsum :  5.77573069E+09  8.24381768E+10  8.24379965E+10  8.24379965E+10
 shsum :  5.85446810E+09  9.12875192E+10  8.84934246E+09  9.12873390E+10
 shsum :  5.89400832E+09  9.71973018E+10  5.90978048E+09  9.71971215E+10
 shsum :  6.21145395E+09  1.10991327E+11  1.37940275E+10  1.10991147E+11
 shsum :  6.21145395E+09  1.10991327E+11   20.745003      1.10991147E+11
 shsum :  6.21145395E+09  1.10991327E+11   1.1678147      1.10991147E+11
 fin  1.10991327E+11  6.21145395E+09   18.694901    
   17.868816    
 -1.06550304E+14   18.694901    
 ezero   0.0000000    
  1.10991327E+11
  5.69943167E+14

Total energy input of :1.161E+11 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 1.110E+11 is absorbed (entot) 
                         through inelastic collisions (shsum =1.110E+11)
                                           + heating (elhsum =1.810E+05)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  18.69 eV (from qtoteV)
                                  or :  17.87 eV (from (entot))
                                  or :******* eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  50.0, longitude 290.0.

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

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

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

 MAIN : The total energy input from the precipitation source is : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]
                                  and from photoelectron source : 1.0628E+11 [eV/cm2/s]
                                                             or : 1.7028E-01 [erg/cm2/s]
 That variable "errorgaupin" is:           99

 MAIN : Total energy deposition in [CO2] is 7.432E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 8.175E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 5.500E+09 [eV.cm-2.s-1] ("shsum").

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

 MAIN : Total energy deposition in [O2]  is 2.104E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 1.199E+00 [eV.cm-2.s-1] ("shsum").
  4.48516000E+08           2          21
  4.49985152E+08           2          23

 Total Heating :  1.774E+05 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  1.9449960E-03
 entot depart   177396.27       177396.27    
 shsum :  5.26658765E+09  7.43245087E+10  7.43243284E+10  7.43243284E+10
 shsum :  5.34024499E+09  8.24994693E+10  8.17496474E+09  8.24992891E+10
 shsum :  5.37762406E+09  8.79993897E+10  5.49991782E+09  8.79992095E+10
 shsum :  5.68146074E+09  1.01096808E+11  1.30974157E+10  1.01096628E+11
 shsum :  5.68146074E+09  1.01096808E+11   21.043823      1.01096628E+11
 shsum :  5.68146074E+09  1.01096808E+11   1.1988935      1.01096628E+11
 fin  1.01096808E+11  5.68146074E+09   18.705976    
   17.794157    
 -1.16489814E+14   18.705976    
 ezero   0.0000000    
  1.01096808E+11
  6.22741133E+14

Total energy input of :1.063E+11 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 1.011E+11 is absorbed (entot) 
                         through inelastic collisions (shsum =1.011E+11)
                                           + heating (elhsum =1.774E+05)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  18.71 eV (from qtoteV)
                                  or :  17.79 eV (from (entot))
                                  or :******* eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  55.0, longitude 290.0.

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

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

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

 MAIN : The total energy input from the precipitation source is : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]
                                  and from photoelectron source : 9.5770E+10 [eV/cm2/s]
                                                             or : 1.5344E-01 [erg/cm2/s]
 That variable "errorgaupin" is:           84

 MAIN : Total energy deposition in [CO2] is 6.575E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 7.440E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 5.049E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 1.231E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 2.132E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 1.230E+00 [eV.cm-2.s-1] ("shsum").
  4.29512416E+08           2          21
  4.31183040E+08           2          23

 Total Heating :  1.725E+05 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  1.7973229E-03
 entot depart   172531.30       172531.30    
 shsum :  4.72565709E+09  6.57491395E+10  6.57489674E+10  6.57489674E+10
 shsum :  4.79372186E+09  7.31892941E+10  7.44015309E+09  7.31891220E+10
 shsum :  4.82869606E+09  7.82385807E+10  5.04928768E+09  7.82384087E+10
 shsum :  5.11700173E+09  9.05479782E+10  1.23093975E+10  9.05478062E+10
 shsum :  5.11700173E+09  9.05479782E+10   21.317608      9.05478062E+10
 shsum :  5.11700173E+09  9.05479782E+10   1.2304664      9.05478062E+10
 fin  9.05479782E+10  5.11700173E+09   18.716034    
   17.695515    
 -1.29339861E+14   18.716034    
 ezero   0.0000000    
  9.05479782E+10
  6.91064466E+14

Total energy input of :9.577E+10 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 9.055E+10 is absorbed (entot) 
                         through inelastic collisions (shsum =9.055E+10)
                                           + heating (elhsum =1.725E+05)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  18.72 eV (from qtoteV)
                                  or :  17.70 eV (from (entot))
                                  or :******* eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  60.0, longitude 290.0.

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

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

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

 MAIN : The total energy input from the precipitation source is : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]
                                  and from photoelectron source : 8.4780E+10 [eV/cm2/s]
                                                             or : 1.3583E-01 [erg/cm2/s]
 That variable "errorgaupin" is:           84

 MAIN : Total energy deposition in [CO2] is 5.686E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 6.654E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 4.559E+09 [eV.cm-2.s-1] ("shsum").

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

 MAIN : Total energy deposition in [O2]  is 2.153E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 1.260E+00 [eV.cm-2.s-1] ("shsum").
  4.07240864E+08           2          21
  4.09145344E+08           2          23

 Total Heating :  1.662E+05 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  1.6376806E-03
 entot depart   166178.30       166178.30    
 shsum :  4.16286157E+09  5.68636170E+10  5.68634491E+10  5.68634491E+10
 shsum :  4.22488090E+09  6.35180728E+10  6.65445786E+09  6.35179090E+10
 shsum :  4.25719552E+09  6.80766751E+10  4.55860122E+09  6.80765112E+10
 shsum :  4.52796262E+09  7.95049656E+10  1.14282926E+10  7.95048018E+10
 shsum :  4.52796262E+09  7.95049656E+10   21.530886      7.95048018E+10
 shsum :  4.52796262E+09  7.95049656E+10   1.2603011      7.95048018E+10
 fin  7.95049656E+10  4.52796262E+09   18.723570    
   17.558662    
 -1.46165572E+14   18.723570    
 ezero   0.0000000    
  7.95049656E+10
  7.80650236E+14

Total energy input of :8.478E+10 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 7.950E+10 is absorbed (entot) 
                         through inelastic collisions (shsum =7.950E+10)
                                           + heating (elhsum =1.662E+05)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  18.72 eV (from qtoteV)
                                  or :  17.56 eV (from (entot))
                                  or :******* eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  45.0, longitude 295.0.

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

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

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

 MAIN : The total energy input from the precipitation source is : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]
                                  and from photoelectron source : 1.4191E+11 [eV/cm2/s]
                                                             or : 2.2737E-01 [erg/cm2/s]
 That variable "errorgaupin" is:           70

 MAIN : Total energy deposition in [CO2] is 1.040E+11 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 1.056E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 6.931E+09 [eV.cm-2.s-1] ("shsum").

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

 MAIN : Total energy deposition in [O2]  is 2.262E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 1.245E+00 [eV.cm-2.s-1] ("shsum").
  5.07260160E+08           2          21
  5.08958592E+08           2          23

 Total Heating :  2.081E+05 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  2.4154468E-03
 entot depart   208078.84       208078.84    
 shsum :  7.11810662E+09  1.03973167E+11  1.03972962E+11  1.03972962E+11
 shsum :  7.20958003E+09  1.14535686E+11  1.05625201E+10  1.14535481E+11
 shsum :  7.25440870E+09  1.21466356E+11  6.93066854E+09  1.21466151E+11
 shsum :  7.60393114E+09  1.36925037E+11  1.54586767E+10  1.36924824E+11
 shsum :  7.60393114E+09  1.36925037E+11   22.622263      1.36924824E+11
 shsum :  7.60393114E+09  1.36925037E+11   1.2450504      1.36924824E+11
 fin  1.36925037E+11  7.60393114E+09   18.662531    
   18.007137    
 -8.70381750E+13   18.662531    
 ezero   0.0000000    
  1.36925037E+11
  4.66379224E+14

Total energy input of :1.419E+11 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 1.369E+11 is absorbed (entot) 
                         through inelastic collisions (shsum =1.369E+11)
                                           + heating (elhsum =2.081E+05)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  18.66 eV (from qtoteV)
                                  or :  18.01 eV (from (entot))
                                  or :******* eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  50.0, longitude 295.0.

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

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

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

 MAIN : The total energy input from the precipitation source is : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]
                                  and from photoelectron source : 1.2956E+11 [eV/cm2/s]
                                                             or : 2.0757E-01 [erg/cm2/s]
 That variable "errorgaupin" is:          104

 MAIN : Total energy deposition in [CO2] is 9.361E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 9.751E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 6.451E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 1.469E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 2.290E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 1.275E+00 [eV.cm-2.s-1] ("shsum").
  4.90968768E+08           2          21
  4.92843808E+08           2          23

 Total Heating :  2.037E+05 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  2.2563050E-03
 entot depart   203708.39       203708.39    
 shsum :  6.47482982E+09  9.36146125E+10  9.36144077E+10  9.36144077E+10
 shsum :  6.56027648E+09  1.03365362E+11  9.75075021E+09  1.03365157E+11
 shsum :  6.60262246E+09  1.09815898E+11  6.45053491E+09  1.09815693E+11
 shsum :  6.93731021E+09  1.24503056E+11  1.46871593E+10  1.24502852E+11
 shsum :  6.93731021E+09  1.24503056E+11   22.895500      1.24502852E+11
 shsum :  6.93731021E+09  1.24503056E+11   1.2751045      1.24502852E+11
 fin  1.24503056E+11  6.93731021E+09   18.675161    
   17.946878    
 -9.54018604E+13   18.675161    
 ezero   0.0000000    
  1.24503056E+11
  5.10848913E+14

Total energy input of :1.296E+11 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 1.245E+11 is absorbed (entot) 
                         through inelastic collisions (shsum =1.245E+11)
                                           + heating (elhsum =2.037E+05)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  18.68 eV (from qtoteV)
                                  or :  17.95 eV (from (entot))
                                  or :******* eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  55.0, longitude 295.0.

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

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

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

 MAIN : The total energy input from the precipitation source is : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]
                                  and from photoelectron source : 1.1636E+11 [eV/cm2/s]
                                                             or : 1.8643E-01 [erg/cm2/s]
 That variable "errorgaupin" is:          108

 MAIN : Total energy deposition in [CO2] is 8.264E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 8.865E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 5.920E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 1.381E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 2.317E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 1.307E+00 [eV.cm-2.s-1] ("shsum").
  4.71764800E+08           2          21
  4.73865632E+08           2          23

 Total Heating :  1.983E+05 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  2.0813101E-03
 entot depart   198261.55       198261.55    
 shsum :  5.79045990E+09  8.26405765E+10  8.26403799E+10  8.26403799E+10
 shsum :  5.86927974E+09  9.15052298E+10  8.86465229E+09  9.15050332E+10
 shsum :  5.90885325E+09  9.74248837E+10  5.91965133E+09  9.74246871E+10
 shsum :  6.22657126E+09  1.11236047E+11  1.38111631E+10  1.11235850E+11
 shsum :  6.22657126E+09  1.11236047E+11   23.165401      1.11235850E+11
 shsum :  6.22657126E+09  1.11236047E+11   1.3065934      1.11235850E+11
 fin  1.11236047E+11  6.22657126E+09   18.687883    
   17.864735    
 -1.06291607E+14   18.687883    
 ezero   0.0000000    
  1.11236047E+11
  5.68772922E+14

Total energy input of :1.164E+11 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 1.112E+11 is absorbed (entot) 
                         through inelastic collisions (shsum =1.112E+11)
                                           + heating (elhsum =1.983E+05)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  18.69 eV (from qtoteV)
                                  or :  17.86 eV (from (entot))
                                  or :******* eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  60.0, longitude 295.0.

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

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

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

 MAIN : The total energy input from the precipitation source is : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]
                                  and from photoelectron source : 1.0252E+11 [eV/cm2/s]
                                                             or : 1.6426E-01 [erg/cm2/s]
 That variable "errorgaupin" is:          107

 MAIN : Total energy deposition in [CO2] is 7.122E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 7.914E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 5.341E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 1.283E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 2.286E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 1.306E+00 [eV.cm-2.s-1] ("shsum").
  4.48838752E+08           2          21
  4.51178624E+08           2          23

 Total Heating :  1.888E+05 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  1.8921741E-03
 entot depart   188809.11       188809.11    
 shsum :  5.07580723E+09  7.12197407E+10  7.12195523E+10  7.12195523E+10
 shsum :  5.14746419E+09  7.91335649E+10  7.91382733E+09  7.91333765E+10
 shsum :  5.18399130E+09  8.44747325E+10  5.34116813E+09  8.44745441E+10
 shsum :  5.48247347E+09  9.73010534E+10  1.28263168E+10  9.73008568E+10
 shsum :  5.48247347E+09  9.73010534E+10   22.860992      9.73008568E+10
 shsum :  5.48247347E+09  9.73010534E+10   1.3059890      9.73008568E+10
 fin  9.73010534E+10  5.48247347E+09   18.699989    
   17.747656    
 -1.20717824E+14   18.699989    
 ezero   0.0000000    
  9.73010534E+10
  6.45550228E+14

Total energy input of :1.025E+11 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 9.730E+10 is absorbed (entot) 
                         through inelastic collisions (shsum =9.730E+10)
                                           + heating (elhsum =1.888E+05)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  18.70 eV (from qtoteV)
                                  or :  17.75 eV (from (entot))
                                  or :******* eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  45.0, longitude 300.0.

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

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

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

 MAIN : The total energy input from the precipitation source is : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]
                                  and from photoelectron source : 1.6692E+11 [eV/cm2/s]
                                                             or : 2.6744E-01 [erg/cm2/s]
 That variable "errorgaupin" is:           99

 MAIN : Total energy deposition in [CO2] is 1.252E+11 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 1.214E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 7.862E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 1.688E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 2.440E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 1.319E+00 [eV.cm-2.s-1] ("shsum").
  5.42076160E+08           2          21
  5.44278528E+08           2          23

 Total Heating :  2.330E+05 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  2.7218235E-03
 entot depart   233020.52       233020.52    
 shsum :  8.42788966E+09  1.25213639E+11  1.25213409E+11  1.25213409E+11
 shsum :  8.53096550E+09  1.37357025E+11  1.21433846E+10  1.37356796E+11
 shsum :  8.58054144E+09  1.45219289E+11  7.86226022E+09  1.45219060E+11
 shsum :  8.95713792E+09  1.62103935E+11  1.68846428E+10  1.62103706E+11
 shsum :  8.95713792E+09  1.62103935E+11   24.395836      1.62103706E+11
 shsum :  8.95713792E+09  1.62103935E+11   1.3192596      1.62103706E+11
 fin  1.62103935E+11  8.95713792E+09   18.635723    
   18.097738    
 -7.38888138E+13   18.635723    
 ezero   0.0000000    
  1.62103935E+11
  3.96490174E+14

Total energy input of :1.669E+11 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 1.621E+11 is absorbed (entot) 
                         through inelastic collisions (shsum =1.621E+11)
                                           + heating (elhsum =2.330E+05)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  18.64 eV (from qtoteV)
                                  or :  18.10 eV (from (entot))
                                  or :******* eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  50.0, longitude 300.0.

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

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

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

 MAIN : The total energy input from the precipitation source is : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]
                                  and from photoelectron source : 1.5217E+11 [eV/cm2/s]
                                                             or : 2.4381E-01 [erg/cm2/s]
 That variable "errorgaupin" is:           93

 MAIN : Total energy deposition in [CO2] is 1.127E+11 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 1.122E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 7.320E+09 [eV.cm-2.s-1] ("shsum").

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

 MAIN : Total energy deposition in [O2]  is 2.464E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 1.348E+00 [eV.cm-2.s-1] ("shsum").
  5.25935584E+08           2          21
  5.28309632E+08           2          23

 Total Heating :  2.280E+05 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  2.5437230E-03
 entot depart   227968.53       227968.53    
 shsum :  7.65539277E+09  1.12656450E+11  1.12656220E+11  1.12656220E+11
 shsum :  7.75172403E+09  1.23880251E+11  1.12238029E+10  1.23880022E+11
 shsum :  7.79853619E+09  1.31199812E+11  7.31955814E+09  1.31199582E+11
 shsum :  8.15962726E+09  1.47266748E+11  1.60669409E+10  1.47266519E+11
 shsum :  8.15962726E+09  1.47266748E+11   24.641872      1.47266519E+11
 shsum :  8.15962726E+09  1.47266748E+11   1.3480382      1.47266519E+11
 fin  1.47266748E+11  8.15962726E+09   18.649464    
   18.048220    
 -8.11106000E+13   18.649464    
 ezero   0.0000000    
  1.47266748E+11
  4.34921911E+14

Total energy input of :1.522E+11 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 1.473E+11 is absorbed (entot) 
                         through inelastic collisions (shsum =1.473E+11)
                                           + heating (elhsum =2.280E+05)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  18.65 eV (from qtoteV)
                                  or :  18.05 eV (from (entot))
                                  or :******* eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  55.0, longitude 300.0.

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

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

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

 MAIN : The total energy input from the precipitation source is : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]
                                  and from photoelectron source : 1.3641E+11 [eV/cm2/s]
                                                             or : 2.1856E-01 [erg/cm2/s]
 That variable "errorgaupin" is:           85

 MAIN : Total energy deposition in [CO2] is 9.936E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 1.020E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 6.720E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 1.512E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 2.438E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 1.348E+00 [eV.cm-2.s-1] ("shsum").
  5.06938656E+08           2          21
  5.09539456E+08           2          23

 Total Heating :  2.194E+05 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  2.3439126E-03
 entot depart   219426.16       219426.16    
 shsum :  6.83331277E+09  9.93576468E+10  9.93574257E+10  9.93574257E+10
 shsum :  6.92207718E+09  1.09558235E+11  1.02005862E+10  1.09558014E+11
 shsum :  6.96580454E+09  1.16277961E+11  6.71972608E+09  1.16277740E+11
 shsum :  7.30882355E+09  1.31400155E+11  1.51221924E+10  1.31399934E+11
 shsum :  7.30882355E+09  1.31400155E+11   24.383173      1.31399934E+11
 shsum :  7.30882355E+09  1.31400155E+11   1.3484309      1.31399934E+11
 fin  1.31400155E+11  7.30882355E+09   18.663683    
   17.978291    
 -9.05525068E+13   18.663683    
 ezero   0.0000000    
  1.31400155E+11
  4.85180242E+14

Total energy input of :1.364E+11 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 1.314E+11 is absorbed (entot) 
                         through inelastic collisions (shsum =1.314E+11)
                                           + heating (elhsum =2.194E+05)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  18.66 eV (from qtoteV)
                                  or :  17.98 eV (from (entot))
                                  or :******* eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  60.0, longitude 300.0.

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

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

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

 MAIN : The total energy input from the precipitation source is : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]
                                  and from photoelectron source : 1.1984E+11 [eV/cm2/s]
                                                             or : 1.9200E-01 [erg/cm2/s]
 That variable "errorgaupin" is:           95

 MAIN : Total energy deposition in [CO2] is 8.548E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 9.100E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 6.062E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 1.405E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 2.453E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 1.375E+00 [eV.cm-2.s-1] ("shsum").
  4.83621312E+08           2          21
  4.86430208E+08           2          23

 Total Heating :  2.115E+05 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  2.1277864E-03
 entot depart   211461.55       211461.55    
 shsum :  5.97245645E+09  8.54787686E+10  8.54785556E+10  8.54785556E+10
 shsum :  6.05303603E+09  9.45784422E+10  9.09967360E+09  9.45782292E+10
 shsum :  6.09335347E+09  1.00639957E+11  6.06151424E+09  1.00639744E+11
 shsum :  6.41578854E+09  1.14693931E+11  1.40539761E+10  1.14693718E+11
 shsum :  6.41578854E+09  1.14693931E+11   24.532045      1.14693718E+11
 shsum :  6.41578854E+09  1.14693931E+11   1.3752176      1.14693718E+11
 fin  1.14693931E+11  6.41578854E+09   18.678602    
   17.876825    
 -1.03156810E+14   18.678602    
 ezero   0.0000000    
  1.14693931E+11
  5.52272598E+14

Total energy input of :1.198E+11 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 1.147E+11 is absorbed (entot) 
                         through inelastic collisions (shsum =1.147E+11)
                                           + heating (elhsum =2.115E+05)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  18.68 eV (from qtoteV)
                                  or :  17.88 eV (from (entot))
                                  or :******* eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  45.0, longitude 305.0.

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

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

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

 MAIN : The total energy input from the precipitation source is : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]
                                  and from photoelectron source : 1.9087E+11 [eV/cm2/s]
                                                             or : 3.0582E-01 [erg/cm2/s]
 That variable "errorgaupin" is:           91

 MAIN : Total energy deposition in [CO2] is 1.458E+11 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 1.359E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 8.710E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 1.811E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 2.610E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 1.392E+00 [eV.cm-2.s-1] ("shsum").
  5.71379968E+08           2          21
  5.74219392E+08           2          23

 Total Heating :  2.564E+05 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  3.0003162E-03
 entot depart   256356.00       256356.00    
 shsum :  9.68740864E+09  1.45802527E+11  1.45802265E+11  1.45802265E+11
 shsum :  9.80103168E+09  1.59393841E+11  1.35913226E+10  1.59393579E+11
 shsum :  9.85488179E+09  1.68103641E+11  8.70980608E+09  1.68103379E+11
 shsum :  1.02545428E+10  1.86216350E+11  1.81127004E+10  1.86216088E+11
 shsum :  1.02545428E+10  1.86216350E+11   26.104630      1.86216088E+11
 shsum :  1.02545428E+10  1.86216350E+11   1.3915460      1.86216088E+11
 fin  1.86216350E+11  1.02545428E+10   18.613432    
   18.159401    
 -6.45403981E+13   18.613432    
 ezero   0.0000000    
  1.86216350E+11
  3.46740998E+14

Total energy input of :1.909E+11 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 1.862E+11 is absorbed (entot) 
                         through inelastic collisions (shsum =1.862E+11)
                                           + heating (elhsum =2.564E+05)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  18.61 eV (from qtoteV)
                                  or :  18.16 eV (from (entot))
                                  or :******* eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  50.0, longitude 305.0.

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

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

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

 MAIN : The total energy input from the precipitation source is : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]
                                  and from photoelectron source : 1.7385E+11 [eV/cm2/s]
                                                             or : 2.7855E-01 [erg/cm2/s]
 That variable "errorgaupin" is:           98

 MAIN : Total energy deposition in [CO2] is 1.312E+11 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 1.257E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 8.113E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 1.725E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 2.631E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 1.418E+00 [eV.cm-2.s-1] ("shsum").
  5.55413568E+08           2          21
  5.58338368E+08           2          23

 Total Heating :  2.505E+05 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  2.8036758E-03
 entot depart   250530.78       250530.78    
 shsum :  8.79249408E+09  1.31154715E+11  1.31154461E+11  1.31154461E+11
 shsum :  8.89866957E+09  1.43724233E+11  1.25695191E+10  1.43723987E+11
 shsum :  8.94951219E+09  1.51837590E+11  8.11336243E+09  1.51837344E+11
 shsum :  9.33306266E+09  1.69092432E+11  1.72548465E+10  1.69092186E+11
 shsum :  9.33306266E+09  1.69092432E+11   26.313271      1.69092186E+11
 shsum :  9.33306266E+09  1.69092432E+11   1.4183478      1.69092186E+11
 fin  1.69092432E+11  9.33306266E+09   18.627642    
   18.117571    
 -7.09126615E+13   18.627642    
 ezero   0.0000000    
  1.69092432E+11
  3.80685097E+14

Total energy input of :1.739E+11 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 1.691E+11 is absorbed (entot) 
                         through inelastic collisions (shsum =1.691E+11)
                                           + heating (elhsum =2.505E+05)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  18.63 eV (from qtoteV)
                                  or :  18.12 eV (from (entot))
                                  or :******* eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  55.0, longitude 305.0.

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

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

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

 MAIN : The total energy input from the precipitation source is : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]
                                  and from photoelectron source : 1.5565E+11 [eV/cm2/s]
                                                             or : 2.4939E-01 [erg/cm2/s]
 That variable "errorgaupin" is:           89

 MAIN : Total energy deposition in [CO2] is 1.156E+11 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 1.144E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 7.450E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 1.627E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 2.600E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 1.416E+00 [eV.cm-2.s-1] ("shsum").
  5.36509056E+08           2          21
  5.39625600E+08           2          23

 Total Heating :  2.412E+05 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  2.5862115E-03
 entot depart   241211.58       241211.58    
 shsum :  7.83863910E+09  1.15596886E+11  1.15596648E+11  1.15596648E+11
 shsum :  7.93657958E+09  1.27040897E+11  1.14440100E+10  1.27040659E+11
 shsum :  7.98405683E+09  1.34491234E+11  7.45033830E+09  1.34490997E+11
 shsum :  8.34899200E+09  1.50761226E+11  1.62699960E+10  1.50760997E+11
 shsum :  8.34899200E+09  1.50761226E+11   25.998520      1.50760997E+11
 shsum :  8.34899200E+09  1.50761226E+11   1.4161122      1.50760997E+11
 fin  1.50761226E+11  8.34899200E+09   18.643246    
   18.057417    
 -7.92709195E+13   18.643246    
 ezero   0.0000000    
  1.50761226E+11
  4.25199145E+14

Total energy input of :1.557E+11 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 1.508E+11 is absorbed (entot) 
                         through inelastic collisions (shsum =1.508E+11)
                                           + heating (elhsum =2.412E+05)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  18.64 eV (from qtoteV)
                                  or :  18.06 eV (from (entot))
                                  or :******* eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  60.0, longitude 305.0.

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

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

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

 MAIN : The total energy input from the precipitation source is : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]
                                  and from photoelectron source : 1.3649E+11 [eV/cm2/s]
                                                             or : 2.1868E-01 [erg/cm2/s]
 That variable "errorgaupin" is:           88

 MAIN : Total energy deposition in [CO2] is 9.936E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 1.021E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 6.723E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 1.513E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 2.608E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 1.440E+00 [eV.cm-2.s-1] ("shsum").
  5.12941760E+08           2          21
  5.16212448E+08           2          23

 Total Heating :  2.321E+05 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  2.3453946E-03
 entot depart   232063.78       232063.78    
 shsum :  6.83854438E+09  9.93635205E+10  9.93632911E+10  9.93632911E+10
 shsum :  6.92736512E+09  1.09570032E+11  1.02065132E+10  1.09569802E+11
 shsum :  6.97112013E+09  1.16293149E+11  6.72311706E+09  1.16292919E+11
 shsum :  7.31439360E+09  1.31427385E+11  1.51342408E+10  1.31427156E+11
 shsum :  7.31439360E+09  1.31427385E+11   26.082079      1.31427156E+11
 shsum :  7.31439360E+09  1.31427385E+11   1.4395361      1.31427156E+11
 fin  1.31427385E+11  7.31439360E+09   18.659952    
   17.968323    
 -9.04835440E+13   18.659952    
 ezero   0.0000000    
  1.31427385E+11
  4.84907680E+14

Total energy input of :1.365E+11 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 1.314E+11 is absorbed (entot) 
                         through inelastic collisions (shsum =1.314E+11)
                                           + heating (elhsum =2.321E+05)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  18.66 eV (from qtoteV)
                                  or :  17.97 eV (from (entot))
                                  or :******* eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  45.0, longitude 310.0.

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

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

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

 MAIN : The total energy input from the precipitation source is : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]
                                  and from photoelectron source : 2.1351E+11 [eV/cm2/s]
                                                             or : 3.4209E-01 [erg/cm2/s]
 That variable "errorgaupin" is:           88

 MAIN : Total energy deposition in [CO2] is 1.654E+11 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 1.492E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 9.471E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 1.917E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 2.775E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 1.461E+00 [eV.cm-2.s-1] ("shsum").
  5.96515968E+08           2          21
  6.00079680E+08           2          23

 Total Heating :  2.781E+05 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  3.2552963E-03
 entot depart   278130.72       278130.72    
 shsum :  1.08819722E+10  1.65442241E+11  1.65441962E+11  1.65441962E+11
 shsum :  1.10052506E+10  1.80361675E+11  1.49194414E+10  1.80361396E+11
 shsum :  1.10629130E+10  1.89832872E+11  9.47119411E+09  1.89832593E+11
 shsum :  1.14823619E+10  2.09007264E+11  1.91743877E+10  2.09006985E+11
 shsum :  1.14823619E+10  2.09007264E+11   27.746599      2.09006985E+11
 shsum :  1.14823619E+10  2.09007264E+11   1.4611652      2.09006985E+11
 fin  2.09007264E+11  1.14823619E+10   18.594917    
   18.202463    
 -5.76390357E+13   18.594917    
 ezero   0.0000000    
  2.09007264E+11
  3.09972018E+14

Total energy input of :2.135E+11 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 2.090E+11 is absorbed (entot) 
                         through inelastic collisions (shsum =2.090E+11)
                                           + heating (elhsum =2.781E+05)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  18.59 eV (from qtoteV)
                                  or :  18.20 eV (from (entot))
                                  or :******* eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  50.0, longitude 310.0.

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

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

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

 MAIN : The total energy input from the precipitation source is : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]
                                  and from photoelectron source : 1.9437E+11 [eV/cm2/s]
                                                             or : 3.1141E-01 [erg/cm2/s]
 That variable "errorgaupin" is:           90

 MAIN : Total energy deposition in [CO2] is 1.488E+11 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 1.380E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 8.830E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 1.828E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 2.738E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 1.455E+00 [eV.cm-2.s-1] ("shsum").
  5.80640448E+08           2          21
  5.84241344E+08           2          23

 Total Heating :  2.688E+05 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  3.0403195E-03
 entot depart   268811.13       268811.13    
 shsum :  9.87217306E+09  1.48824080E+11  1.48823818E+11  1.48823818E+11
 shsum :  9.98731059E+09  1.62624913E+11  1.38008300E+10  1.62624651E+11
 shsum :  1.00417577E+10  1.71454628E+11  8.82971443E+09  1.71454366E+11
 shsum :  1.04445942E+10  1.89738566E+11  1.82839419E+10  1.89738303E+11
 shsum :  1.04445942E+10  1.89738566E+11   27.377060      1.89738303E+11
 shsum :  1.04445942E+10  1.89738566E+11   1.4551616      1.89738303E+11
 fin  1.89738566E+11  1.04445942E+10   18.609329    
   18.166199    
 -6.33660139E+13   18.609329    
 ezero   0.0000000    
  1.89738566E+11
  3.40506685E+14

Total energy input of :1.944E+11 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 1.897E+11 is absorbed (entot) 
                         through inelastic collisions (shsum =1.897E+11)
                                           + heating (elhsum =2.688E+05)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  18.61 eV (from qtoteV)
                                  or :  18.17 eV (from (entot))
                                  or :******* eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  55.0, longitude 310.0.

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

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

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

 MAIN : The total energy input from the precipitation source is : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]
                                  and from photoelectron source : 1.7388E+11 [eV/cm2/s]
                                                             or : 2.7859E-01 [erg/cm2/s]
 That variable "errorgaupin" is:          101

 MAIN : Total energy deposition in [CO2] is 1.312E+11 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 1.257E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 8.114E+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 2.752E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 1.480E+00 [eV.cm-2.s-1] ("shsum").
  5.61638912E+08           2          21
  5.65348736E+08           2          23

 Total Heating :  2.612E+05 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  2.8031506E-03
 entot depart   261156.03       261156.03    
 shsum :  8.79502029E+09  1.31158852E+11  1.31158589E+11  1.31158589E+11
 shsum :  8.90117632E+09  1.43726477E+11  1.25676298E+10  1.43726215E+11
 shsum :  8.95201690E+09  1.51840063E+11  8.11358413E+09  1.51839801E+11
 shsum :  9.33557350E+09  1.69096331E+11  1.72562678E+10  1.69096069E+11
 shsum :  9.33557350E+09  1.69096331E+11   27.520304      1.69096069E+11
 shsum :  9.33557350E+09  1.69096331E+11   1.4797866      1.69096069E+11
 fin  1.69096331E+11  9.33557350E+09   18.625463    
   18.113117    
 -7.08935858E+13   18.625463    
 ezero   0.0000000    
  1.69096331E+11
  3.80627250E+14

Total energy input of :1.739E+11 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 1.691E+11 is absorbed (entot) 
                         through inelastic collisions (shsum =1.691E+11)
                                           + heating (elhsum =2.612E+05)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  18.63 eV (from qtoteV)
                                  or :  18.11 eV (from (entot))
                                  or :******* eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  60.0, longitude 310.0.

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

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

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

 MAIN : The total energy input from the precipitation source is : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]
                                  and from photoelectron source : 1.5227E+11 [eV/cm2/s]
                                                             or : 2.4397E-01 [erg/cm2/s]
 That variable "errorgaupin" is:           97

 MAIN : Total energy deposition in [CO2] is 1.127E+11 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 1.122E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 7.324E+09 [eV.cm-2.s-1] ("shsum").

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

 MAIN : Total energy deposition in [O2]  is 2.700E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 1.469E+00 [eV.cm-2.s-1] ("shsum").
  5.37800576E+08           2          21
  5.41563520E+08           2          23

 Total Heating :  2.485E+05 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  2.5425218E-03
 entot depart   248462.20       248462.20    
 shsum :  7.66327706E+09  1.12678322E+11  1.12678076E+11  1.12678076E+11
 shsum :  7.75956275E+09  1.23896930E+11  1.12186071E+10  1.23896685E+11
 shsum :  7.80640410E+09  1.31221348E+11  7.32441651E+09  1.31221103E+11
 shsum :  8.16763187E+09  1.47296027E+11  1.60746752E+10  1.47295781E+11
 shsum :  8.16763187E+09  1.47296027E+11   26.997240      1.47295781E+11
 shsum :  8.16763187E+09  1.47296027E+11   1.4694576      1.47295781E+11
 fin  1.47296027E+11  8.16763187E+09   18.643579    
   18.034117    
 -8.10311095E+13   18.643579    
 ezero   0.0000000    
  1.47296027E+11
  4.34632772E+14

Total energy input of :1.523E+11 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 1.473E+11 is absorbed (entot) 
                         through inelastic collisions (shsum =1.473E+11)
                                           + heating (elhsum =2.485E+05)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  18.64 eV (from qtoteV)
                                  or :  18.03 eV (from (entot))
                                  or :******* eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  45.0, longitude 315.0.

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

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

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

 MAIN : The total energy input from the precipitation source is : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]
                                  and from photoelectron source : 2.3424E+11 [eV/cm2/s]
                                                             or : 3.7530E-01 [erg/cm2/s]
 That variable "errorgaupin" is:           86

 MAIN : Total energy deposition in [CO2] is 1.835E+11 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 1.612E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 1.014E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 2.009E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 2.930E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 1.527E+00 [eV.cm-2.s-1] ("shsum").
  6.17972480E+08           2          21
  6.22269120E+08           2          23

 Total Heating :  2.981E+05 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  3.4872810E-03
 entot depart   298096.59       298096.59    
 shsum :  1.19787735E+10  1.83497949E+11  1.83497654E+11  1.83497654E+11
 shsum :  1.21108378E+10  1.99622607E+11  1.61246597E+10  1.99622312E+11
 shsum :  1.21718538E+10  2.09765728E+11  1.01431255E+10  2.09765433E+11
 shsum :  1.26083441E+10  2.29858378E+11  2.00926454E+10  2.29858083E+11
 shsum :  1.26083441E+10  2.29858378E+11   29.298286      2.29858083E+11
 shsum :  1.26083441E+10  2.29858378E+11   1.5265825      2.29858083E+11
 fin  2.29858378E+11  1.26083441E+10   18.578129    
   18.230656    
 -5.24916097E+13   18.578129    
 ezero   0.0000000    
  2.29858378E+11
  2.82545195E+14

Total energy input of :2.342E+11 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 2.299E+11 is absorbed (entot) 
                         through inelastic collisions (shsum =2.299E+11)
                                           + heating (elhsum =2.981E+05)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  18.58 eV (from qtoteV)
                                  or :  18.23 eV (from (entot))
                                  or :******* eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  50.0, longitude 315.0.

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

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

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

 MAIN : The total energy input from the precipitation source is : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]
                                  and from photoelectron source : 2.1352E+11 [eV/cm2/s]
                                                             or : 3.4210E-01 [erg/cm2/s]
 That variable "errorgaupin" is:           98

 MAIN : Total energy deposition in [CO2] is 1.654E+11 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 1.492E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 9.470E+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 2.887E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 1.518E+00 [eV.cm-2.s-1] ("shsum").
  6.02133696E+08           2          21
  6.06402816E+08           2          23

 Total Heating :  2.881E+05 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  3.2554350E-03
 entot depart   288069.69       288069.69    
 shsum :  1.08827607E+10  1.65435081E+11  1.65434786E+11  1.65434786E+11
 shsum :  1.10060442E+10  1.80355596E+11  1.49205115E+10  1.80355301E+11
 shsum :  1.10636954E+10  1.89825778E+11  9.47017523E+09  1.89825483E+11
 shsum :  1.14831319E+10  2.09001185E+11  1.91754117E+10  2.09000890E+11
 shsum :  1.14831319E+10  2.09001185E+11   28.873869      2.09000890E+11
 shsum :  1.14831319E+10  2.09001185E+11   1.5181073      2.09000890E+11
 fin  2.09001185E+11  1.14831319E+10   18.593994    
   18.200712    
 -5.76351728E+13   18.593994    
 ezero   0.0000000    
  2.09001185E+11
  3.09966615E+14

Total energy input of :2.135E+11 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 2.090E+11 is absorbed (entot) 
                         through inelastic collisions (shsum =2.090E+11)
                                           + heating (elhsum =2.881E+05)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  18.59 eV (from qtoteV)
                                  or :  18.20 eV (from (entot))
                                  or :******* eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  55.0, longitude 315.0.

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

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

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

 MAIN : The total energy input from the precipitation source is : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]
                                  and from photoelectron source : 1.9091E+11 [eV/cm2/s]
                                                             or : 3.0587E-01 [erg/cm2/s]
 That variable "errorgaupin" is:           76

 MAIN : Total energy deposition in [CO2] is 1.458E+11 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 1.359E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 8.709E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 1.812E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 2.895E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 1.539E+00 [eV.cm-2.s-1] ("shsum").
  5.82940160E+08           2          21
  5.87219584E+08           2          23

 Total Heating :  2.792E+05 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  2.9998249E-03
 entot depart   279246.53       279246.53    
 shsum :  9.69092506E+09  1.45801052E+11  1.45800774E+11  1.45800774E+11
 shsum :  9.80452864E+09  1.59390777E+11  1.35897190E+10  1.59390499E+11
 shsum :  9.85836954E+09  1.68100020E+11  8.70924902E+09  1.68099742E+11
 shsum :  1.02580285E+10  1.86215137E+11  1.81151171E+10  1.86214859E+11
 shsum :  1.02580285E+10  1.86215137E+11   28.947233      1.86214859E+11
 shsum :  1.02580285E+10  1.86215137E+11   1.5392145      1.86214859E+11
 fin  1.86215137E+11  1.02580285E+10   18.610483    
   18.153112    
 -6.45184660E+13   18.610483    
 ezero   0.0000000    
  1.86215137E+11
  3.46678083E+14

Total energy input of :1.909E+11 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 1.862E+11 is absorbed (entot) 
                         through inelastic collisions (shsum =1.862E+11)
                                           + heating (elhsum =2.792E+05)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  18.61 eV (from qtoteV)
                                  or :  18.15 eV (from (entot))
                                  or :******* eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  60.0, longitude 315.0.

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

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

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

 MAIN : The total energy input from the precipitation source is : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]
                                  and from photoelectron source : 1.6704E+11 [eV/cm2/s]
                                                             or : 2.6763E-01 [erg/cm2/s]
 That variable "errorgaupin" is:           85

 MAIN : Total energy deposition in [CO2] is 1.252E+11 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 1.213E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 7.866E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 1.689E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 2.833E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 1.525E+00 [eV.cm-2.s-1] ("shsum").
  5.58768384E+08           2          21
  5.63021760E+08           2          23

 Total Heating :  2.653E+05 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  2.7193364E-03
 entot depart   265290.06       265290.06    
 shsum :  8.43709235E+09  1.25239583E+11  1.25239321E+11  1.25239321E+11
 shsum :  8.54007398E+09  1.37371992E+11  1.21324134E+10  1.37371730E+11
 shsum :  8.58966579E+09  1.45237967E+11  7.86596659E+09  1.45237705E+11
 shsum :  8.96629965E+09  1.62127135E+11  1.68891648E+10  1.62126873E+11
 shsum :  8.96629965E+09  1.62127135E+11   28.333664      1.62126873E+11
 shsum :  8.96629965E+09  1.62127135E+11   1.5250751      1.62126873E+11
 fin  1.62127135E+11  8.96629965E+09   18.629353    
   18.081833    
 -7.38133163E+13   18.629353    
 ezero   0.0000000    
  1.62127135E+11
  3.96220497E+14

Total energy input of :1.670E+11 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 1.621E+11 is absorbed (entot) 
                         through inelastic collisions (shsum =1.621E+11)
                                           + heating (elhsum =2.653E+05)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  18.63 eV (from qtoteV)
                                  or :  18.08 eV (from (entot))
                                  or :******* eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  45.0, longitude 320.0.

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

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

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

 MAIN : The total energy input from the precipitation source is : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]
                                  and from photoelectron source : 2.5358E+11 [eV/cm2/s]
                                                             or : 4.0629E-01 [erg/cm2/s]
 That variable "errorgaupin" is:           82

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

 MAIN : Total energy deposition in [N2]  is 1.726E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 1.075E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 2.091E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 3.073E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 1.587E+00 [eV.cm-2.s-1] ("shsum").
  6.36258624E+08           2          21
  6.41270784E+08           2          23

 Total Heating :  3.160E+05 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  3.7065446E-03
 entot depart   315998.91       315998.91    
 shsum :  1.30017956E+10  2.00388624E+11  2.00388313E+11  2.00388313E+11
 shsum :  1.31421635E+10  2.17647055E+11  1.72584284E+10  2.17646744E+11
 shsum :  1.32062269E+10  2.28397302E+11  1.07502520E+10  2.28396990E+11
 shsum :  1.36578836E+10  2.49307415E+11  2.09101169E+10  2.49307103E+11
 shsum :  1.36578836E+10  2.49307415E+11   30.734596      2.49307103E+11
 shsum :  1.36578836E+10  2.49307415E+11   1.5867319      2.49307103E+11
 fin  2.49307415E+11  1.36578836E+10   18.566730    
   18.253736    
 -4.84578930E+13   18.566730    
 ezero   0.0000000    
  2.49307415E+11
  2.60993133E+14

Total energy input of :2.536E+11 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 2.493E+11 is absorbed (entot) 
                         through inelastic collisions (shsum =2.493E+11)
                                           + heating (elhsum =3.160E+05)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  18.57 eV (from qtoteV)
                                  or :  18.25 eV (from (entot))
                                  or :******* eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  50.0, longitude 320.0.

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

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

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

 MAIN : The total energy input from the precipitation source is : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]
                                  and from photoelectron source : 2.3076E+11 [eV/cm2/s]
                                                             or : 3.6973E-01 [erg/cm2/s]
 That variable "errorgaupin" is:           80

 MAIN : Total energy deposition in [CO2] is 1.804E+11 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 1.592E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 1.003E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 1.994E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 3.026E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 1.576E+00 [eV.cm-2.s-1] ("shsum").
  6.20398400E+08           2          21
  6.25314432E+08           2          23

 Total Heating :  3.053E+05 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  3.4486293E-03
 entot depart   305307.00       305307.00    
 shsum :  1.17960284E+10  1.80435878E+11  1.80435567E+11  1.80435567E+11
 shsum :  1.19266284E+10  1.96360159E+11  1.59242854E+10  1.96359848E+11
 shsum :  1.19870863E+10  2.06391738E+11  1.00315843E+10  2.06391427E+11
 shsum :  1.24208138E+10  2.26336571E+11  1.99448351E+10  2.26336260E+11
 shsum :  1.24208138E+10  2.26336571E+11   30.260509      2.26336260E+11
 shsum :  1.24208138E+10  2.26336571E+11   1.5761317      2.26336260E+11
 fin  2.26336571E+11  1.24208138E+10   18.578802    
   18.222363    
 -5.32841318E+13   18.578802    
 ezero   0.0000000    
  2.26336571E+11
  2.86800703E+14

Total energy input of :2.308E+11 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 2.263E+11 is absorbed (entot) 
                         through inelastic collisions (shsum =2.263E+11)
                                           + heating (elhsum =3.053E+05)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  18.58 eV (from qtoteV)
                                  or :  18.22 eV (from (entot))
                                  or :******* eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  55.0, longitude 320.0.

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

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

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

 MAIN : The total energy input from the precipitation source is : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]
                                  and from photoelectron source : 2.0657E+11 [eV/cm2/s]
                                                             or : 3.3097E-01 [erg/cm2/s]
 That variable "errorgaupin" is:           88

 MAIN : Total energy deposition in [CO2] is 1.594E+11 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 1.451E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 9.237E+09 [eV.cm-2.s-1] ("shsum").

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

 MAIN : Total energy deposition in [O2]  is 2.973E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 1.564E+00 [eV.cm-2.s-1] ("shsum").
  6.01072576E+08           2          21
  6.05905408E+08           2          23

 Total Heating :  2.932E+05 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  3.1757178E-03
 entot depart   293216.09       293216.09    
 shsum :  1.05172357E+10  1.59358796E+11  1.59358501E+11  1.59358501E+11
 shsum :  1.06375004E+10  1.73864026E+11  1.45052273E+10  1.73863731E+11
 shsum :  1.06939894E+10  1.83101440E+11  9.23741389E+09  1.83101145E+11
 shsum :  1.11074683E+10  2.01957163E+11  1.88557271E+10  2.01956868E+11
 shsum :  1.11074683E+10  2.01957163E+11   29.731133      2.01956868E+11
 shsum :  1.11074683E+10  2.01957163E+11   1.5643642      2.01956868E+11
 fin  2.01957163E+11  1.11074683E+10   18.597776    
   18.182106    
 -5.95844420E+13   18.597776    
 ezero   0.0000000    
  2.01957163E+11
  3.20384763E+14

Total energy input of :2.066E+11 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 2.020E+11 is absorbed (entot) 
                         through inelastic collisions (shsum =2.020E+11)
                                           + heating (elhsum =2.932E+05)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  18.60 eV (from qtoteV)
                                  or :  18.18 eV (from (entot))
                                  or :******* eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  60.0, longitude 320.0.

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

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

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

 MAIN : The total energy input from the precipitation source is : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]
                                  and from photoelectron source : 1.8063E+11 [eV/cm2/s]
                                                             or : 2.8940E-01 [erg/cm2/s]
 That variable "errorgaupin" is:           87

 MAIN : Total energy deposition in [CO2] is 1.369E+11 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 1.295E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 8.348E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 1.760E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 2.904E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 1.547E+00 [eV.cm-2.s-1] ("shsum").
  5.76613760E+08           2          21
  5.81340800E+08           2          23

 Total Heating :  2.781E+05 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  2.8772559E-03
 entot depart   278140.94       278140.94    
 shsum :  9.15129344E+09  1.36880521E+11  1.36880243E+11  1.36880243E+11
 shsum :  9.26025523E+09  1.49832614E+11  1.29520968E+10  1.49832335E+11
 shsum :  9.31228672E+09  1.58181065E+11  8.34845594E+09  1.58180786E+11
 shsum :  9.70221568E+09  1.75776662E+11  1.75955988E+10  1.75776383E+11
 shsum :  9.70221568E+09  1.75776662E+11   29.036299      1.75776383E+11
 shsum :  9.70221568E+09  1.75776662E+11   1.5469884      1.75776383E+11
 fin  1.75776662E+11  9.70221568E+09   18.617207    
   18.117167    
 -6.82145496E+13   18.617207    
 ezero   0.0000000    
  1.75776662E+11
  3.66405942E+14

Total energy input of :1.806E+11 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 1.758E+11 is absorbed (entot) 
                         through inelastic collisions (shsum =1.758E+11)
                                           + heating (elhsum =2.781E+05)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  18.62 eV (from qtoteV)
                                  or :  18.12 eV (from (entot))
                                  or :******* eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  45.0, longitude 325.0.

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

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

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

 MAIN : The total energy input from the precipitation source is : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]
                                  and from photoelectron source : 2.7105E+11 [eV/cm2/s]
                                                             or : 4.3428E-01 [erg/cm2/s]
 That variable "errorgaupin" is:           88

 MAIN : Total energy deposition in [CO2] is 2.157E+11 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 1.828E+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 2.162E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 3.204E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 1.641E+00 [eV.cm-2.s-1] ("shsum").
  6.51594816E+08           2          21
  6.57289536E+08           2          23

 Total Heating :  3.317E+05 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  3.9038360E-03
 entot depart   331674.25       331674.25    
 shsum :  1.39269120E+10  2.15679484E+11  2.15679156E+11  2.15679156E+11
 shsum :  1.40747510E+10  2.33957081E+11  1.82775972E+10  2.33956753E+11
 shsum :  1.41414769E+10  2.45237580E+11  1.12804925E+10  2.45237252E+11
 shsum :  1.46063319E+10  2.66859495E+11  2.16219156E+10  2.66859168E+11
 shsum :  1.46063319E+10  2.66859495E+11   32.044205      2.66859168E+11
 shsum :  1.46063319E+10  2.66859495E+11   1.6411898      2.66859168E+11
 fin  2.66859495E+11  1.46063319E+10   18.557005    
   18.270124    
 -4.53113262E+13   18.557005    
 ezero   0.0000000    
  2.66859495E+11
  2.44173723E+14

Total energy input of :2.710E+11 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 2.669E+11 is absorbed (entot) 
                         through inelastic collisions (shsum =2.669E+11)
                                           + heating (elhsum =3.317E+05)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  18.56 eV (from qtoteV)
                                  or :  18.27 eV (from (entot))
                                  or :******* eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  50.0, longitude 325.0.

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

 MAIN : The screening parameter for the Rutherford phase function is calculated
        from the Bethe/Moliere formula for E > 500 eV

 MAIN : The energy grid covers the range from : 0.001 [eV] up to :   287.9 [eV].

 MAIN : The total energy input from the precipitation source is : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]
                                  and from photoelectron source : 2.4662E+11 [eV/cm2/s]
                                                             or : 3.9514E-01 [erg/cm2/s]
 That variable "errorgaupin" is:           87

 MAIN : Total energy deposition in [CO2] is 1.942E+11 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 1.686E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 1.053E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 2.063E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 3.153E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 1.629E+00 [eV.cm-2.s-1] ("shsum").
  6.35784064E+08           2          21
  6.41323008E+08           2          23

 Total Heating :  3.205E+05 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  3.6305394E-03
 entot depart   320462.47       320462.47    
 shsum :  1.26339973E+10  1.94238661E+11  1.94238333E+11  1.94238333E+11
 shsum :  1.27714867E+10  2.11101729E+11  1.68630620E+10  2.11101401E+11
 shsum :  1.28344709E+10  2.21634789E+11  1.05330627E+10  2.21634462E+11
 shsum :  1.32809585E+10  2.42265096E+11  2.06303150E+10  2.42264769E+11
 shsum :  1.32809585E+10  2.42265096E+11   31.533266      2.42264769E+11
 shsum :  1.32809585E+10  2.42265096E+11   1.6292067      2.42264769E+11
 fin  2.42265096E+11  1.32809585E+10   18.569525    
   18.241537    
 -4.98331717E+13   18.569525    
 ezero   0.0000000    
  2.42265096E+11
  2.68359992E+14

Total energy input of :2.466E+11 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 2.423E+11 is absorbed (entot) 
                         through inelastic collisions (shsum =2.423E+11)
                                           + heating (elhsum =3.205E+05)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  18.57 eV (from qtoteV)
                                  or :  18.24 eV (from (entot))
                                  or :******* eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  55.0, longitude 325.0.

 REED : The energy degradation is computed from the center energies of the grid.
 REED : The energy degradation source term is interpolated linearly with tau.
 REED : The albedo at  80. km is set to 1.00
 REED : The low energy phase function is taken from Porter
 REED : Secondary distribution from Rees et al., PSS 17, 1997, 1969           
 REED : Wiscombe's delta-M method IS applied

 MAIN : The screening parameter for the Rutherford phase function is calculated
        from the Bethe/Moliere formula for E > 500 eV

 MAIN : The energy grid covers the range from : 0.001 [eV] up to :   287.9 [eV].

 MAIN : The total energy input from the precipitation source is : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]
                                  and from photoelectron source : 2.2053E+11 [eV/cm2/s]
                                                             or : 3.5334E-01 [erg/cm2/s]
 That variable "errorgaupin" is:           92

 MAIN : Total energy deposition in [CO2] is 1.714E+11 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 1.533E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 9.699E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 1.950E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 3.094E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 1.615E+00 [eV.cm-2.s-1] ("shsum").
  6.16313472E+08           2          21
  6.21702720E+08           2          23

 Total Heating :  3.075E+05 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  3.3351332E-03
 entot depart   307524.38       307524.38    
 shsum :  1.12558920E+10  1.71441963E+11  1.71441652E+11  1.71441652E+11
 shsum :  1.13821942E+10  1.86773357E+11  1.53313987E+10  1.86773045E+11
 shsum :  1.14410025E+10  1.96472422E+11  9.69907302E+09  1.96472111E+11
 shsum :  1.18664980E+10  2.15972446E+11  1.95000279E+10  2.15972135E+11
 shsum :  1.18664980E+10  2.15972446E+11   30.943693      2.15972135E+11
 shsum :  1.18664980E+10  2.15972446E+11   1.6150303      2.15972135E+11
 fin  2.15972446E+11  1.18664980E+10   18.584639    
   18.200184    
 -5.57731744E+13   18.584639    
 ezero   0.0000000    
  2.15972446E+11
  3.00103659E+14

Total energy input of :2.205E+11 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 2.160E+11 is absorbed (entot) 
                         through inelastic collisions (shsum =2.160E+11)
                                           + heating (elhsum =3.075E+05)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  18.58 eV (from qtoteV)
                                  or :  18.20 eV (from (entot))
                                  or :******* eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  60.0, longitude 325.0.

 REED : The energy degradation is computed from the center energies of the grid.
 REED : The energy degradation source term is interpolated linearly with tau.
 REED : The albedo at  80. km is set to 1.00
 REED : The low energy phase function is taken from Porter
 REED : Secondary distribution from Rees et al., PSS 17, 1997, 1969           
 REED : Wiscombe's delta-M method IS applied

 MAIN : The screening parameter for the Rutherford phase function is calculated
        from the Bethe/Moliere formula for E > 500 eV

 MAIN : The energy grid covers the range from : 0.001 [eV] up to :   287.9 [eV].

 MAIN : The total energy input from the precipitation source is : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]
                                  and from photoelectron source : 1.9292E+11 [eV/cm2/s]
                                                             or : 3.0910E-01 [erg/cm2/s]
 That variable "errorgaupin" is:           82

 MAIN : Total energy deposition in [CO2] is 1.475E+11 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 1.368E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 8.772E+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 3.018E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 1.595E+00 [eV.cm-2.s-1] ("shsum").
  5.91614400E+08           2          21
  5.96759808E+08           2          23

 Total Heating :  2.914E+05 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  3.0173641E-03
 entot depart   291374.19       291374.19    
 shsum :  9.79861914E+09  1.47460538E+11  1.47460243E+11  1.47460243E+11
 shsum :  9.91288730E+09  1.61140261E+11  1.36797174E+10  1.61139966E+11
 shsum :  9.96705587E+09  1.69912304E+11  8.77204582E+09  1.69912009E+11
 shsum :  1.03683922E+10  1.88115878E+11  1.82035743E+10  1.88115583E+11
 shsum :  1.03683922E+10  1.88115878E+11   30.176186      1.88115583E+11
 shsum :  1.03683922E+10  1.88115878E+11   1.5949407      1.88115583E+11
 fin  1.88115878E+11  1.03683922E+10   18.606941    
   18.143206    
 -6.38317159E+13   18.606941    
 ezero   0.0000000    
  1.88115878E+11
  3.43053265E+14

Total energy input of :1.929E+11 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 1.881E+11 is absorbed (entot) 
                         through inelastic collisions (shsum =1.881E+11)
                                           + heating (elhsum =2.914E+05)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  18.61 eV (from qtoteV)
                                  or :  18.14 eV (from (entot))
                                  or :******* eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  45.0, longitude 330.0.

 REED : The energy degradation is computed from the center energies of the grid.
 REED : The energy degradation source term is interpolated linearly with tau.
 REED : The albedo at  80. km is set to 1.00
 REED : The low energy phase function is taken from Porter
 REED : Secondary distribution from Rees et al., PSS 17, 1997, 1969           
 REED : Wiscombe's delta-M method IS applied

 MAIN : The screening parameter for the Rutherford phase function is calculated
        from the Bethe/Moliere formula for E > 500 eV

 MAIN : The energy grid covers the range from : 0.001 [eV] up to :   287.9 [eV].

 MAIN : The total energy input from the precipitation source is : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]
                                  and from photoelectron source : 2.8649E+11 [eV/cm2/s]
                                                             or : 4.5902E-01 [erg/cm2/s]
 That variable "errorgaupin" is:           78

 MAIN : Total energy deposition in [CO2] is 2.293E+11 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 1.913E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 1.175E+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 3.268E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 1.660E+00 [eV.cm-2.s-1] ("shsum").
  6.64155968E+08           2          21
  6.70426624E+08           2          23

 Total Heating :  3.430E+05 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  4.0680873E-03
 entot depart   342975.06       342975.06    
 shsum :  1.47471524E+10  2.29277549E+11  2.29277204E+11  2.29277204E+11
 shsum :  1.49012111E+10  2.48406114E+11  1.91285596E+10  2.48405770E+11
 shsum :  1.49702932E+10  2.60157948E+11  1.17518264E+10  2.60157604E+11
 shsum :  1.54457303E+10  2.82357006E+11  2.21990461E+10  2.82356646E+11
 shsum :  1.54457303E+10  2.82357006E+11   32.679173      2.82356646E+11
 shsum :  1.54457303E+10  2.82357006E+11   1.6604738      2.82356646E+11
 fin  2.82357006E+11  1.54457303E+10   18.548277    
   18.280586    
 -4.28488838E+13   18.548277    
 ezero   0.0000000    
  2.82357006E+11
  2.31012752E+14

Total energy input of :2.865E+11 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 2.824E+11 is absorbed (entot) 
                         through inelastic collisions (shsum =2.824E+11)
                                           + heating (elhsum =3.430E+05)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  18.55 eV (from qtoteV)
                                  or :  18.28 eV (from (entot))
                                  or :******* eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  50.0, longitude 330.0.

 REED : The energy degradation is computed from the center energies of the grid.
 REED : The energy degradation source term is interpolated linearly with tau.
 REED : The albedo at  80. km is set to 1.00
 REED : The low energy phase function is taken from Porter
 REED : Secondary distribution from Rees et al., PSS 17, 1997, 1969           
 REED : Wiscombe's delta-M method IS applied

 MAIN : The screening parameter for the Rutherford phase function is calculated
        from the Bethe/Moliere formula for E > 500 eV

 MAIN : The energy grid covers the range from : 0.001 [eV] up to :   287.9 [eV].

 MAIN : The total energy input from the precipitation source is : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]
                                  and from photoelectron source : 2.6064E+11 [eV/cm2/s]
                                                             or : 4.1760E-01 [erg/cm2/s]
 That variable "errorgaupin" is:           98

 MAIN : Total energy deposition in [CO2] is 2.065E+11 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 1.768E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 1.096E+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 3.214E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 1.648E+00 [eV.cm-2.s-1] ("shsum").
  6.48398464E+08           2          21
  6.54468032E+08           2          23

 Total Heating :  3.314E+05 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  3.7891553E-03
 entot depart   331413.88       331413.88    
 shsum :  1.33759549E+10  2.06481408E+11  2.06481080E+11  2.06481080E+11
 shsum :  1.35194511E+10  2.24163168E+11  1.76817664E+10  2.24162841E+11
 shsum :  1.35845755E+10  2.35123737E+11  1.09605632E+10  2.35123409E+11
 shsum :  1.40418048E+10  2.56333447E+11  2.12097188E+10  2.56333119E+11
 shsum :  1.40418048E+10  2.56333447E+11   32.141205      2.56333119E+11
 shsum :  1.40418048E+10  2.56333447E+11   1.6477313      2.56333119E+11
 fin  2.56333447E+11  1.40418048E+10   18.561890    
   18.255022    
 -4.71329921E+13   18.561890    
 ezero   0.0000000    
  2.56333447E+11
  2.53923449E+14

Total energy input of :2.606E+11 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 2.563E+11 is absorbed (entot) 
                         through inelastic collisions (shsum =2.563E+11)
                                           + heating (elhsum =3.314E+05)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  18.56 eV (from qtoteV)
                                  or :  18.26 eV (from (entot))
                                  or :******* eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  55.0, longitude 330.0.

 REED : The energy degradation is computed from the center energies of the grid.
 REED : The energy degradation source term is interpolated linearly with tau.
 REED : The albedo at  80. km is set to 1.00
 REED : The low energy phase function is taken from Porter
 REED : Secondary distribution from Rees et al., PSS 17, 1997, 1969           
 REED : Wiscombe's delta-M method IS applied

 MAIN : The screening parameter for the Rutherford phase function is calculated
        from the Bethe/Moliere formula for E > 500 eV

 MAIN : The energy grid covers the range from : 0.001 [eV] up to :   287.9 [eV].

 MAIN : The total energy input from the precipitation source is : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]
                                  and from photoelectron source : 2.3296E+11 [eV/cm2/s]
                                                             or : 3.7324E-01 [erg/cm2/s]
 That variable "errorgaupin" is:           97

 MAIN : Total energy deposition in [CO2] is 1.822E+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 1.010E+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 3.150E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 1.632E+00 [eV.cm-2.s-1] ("shsum").
  6.28996800E+08           2          21
  6.34829568E+08           2          23

 Total Heating :  3.179E+05 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  3.4819259E-03
 entot depart   317855.75       317855.75    
 shsum :  1.19122760E+10  1.82180954E+11  1.82180643E+11  1.82180643E+11
 shsum :  1.20441375E+10  1.98268584E+11  1.60876298E+10  1.98268273E+11
 shsum :  1.21049477E+10  2.08364978E+11  1.00963983E+10  2.08364667E+11
 shsum :  1.25410365E+10  2.28431675E+11  2.00666952E+10  2.28431364E+11
 shsum :  1.25410365E+10  2.28431675E+11   31.503525      2.28431364E+11
 shsum :  1.25410365E+10  2.28431675E+11   1.6318595      2.28431364E+11
 fin  2.28431675E+11  1.25410365E+10   18.575550    
   18.214737    
 -5.27733327E+13   18.575550    
 ezero   0.0000000    
  2.28431675E+11
  2.84101047E+14

Total energy input of :2.330E+11 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 2.284E+11 is absorbed (entot) 
                         through inelastic collisions (shsum =2.284E+11)
                                           + heating (elhsum =3.179E+05)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  18.58 eV (from qtoteV)
                                  or :  18.21 eV (from (entot))
                                  or :******* eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  60.0, longitude 330.0.

 REED : The energy degradation is computed from the center energies of the grid.
 REED : The energy degradation source term is interpolated linearly with tau.
 REED : The albedo at  80. km is set to 1.00
 REED : The low energy phase function is taken from Porter
 REED : Secondary distribution from Rees et al., PSS 17, 1997, 1969           
 REED : Wiscombe's delta-M method IS applied

 MAIN : The screening parameter for the Rutherford phase function is calculated
        from the Bethe/Moliere formula for E > 500 eV

 MAIN : The energy grid covers the range from : 0.001 [eV] up to :   287.9 [eV].

 MAIN : The total energy input from the precipitation source is : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]
                                  and from photoelectron source : 2.0381E+11 [eV/cm2/s]
                                                             or : 3.2654E-01 [erg/cm2/s]
 That variable "errorgaupin" is:           91

 MAIN : Total energy deposition in [CO2] is 1.568E+11 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 1.436E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 9.138E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 1.874E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 3.068E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 1.610E+00 [eV.cm-2.s-1] ("shsum").
  6.04058112E+08           2          21
  6.09610496E+08           2          23

 Total Heating :  3.008E+05 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  3.1493274E-03
 entot depart   300832.00       300832.00    
 shsum :  1.03712584E+10  1.56793750E+11  1.56793455E+11  1.56793455E+11
 shsum :  1.04905236E+10  1.71150639E+11  1.43568886E+10  1.71150344E+11
 shsum :  1.05465477E+10  1.80288700E+11  9.13806029E+09  1.80288406E+11
 shsum :  1.09580349E+10  1.99031489E+11  1.87427942E+10  1.99031194E+11
 shsum :  1.09580349E+10  1.99031489E+11   30.676901      1.99031194E+11
 shsum :  1.09580349E+10  1.99031489E+11   1.6096634      1.99031194E+11
 fin  1.99031489E+11  1.09580349E+10   18.599085    
   18.163063    
 -6.03969877E+13   18.599085    
 ezero   0.0000000    
  1.99031489E+11
  3.24730968E+14

Total energy input of :2.038E+11 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 1.990E+11 is absorbed (entot) 
                         through inelastic collisions (shsum =1.990E+11)
                                           + heating (elhsum =3.008E+05)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  18.60 eV (from qtoteV)
                                  or :  18.16 eV (from (entot))
                                  or :******* eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  45.0, longitude 335.0.

 REED : The energy degradation is computed from the center energies of the grid.
 REED : The energy degradation source term is interpolated linearly with tau.
 REED : The albedo at  80. km is set to 1.00
 REED : The low energy phase function is taken from Porter
 REED : Secondary distribution from Rees et al., PSS 17, 1997, 1969           
 REED : Wiscombe's delta-M method IS applied

 MAIN : The screening parameter for the Rutherford phase function is calculated
        from the Bethe/Moliere formula for E > 500 eV

 MAIN : The energy grid covers the range from : 0.001 [eV] up to :   287.9 [eV].

 MAIN : The total energy input from the precipitation source is : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]
                                  and from photoelectron source : 2.9979E+11 [eV/cm2/s]
                                                             or : 4.8033E-01 [erg/cm2/s]
 That variable "errorgaupin" is:           89

 MAIN : Total energy deposition in [CO2] is 2.410E+11 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 1.985E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 1.215E+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 3.374E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 1.705E+00 [eV.cm-2.s-1] ("shsum").
  6.74334336E+08           2          21
  6.81100672E+08           2          23

 Total Heating :  3.543E+05 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  4.2069368E-03
 entot depart   354347.75       354347.75    
 shsum :  1.54542899E+10  2.41011720E+11  2.41011360E+11  2.41011360E+11
 shsum :  1.56136069E+10  2.60858266E+11  1.98465393E+10  2.60857905E+11
 shsum :  1.56847165E+10  2.73012605E+11  1.21543332E+10  2.73012244E+11
 shsum :  1.61689969E+10  2.95693091E+11  2.26804941E+10  2.95692730E+11
 shsum :  1.61689969E+10  2.95693091E+11   33.742905      2.95692730E+11
 shsum :  1.61689969E+10  2.95693091E+11   1.7047848      2.95692730E+11
 fin  2.95693091E+11  1.61689969E+10   18.541145    
   18.287659    
 -4.09321792E+13   18.541145    
 ezero   0.0000000    
  2.95693091E+11
  2.20764037E+14

Total energy input of :2.998E+11 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 2.957E+11 is absorbed (entot) 
                         through inelastic collisions (shsum =2.957E+11)
                                           + heating (elhsum =3.543E+05)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  18.54 eV (from qtoteV)
                                  or :  18.29 eV (from (entot))
                                  or :******* eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  50.0, longitude 335.0.

 REED : The energy degradation is computed from the center energies of the grid.
 REED : The energy degradation source term is interpolated linearly with tau.
 REED : The albedo at  80. km is set to 1.00
 REED : The low energy phase function is taken from Porter
 REED : Secondary distribution from Rees et al., PSS 17, 1997, 1969           
 REED : Wiscombe's delta-M method IS applied

 MAIN : The screening parameter for the Rutherford phase function is calculated
        from the Bethe/Moliere formula for E > 500 eV

 MAIN : The energy grid covers the range from : 0.001 [eV] up to :   287.9 [eV].

 MAIN : The total energy input from the precipitation source is : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]
                                  and from photoelectron source : 2.7273E+11 [eV/cm2/s]
                                                             or : 4.3697E-01 [erg/cm2/s]
 That variable "errorgaupin" is:           87

 MAIN : Total energy deposition in [CO2] is 2.171E+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 1.134E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 2.167E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 3.319E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 1.692E+00 [eV.cm-2.s-1] ("shsum").
  6.58660736E+08           2          21
  6.65181952E+08           2          23

 Total Heating :  3.425E+05 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  3.9179176E-03
 entot depart   342514.31       342514.31    
 shsum :  1.40173537E+10  2.17088508E+11  2.17088164E+11  2.17088164E+11
 shsum :  1.41657262E+10  2.35436966E+11  1.83484621E+10  2.35436622E+11
 shsum :  1.42327296E+10  2.46772187E+11  1.13352264E+10  2.46771843E+11
 shsum :  1.46985083E+10  2.68446450E+11  2.16742687E+10  2.68446106E+11
 shsum :  1.46985083E+10  2.68446450E+11   33.189018      2.68446106E+11
 shsum :  1.46985083E+10  2.68446450E+11   1.6915679      2.68446106E+11
 fin  2.68446450E+11  1.46985083E+10   18.554876    
   18.263517    
 -4.50271746E+13   18.554876    
 ezero   0.0000000    
  2.68446450E+11
  2.42670300E+14

Total energy input of :2.727E+11 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 2.684E+11 is absorbed (entot) 
                         through inelastic collisions (shsum =2.684E+11)
                                           + heating (elhsum =3.425E+05)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  18.55 eV (from qtoteV)
                                  or :  18.26 eV (from (entot))
                                  or :******* eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  55.0, longitude 335.0.

 REED : The energy degradation is computed from the center energies of the grid.
 REED : The energy degradation source term is interpolated linearly with tau.
 REED : The albedo at  80. km is set to 1.00
 REED : The low energy phase function is taken from Porter
 REED : Secondary distribution from Rees et al., PSS 17, 1997, 1969           
 REED : Wiscombe's delta-M method IS applied

 MAIN : The screening parameter for the Rutherford phase function is calculated
        from the Bethe/Moliere formula for E > 500 eV

 MAIN : The energy grid covers the range from : 0.001 [eV] up to :   287.9 [eV].

 MAIN : The total energy input from the precipitation source is : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]
                                  and from photoelectron source : 2.4368E+11 [eV/cm2/s]
                                                             or : 3.9042E-01 [erg/cm2/s]
 That variable "errorgaupin" is:           89

 MAIN : Total energy deposition in [CO2] is 1.915E+11 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 1.670E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 1.043E+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 3.196E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 1.645E+00 [eV.cm-2.s-1] ("shsum").
  6.39190656E+08           2          21
  6.45433152E+08           2          23

 Total Heating :  3.263E+05 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  3.6007129E-03
 entot depart   326311.75       326311.75    
 shsum :  1.24786627E+10  1.91523226E+11  1.91522898E+11  1.91522898E+11
 shsum :  1.26150226E+10  2.08224813E+11  1.67015823E+10  2.08224485E+11
 shsum :  1.26774999E+10  2.18655359E+11  1.04305480E+10  2.18655031E+11
 shsum :  1.31219016E+10  2.39170945E+11  2.05155881E+10  2.39170617E+11
 shsum :  1.31219016E+10  2.39170945E+11   31.957575      2.39170617E+11
 shsum :  1.31219016E+10  2.39170945E+11   1.6448076      2.39170617E+11
 fin  2.39170945E+11  1.31219016E+10   18.570293    
   18.226851    
 -5.04372228E+13   18.570293    
 ezero   0.0000000    
  2.39170945E+11
  2.71601652E+14

Total energy input of :2.437E+11 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 2.392E+11 is absorbed (entot) 
                         through inelastic collisions (shsum =2.392E+11)
                                           + heating (elhsum =3.263E+05)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  18.57 eV (from qtoteV)
                                  or :  18.23 eV (from (entot))
                                  or :******* eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  60.0, longitude 335.0.

 REED : The energy degradation is computed from the center energies of the grid.
 REED : The energy degradation source term is interpolated linearly with tau.
 REED : The albedo at  80. km is set to 1.00
 REED : The low energy phase function is taken from Porter
 REED : Secondary distribution from Rees et al., PSS 17, 1997, 1969           
 REED : Wiscombe's delta-M method IS applied

 MAIN : The screening parameter for the Rutherford phase function is calculated
        from the Bethe/Moliere formula for E > 500 eV

 MAIN : The energy grid covers the range from : 0.001 [eV] up to :   287.9 [eV].

 MAIN : The total energy input from the precipitation source is : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]
                                  and from photoelectron source : 2.1319E+11 [eV/cm2/s]
                                                             or : 3.4158E-01 [erg/cm2/s]
 That variable "errorgaupin" is:          104

 MAIN : Total energy deposition in [CO2] is 1.649E+11 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 1.492E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 9.446E+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 3.108E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 1.621E+00 [eV.cm-2.s-1] ("shsum").
  6.14128832E+08           2          21
  6.20023360E+08           2          23

 Total Heating :  3.086E+05 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  3.2591533E-03
 entot depart   308603.00       308603.00    
 shsum :  1.08658985E+10  1.64878205E+11  1.64877894E+11  1.64877894E+11
 shsum :  1.09893233E+10  1.79800998E+11  1.49227960E+10  1.79800687E+11
 shsum :  1.10468915E+10  1.89246669E+11  9.44566272E+09  1.89246341E+11
 shsum :  1.14666035E+10  2.08429531E+11  1.91828664E+10  2.08429203E+11
 shsum :  1.14666035E+10  2.08429531E+11   31.083845      2.08429203E+11
 shsum :  1.14666035E+10  2.08429531E+11   1.6210372      2.08429203E+11
 fin  2.08429531E+11  1.14666035E+10   18.592445    
   18.177094    
 -5.77182494E+13   18.592445    
 ezero   0.0000000    
  2.08429531E+11
  3.10439263E+14

Total energy input of :2.132E+11 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 2.084E+11 is absorbed (entot) 
                         through inelastic collisions (shsum =2.084E+11)
                                           + heating (elhsum =3.086E+05)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  18.59 eV (from qtoteV)
                                  or :  18.18 eV (from (entot))
                                  or :******* eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  45.0, longitude 340.0.

 REED : The energy degradation is computed from the center energies of the grid.
 REED : The energy degradation source term is interpolated linearly with tau.
 REED : The albedo at  80. km is set to 1.00
 REED : The low energy phase function is taken from Porter
 REED : Secondary distribution from Rees et al., PSS 17, 1997, 1969           
 REED : Wiscombe's delta-M method IS applied

 MAIN : The screening parameter for the Rutherford phase function is calculated
        from the Bethe/Moliere formula for E > 500 eV

 MAIN : The energy grid covers the range from : 0.001 [eV] up to :   287.9 [eV].

 MAIN : The total energy input from the precipitation source is : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]
                                  and from photoelectron source : 3.1084E+11 [eV/cm2/s]
                                                             or : 4.9803E-01 [erg/cm2/s]
 That variable "errorgaupin" is:           98

 MAIN : Total energy deposition in [CO2] is 2.508E+11 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 2.043E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 1.248E+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 3.413E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 1.715E+00 [eV.cm-2.s-1] ("shsum").
  6.82339136E+08           2          21
  6.89470144E+08           2          23

 Total Heating :  3.616E+05 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  4.3194233E-03
 entot depart   361572.84       361572.84    
 shsum :  1.60424755E+10  2.50783367E+11  2.50783007E+11  2.50783007E+11
 shsum :  1.62060534E+10  2.71211414E+11  2.04280504E+10  2.71211053E+11
 shsum :  1.62788024E+10  2.83690566E+11  1.24791398E+10  2.83690205E+11
 shsum :  1.67701422E+10  3.06755273E+11  2.30646989E+10  3.06754912E+11
 shsum :  1.67701422E+10  3.06755273E+11   34.125904      3.06754912E+11
 shsum :  1.67701422E+10  3.06755273E+11   1.7151232      3.06754912E+11
 fin  3.06755273E+11  1.67701422E+10   18.535366    
   18.291752    
 -3.94649194E+13   18.535366    
 ezero   0.0000000    
  3.06755273E+11
  2.12916863E+14

Total energy input of :3.108E+11 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 3.068E+11 is absorbed (entot) 
                         through inelastic collisions (shsum =3.068E+11)
                                           + heating (elhsum =3.616E+05)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  18.54 eV (from qtoteV)
                                  or :  18.29 eV (from (entot))
                                  or :******* eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  50.0, longitude 340.0.

 REED : The energy degradation is computed from the center energies of the grid.
 REED : The energy degradation source term is interpolated linearly with tau.
 REED : The albedo at  80. km is set to 1.00
 REED : The low energy phase function is taken from Porter
 REED : Secondary distribution from Rees et al., PSS 17, 1997, 1969           
 REED : Wiscombe's delta-M method IS applied

 MAIN : The screening parameter for the Rutherford phase function is calculated
        from the Bethe/Moliere formula for E > 500 eV

 MAIN : The energy grid covers the range from : 0.001 [eV] up to :   287.9 [eV].

 MAIN : The total energy input from the precipitation source is : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]
                                  and from photoelectron source : 2.8277E+11 [eV/cm2/s]
                                                             or : 4.5305E-01 [erg/cm2/s]
 That variable "errorgaupin" is:          100

 MAIN : Total energy deposition in [CO2] is 2.259E+11 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 1.889E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 1.164E+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 3.357E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 1.702E+00 [eV.cm-2.s-1] ("shsum").
  6.66783104E+08           2          21
  6.73672320E+08           2          23

 Total Heating :  3.496E+05 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  4.0228320E-03
 entot depart   349633.69       349633.69    
 shsum :  1.45505219E+10  2.25906442E+11  2.25906098E+11  2.25906098E+11
 shsum :  1.47028675E+10  2.44797342E+11  1.88908995E+10  2.44796998E+11
 shsum :  1.47714345E+10  2.56441942E+11  1.16445983E+10  2.56441598E+11
 shsum :  1.52441395E+10  2.78491857E+11  2.20499169E+10  2.78491529E+11
 shsum :  1.52441395E+10  2.78491857E+11   33.565285      2.78491529E+11
 shsum :  1.52441395E+10  2.78491857E+11   1.7017705      2.78491529E+11
 fin  2.78491857E+11  1.52441395E+10   18.549141    
   18.268782    
 -4.34155217E+13   18.549141    
 ezero   0.0000000    
  2.78491857E+11
  2.34056793E+14

Total energy input of :2.828E+11 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 2.785E+11 is absorbed (entot) 
                         through inelastic collisions (shsum =2.785E+11)
                                           + heating (elhsum =3.496E+05)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  18.55 eV (from qtoteV)
                                  or :  18.27 eV (from (entot))
                                  or :******* eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  55.0, longitude 340.0.

 REED : The energy degradation is computed from the center energies of the grid.
 REED : The energy degradation source term is interpolated linearly with tau.
 REED : The albedo at  80. km is set to 1.00
 REED : The low energy phase function is taken from Porter
 REED : Secondary distribution from Rees et al., PSS 17, 1997, 1969           
 REED : Wiscombe's delta-M method IS applied

 MAIN : The screening parameter for the Rutherford phase function is calculated
        from the Bethe/Moliere formula for E > 500 eV

 MAIN : The energy grid covers the range from : 0.001 [eV] up to :   287.9 [eV].

 MAIN : The total energy input from the precipitation source is : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]
                                  and from photoelectron source : 2.5262E+11 [eV/cm2/s]
                                                             or : 4.0475E-01 [erg/cm2/s]
 That variable "errorgaupin" is:           97

 MAIN : Total energy deposition in [CO2] is 1.993E+11 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 1.720E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 1.072E+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 3.286E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 1.684E+00 [eV.cm-2.s-1] ("shsum").
  6.47254784E+08           2          21
  6.53851584E+08           2          23

 Total Heating :  3.351E+05 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  3.6970431E-03
 entot depart   335061.47       335061.47    
 shsum :  1.29521971E+10  1.99324041E+11  1.99323714E+11  1.99323714E+11
 shsum :  1.30922045E+10  2.16523211E+11  1.71991757E+10  2.16522883E+11
 shsum :  1.31561298E+10  2.27240116E+11  1.07169126E+10  2.27239789E+11
 shsum :  1.36072806E+10  2.48119738E+11  2.08796221E+10  2.48119411E+11
 shsum :  1.36072806E+10  2.48119738E+11   32.861069      2.48119411E+11
 shsum :  1.36072806E+10  2.48119738E+11   1.6837401      2.48119411E+11
 fin  2.48119738E+11  1.36072806E+10   18.565151    
   18.234337    
 -4.86381013E+13   18.565151    
 ezero   0.0000000    
  2.48119738E+11
  2.61986009E+14

Total energy input of :2.526E+11 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 2.481E+11 is absorbed (entot) 
                         through inelastic collisions (shsum =2.481E+11)
                                           + heating (elhsum =3.351E+05)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  18.57 eV (from qtoteV)
                                  or :  18.23 eV (from (entot))
                                  or :******* eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  60.0, longitude 340.0.

 REED : The energy degradation is computed from the center energies of the grid.
 REED : The energy degradation source term is interpolated linearly with tau.
 REED : The albedo at  80. km is set to 1.00
 REED : The low energy phase function is taken from Porter
 REED : Secondary distribution from Rees et al., PSS 17, 1997, 1969           
 REED : Wiscombe's delta-M method IS applied

 MAIN : The screening parameter for the Rutherford phase function is calculated
        from the Bethe/Moliere formula for E > 500 eV

 MAIN : The energy grid covers the range from : 0.001 [eV] up to :   287.9 [eV].

 MAIN : The total energy input from the precipitation source is : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]
                                  and from photoelectron source : 2.2099E+11 [eV/cm2/s]
                                                             or : 3.5407E-01 [erg/cm2/s]
 That variable "errorgaupin" is:          106

 MAIN : Total energy deposition in [CO2] is 1.716E+11 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 1.537E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 9.700E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 1.953E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 3.195E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 1.659E+00 [eV.cm-2.s-1] ("shsum").
  6.22134976E+08           2          21
  6.28355264E+08           2          23

 Total Heating :  3.167E+05 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  3.3455174E-03
 entot depart   316719.03       316719.03    
 shsum :  1.12778342E+10  1.71631755E+11  1.71631444E+11  1.71631444E+11
 shsum :  1.14045297E+10  1.87001799E+11  1.53700444E+10  1.87001487E+11
 shsum :  1.14633718E+10  1.96702077E+11  9.70028134E+09  1.96701766E+11
 shsum :  1.18895596E+10  2.16232690E+11  1.95306209E+10  2.16232395E+11
 shsum :  1.18895596E+10  2.16232690E+11   31.946726      2.16232395E+11
 shsum :  1.18895596E+10  2.16232690E+11   1.6587284      2.16232395E+11
 fin  2.16232690E+11  1.18895596E+10   18.586908    
   18.186769    
 -5.56649949E+13   18.586908    
 ezero   0.0000000    
  2.16232690E+11
  2.99484949E+14

Total energy input of :2.210E+11 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 2.162E+11 is absorbed (entot) 
                         through inelastic collisions (shsum =2.162E+11)
                                           + heating (elhsum =3.167E+05)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  18.59 eV (from qtoteV)
                                  or :  18.19 eV (from (entot))
                                  or :******* eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  45.0, longitude 345.0.

 REED : The energy degradation is computed from the center energies of the grid.
 REED : The energy degradation source term is interpolated linearly with tau.
 REED : The albedo at  80. km is set to 1.00
 REED : The low energy phase function is taken from Porter
 REED : Secondary distribution from Rees et al., PSS 17, 1997, 1969           
 REED : Wiscombe's delta-M method IS applied

 MAIN : The screening parameter for the Rutherford phase function is calculated
        from the Bethe/Moliere formula for E > 500 eV

 MAIN : The energy grid covers the range from : 0.001 [eV] up to :   287.9 [eV].

 MAIN : The total energy input from the precipitation source is : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]
                                  and from photoelectron source : 3.1954E+11 [eV/cm2/s]
                                                             or : 5.1197E-01 [erg/cm2/s]
 That variable "errorgaupin" is:           81

 MAIN : Total energy deposition in [CO2] is 2.584E+11 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 2.092E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 1.273E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 2.338E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 3.440E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 1.722E+00 [eV.cm-2.s-1] ("shsum").
  6.88041664E+08           2          21
  6.95487232E+08           2          23

 Total Heating :  3.669E+05 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  4.4155470E-03
 entot depart   366874.25       366874.25    
 shsum :  1.65046528E+10  2.58417394E+11  2.58417033E+11  2.58417033E+11
 shsum :  1.66718700E+10  2.79341007E+11  2.09236234E+10  2.79340646E+11
 shsum :  1.67458765E+10  2.92067672E+11  1.27266775E+10  2.92067312E+11
 shsum :  1.72431258E+10  3.15451802E+11  2.33841418E+10  3.15451441E+11
 shsum :  1.72431258E+10  3.15451802E+11   34.396454      3.15451441E+11
 shsum :  1.72431258E+10  3.15451802E+11   1.7216470      3.15451441E+11
 fin  3.15451802E+11  1.72431258E+10   18.531546    
   18.294352    
 -3.83823863E+13   18.531546    
 ezero   0.0000000    
  3.15451802E+11
  2.07119177E+14

Total energy input of :3.195E+11 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 3.155E+11 is absorbed (entot) 
                         through inelastic collisions (shsum =3.155E+11)
                                           + heating (elhsum =3.669E+05)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  18.53 eV (from qtoteV)
                                  or :  18.29 eV (from (entot))
                                  or :******* eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  50.0, longitude 345.0.

 REED : The energy degradation is computed from the center energies of the grid.
 REED : The energy degradation source term is interpolated linearly with tau.
 REED : The albedo at  80. km is set to 1.00
 REED : The low energy phase function is taken from Porter
 REED : Secondary distribution from Rees et al., PSS 17, 1997, 1969           
 REED : Wiscombe's delta-M method IS applied

 MAIN : The screening parameter for the Rutherford phase function is calculated
        from the Bethe/Moliere formula for E > 500 eV

 MAIN : The energy grid covers the range from : 0.001 [eV] up to :   287.9 [eV].

 MAIN : The total energy input from the precipitation source is : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]
                                  and from photoelectron source : 2.9068E+11 [eV/cm2/s]
                                                             or : 4.6572E-01 [erg/cm2/s]
 That variable "errorgaupin" is:           96

 MAIN : Total energy deposition in [CO2] is 2.329E+11 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 1.931E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 1.188E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 2.234E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 3.383E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 1.708E+00 [eV.cm-2.s-1] ("shsum").
  6.72822144E+08           2          21
  6.80020736E+08           2          23

 Total Heating :  3.549E+05 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  4.1040303E-03
 entot depart   354879.09       354879.09    
 shsum :  1.49711084E+10  2.32864973E+11  2.32864612E+11  2.32864612E+11
 shsum :  1.51265290E+10  2.52175466E+11  1.93104916E+10  2.52175106E+11
 shsum :  1.51962829E+10  2.64054784E+11  1.18793165E+10  2.64054424E+11
 shsum :  1.56743311E+10  2.86394253E+11  2.23394816E+10  2.86393893E+11
 shsum :  1.56743311E+10  2.86394253E+11   33.831413      2.86393893E+11
 shsum :  1.56743311E+10  2.86394253E+11   1.7082484      2.86393893E+11
 fin  2.86394253E+11  1.56743311E+10   18.544796    
   18.271545    
 -4.22239577E+13   18.544796    
 ezero   0.0000000    
  2.86394253E+11
  2.27686299E+14

Total energy input of :2.907E+11 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 2.864E+11 is absorbed (entot) 
                         through inelastic collisions (shsum =2.864E+11)
                                           + heating (elhsum =3.549E+05)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  18.54 eV (from qtoteV)
                                  or :  18.27 eV (from (entot))
                                  or :******* eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  55.0, longitude 345.0.

 REED : The energy degradation is computed from the center energies of the grid.
 REED : The energy degradation source term is interpolated linearly with tau.
 REED : The albedo at  80. km is set to 1.00
 REED : The low energy phase function is taken from Porter
 REED : Secondary distribution from Rees et al., PSS 17, 1997, 1969           
 REED : Wiscombe's delta-M method IS applied

 MAIN : The screening parameter for the Rutherford phase function is calculated
        from the Bethe/Moliere formula for E > 500 eV

 MAIN : The energy grid covers the range from : 0.001 [eV] up to :   287.9 [eV].

 MAIN : The total energy input from the precipitation source is : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]
                                  and from photoelectron source : 2.5967E+11 [eV/cm2/s]
                                                             or : 4.1605E-01 [erg/cm2/s]
 That variable "errorgaupin" is:           88

 MAIN : Total energy deposition in [CO2] is 2.055E+11 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 1.758E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 1.094E+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 3.311E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 1.690E+00 [eV.cm-2.s-1] ("shsum").
  6.53395712E+08           2          21
  6.60267008E+08           2          23

 Total Heating :  3.400E+05 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  3.7709076E-03
 entot depart   339983.91       339983.91    
 shsum :  1.33259203E+10  2.05484311E+11  2.05483966E+11  2.05483966E+11
 shsum :  1.34687252E+10  2.23065276E+11  1.75809618E+10  2.23064932E+11
 shsum :  1.35337759E+10  2.34003628E+11  1.09383557E+10  2.34003284E+11
 shsum :  1.39900662E+10  2.55160287E+11  2.11566592E+10  2.55159943E+11
 shsum :  1.39900662E+10  2.55160287E+11   33.106529      2.55159943E+11
 shsum :  1.39900662E+10  2.55160287E+11   1.6896515      2.55159943E+11
 fin  2.55160287E+11  1.39900662E+10   18.561138    
   18.238676    
 -4.73073032E+13   18.561138    
 ezero   0.0000000    
  2.55160287E+11
  2.54872855E+14

Total energy input of :2.597E+11 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 2.552E+11 is absorbed (entot) 
                         through inelastic collisions (shsum =2.552E+11)
                                           + heating (elhsum =3.400E+05)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  18.56 eV (from qtoteV)
                                  or :  18.24 eV (from (entot))
                                  or :******* eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  60.0, longitude 345.0.

 REED : The energy degradation is computed from the center energies of the grid.
 REED : The energy degradation source term is interpolated linearly with tau.
 REED : The albedo at  80. km is set to 1.00
 REED : The low energy phase function is taken from Porter
 REED : Secondary distribution from Rees et al., PSS 17, 1997, 1969           
 REED : Wiscombe's delta-M method IS applied

 MAIN : The screening parameter for the Rutherford phase function is calculated
        from the Bethe/Moliere formula for E > 500 eV

 MAIN : The energy grid covers the range from : 0.001 [eV] up to :   287.9 [eV].

 MAIN : The total energy input from the precipitation source is : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]
                                  and from photoelectron source : 2.2695E+11 [eV/cm2/s]
                                                             or : 3.6362E-01 [erg/cm2/s]
 That variable "errorgaupin" is:           69

 MAIN : Total energy deposition in [CO2] is 1.768E+11 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 1.571E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 9.902E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 1.980E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 3.217E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 1.664E+00 [eV.cm-2.s-1] ("shsum").
  6.28231680E+08           2          21
  6.34678208E+08           2          23

 Total Heating :  3.212E+05 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  3.4105973E-03
 entot depart   321235.63       321235.63    
 shsum :  1.15948329E+10  1.76776348E+11  1.76776020E+11  1.76776020E+11
 shsum :  1.17239931E+10  1.92484573E+11  1.57082204E+10  1.92484246E+11
 shsum :  1.17838582E+10  2.02386407E+11  9.90183424E+09  2.02386080E+11
 shsum :  1.22149878E+10  2.22182179E+11  1.97957775E+10  2.22181851E+11
 shsum :  1.22149878E+10  2.22182179E+11   32.166473      2.22181851E+11
 shsum :  1.22149878E+10  2.22182179E+11   1.6638739      2.22181851E+11
 fin  2.22182179E+11  1.22149878E+10   18.579416    
   18.189308    
 -5.41819855E+13   18.579416    
 ezero   0.0000000    
  2.22182179E+11
  2.91623716E+14

Total energy input of :2.269E+11 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 2.222E+11 is absorbed (entot) 
                         through inelastic collisions (shsum =2.222E+11)
                                           + heating (elhsum =3.212E+05)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  18.58 eV (from qtoteV)
                                  or :  18.19 eV (from (entot))
                                  or :******* eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  45.0, longitude 350.0.

 REED : The energy degradation is computed from the center energies of the grid.
 REED : The energy degradation source term is interpolated linearly with tau.
 REED : The albedo at  80. km is set to 1.00
 REED : The low energy phase function is taken from Porter
 REED : Secondary distribution from Rees et al., PSS 17, 1997, 1969           
 REED : Wiscombe's delta-M method IS applied

 MAIN : The screening parameter for the Rutherford phase function is calculated
        from the Bethe/Moliere formula for E > 500 eV

 MAIN : The energy grid covers the range from : 0.001 [eV] up to :   287.9 [eV].

 MAIN : The total energy input from the precipitation source is : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]
                                  and from photoelectron source : 3.2583E+11 [eV/cm2/s]
                                                             or : 5.2204E-01 [erg/cm2/s]
 That variable "errorgaupin" is:           85

 MAIN : Total energy deposition in [CO2] is 2.639E+11 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 2.128E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 1.291E+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 3.456E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 1.725E+00 [eV.cm-2.s-1] ("shsum").
  6.91941696E+08           2          21
  6.99588032E+08           2          23

 Total Heating :  3.703E+05 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  4.4851010E-03
 entot depart   370288.00       370288.00    
 shsum :  1.68387308E+10  2.63927382E+11  2.63927005E+11  2.63927005E+11
 shsum :  1.70085827E+10  2.85206184E+11  2.12788081E+10  2.85205823E+11
 shsum :  1.70834852E+10  2.98111271E+11  1.29051023E+10  2.98110910E+11
 shsum :  1.75848407E+10  3.21717764E+11  2.36065055E+10  3.21717404E+11
 shsum :  1.75848407E+10  3.21717764E+11   34.559387      3.21717404E+11
 shsum :  1.75848407E+10  3.21717764E+11   1.7245986      3.21717404E+11
 fin  3.21717764E+11  1.75848407E+10   18.528765    
   18.295176    
 -3.76365258E+13   18.528765    
 ezero   0.0000000    
  3.21717764E+11
  2.03124841E+14

Total energy input of :3.258E+11 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 3.217E+11 is absorbed (entot) 
                         through inelastic collisions (shsum =3.217E+11)
                                           + heating (elhsum =3.703E+05)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  18.53 eV (from qtoteV)
                                  or :  18.30 eV (from (entot))
                                  or :******* eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  50.0, longitude 350.0.

 REED : The energy degradation is computed from the center energies of the grid.
 REED : The energy degradation source term is interpolated linearly with tau.
 REED : The albedo at  80. km is set to 1.00
 REED : The low energy phase function is taken from Porter
 REED : Secondary distribution from Rees et al., PSS 17, 1997, 1969           
 REED : Wiscombe's delta-M method IS applied

 MAIN : The screening parameter for the Rutherford phase function is calculated
        from the Bethe/Moliere formula for E > 500 eV

 MAIN : The energy grid covers the range from : 0.001 [eV] up to :   287.9 [eV].

 MAIN : The total energy input from the precipitation source is : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]
                                  and from photoelectron source : 2.9639E+11 [eV/cm2/s]
                                                             or : 4.7488E-01 [erg/cm2/s]
 That variable "errorgaupin" is:           94

 MAIN : Total energy deposition in [CO2] is 2.378E+11 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 1.965E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 1.205E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 2.257E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 3.399E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 1.711E+00 [eV.cm-2.s-1] ("shsum").
  6.76786112E+08           2          21
  6.84212288E+08           2          23

 Total Heating :  3.583E+05 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  4.1707731E-03
 entot depart   358307.38       358307.38    
 shsum :  1.52738099E+10  2.37821624E+11  2.37821264E+11  2.37821264E+11
 shsum :  1.54317578E+10  2.57475723E+11  1.96541030E+10  2.57475363E+11
 shsum :  1.55023647E+10  2.69521551E+11  1.20458342E+10  2.69521191E+11
 shsum :  1.59846472E+10  2.92088381E+11  2.25668280E+10  2.92088021E+11
 shsum :  1.59846472E+10  2.92088381E+11   33.993603      2.92088021E+11
 shsum :  1.59846472E+10  2.92088381E+11   1.7113311      2.92088021E+11
 fin  2.92088381E+11  1.59846472E+10   18.542313    
   18.273058    
 -4.14042481E+13   18.542313    
 ezero   0.0000000    
  2.92088381E+11
  2.23296021E+14

Total energy input of :2.964E+11 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 2.921E+11 is absorbed (entot) 
                         through inelastic collisions (shsum =2.921E+11)
                                           + heating (elhsum =3.583E+05)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  18.54 eV (from qtoteV)
                                  or :  18.27 eV (from (entot))
                                  or :******* eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  55.0, longitude 350.0.

 REED : The energy degradation is computed from the center energies of the grid.
 REED : The energy degradation source term is interpolated linearly with tau.
 REED : The albedo at  80. km is set to 1.00
 REED : The low energy phase function is taken from Porter
 REED : Secondary distribution from Rees et al., PSS 17, 1997, 1969           
 REED : Wiscombe's delta-M method IS applied

 MAIN : The screening parameter for the Rutherford phase function is calculated
        from the Bethe/Moliere formula for E > 500 eV

 MAIN : The energy grid covers the range from : 0.001 [eV] up to :   287.9 [eV].

 MAIN : The total energy input from the precipitation source is : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]
                                  and from photoelectron source : 2.6477E+11 [eV/cm2/s]
                                                             or : 4.2422E-01 [erg/cm2/s]
 That variable "errorgaupin" is:           91

 MAIN : Total energy deposition in [CO2] is 2.099E+11 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 1.787E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 1.109E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 2.136E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 3.326E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 1.693E+00 [eV.cm-2.s-1] ("shsum").
  6.57489472E+08           2          21
  6.64584192E+08           2          23

 Total Heating :  3.433E+05 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  3.8262943E-03
 entot depart   343253.66       343253.66    
 shsum :  1.35962051E+10  2.09919099E+11  2.09918755E+11  2.09918755E+11
 shsum :  1.37411072E+10  2.27785671E+11  1.78665697E+10  2.27785327E+11
 shsum :  1.38069350E+10  2.38877000E+11  1.10913300E+10  2.38876656E+11
 shsum :  1.42670551E+10  2.60239557E+11  2.13625631E+10  2.60239213E+11
 shsum :  1.42670551E+10  2.60239557E+11   33.259262      2.60239213E+11
 shsum :  1.42670551E+10  2.60239557E+11   1.6925018      2.60239213E+11
 fin  2.60239557E+11  1.42670551E+10   18.558292    
   18.240593    
 -4.63888512E+13   18.558292    
 ezero   0.0000000    
  2.60239557E+11
  2.49962936E+14

Total energy input of :2.648E+11 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 2.602E+11 is absorbed (entot) 
                         through inelastic collisions (shsum =2.602E+11)
                                           + heating (elhsum =3.433E+05)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  18.56 eV (from qtoteV)
                                  or :  18.24 eV (from (entot))
                                  or :******* eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  60.0, longitude 350.0.

 REED : The energy degradation is computed from the center energies of the grid.
 REED : The energy degradation source term is interpolated linearly with tau.
 REED : The albedo at  80. km is set to 1.00
 REED : The low energy phase function is taken from Porter
 REED : Secondary distribution from Rees et al., PSS 17, 1997, 1969           
 REED : Wiscombe's delta-M method IS applied

 MAIN : The screening parameter for the Rutherford phase function is calculated
        from the Bethe/Moliere formula for E > 500 eV

 MAIN : The energy grid covers the range from : 0.001 [eV] up to :   287.9 [eV].

 MAIN : The total energy input from the precipitation source is : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]
                                  and from photoelectron source : 2.3137E+11 [eV/cm2/s]
                                                             or : 3.7070E-01 [erg/cm2/s]
 That variable "errorgaupin" is:           90

 MAIN : Total energy deposition in [CO2] is 1.806E+11 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 1.595E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 1.004E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 1.999E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 3.230E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 1.666E+00 [eV.cm-2.s-1] ("shsum").
  6.32453568E+08           2          21
  6.39068736E+08           2          23

 Total Heating :  3.242E+05 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  3.4577758E-03
 entot depart   324219.25       324219.25    
 shsum :  1.18292224E+10  1.80605190E+11  1.80604862E+11  1.80604862E+11
 shsum :  1.19601695E+10  1.96558225E+11  1.59530435E+10  1.96557898E+11
 shsum :  1.20207544E+10  2.06601732E+11  1.00435139E+10  2.06601404E+11
 shsum :  1.24554486E+10  2.26588344E+11  1.99866081E+10  2.26588017E+11
 shsum :  1.24554486E+10  2.26588344E+11   32.300972      2.26588017E+11
 shsum :  1.24554486E+10  2.26588344E+11   1.6663015      2.26588017E+11
 fin  2.26588344E+11  1.24554486E+10   18.575771    
   18.191906    
 -5.31359638E+13   18.575771    
 ezero   0.0000000    
  2.26588344E+11
  2.86049822E+14

Total energy input of :2.314E+11 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 2.266E+11 is absorbed (entot) 
                         through inelastic collisions (shsum =2.266E+11)
                                           + heating (elhsum =3.242E+05)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  18.58 eV (from qtoteV)
                                  or :  18.19 eV (from (entot))
                                  or :******* eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  45.0, longitude 355.0.

 REED : The energy degradation is computed from the center energies of the grid.
 REED : The energy degradation source term is interpolated linearly with tau.
 REED : The albedo at  80. km is set to 1.00
 REED : The low energy phase function is taken from Porter
 REED : Secondary distribution from Rees et al., PSS 17, 1997, 1969           
 REED : Wiscombe's delta-M method IS applied

 MAIN : The screening parameter for the Rutherford phase function is calculated
        from the Bethe/Moliere formula for E > 500 eV

 MAIN : The energy grid covers the range from : 0.001 [eV] up to :   287.9 [eV].

 MAIN : The total energy input from the precipitation source is : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]
                                  and from photoelectron source : 3.2964E+11 [eV/cm2/s]
                                                             or : 5.2815E-01 [erg/cm2/s]
 That variable "errorgaupin" is:           93

 MAIN : Total energy deposition in [CO2] is 2.673E+11 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 2.148E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 1.301E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 2.374E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 3.462E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 1.724E+00 [eV.cm-2.s-1] ("shsum").
  6.94116096E+08           2          21
  7.01891776E+08           2          23

 Total Heating :  3.719E+05 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  4.5250449E-03
 entot depart   371944.50       371944.50    
 shsum :  1.70417439E+10  2.67276501E+11  2.67276124E+11  2.67276124E+11
 shsum :  1.72131082E+10  2.88758890E+11  2.14823997E+10  2.88758530E+11
 shsum :  1.72885258E+10  3.01767426E+11  1.30085499E+10  3.01767066E+11
 shsum :  1.77923174E+10  3.25505253E+11  2.37378355E+10  3.25504893E+11
 shsum :  1.77923174E+10  3.25505253E+11   34.620289      3.25504893E+11
 shsum :  1.77923174E+10  3.25505253E+11   1.7243652      3.25504893E+11
 fin  3.25505253E+11  1.77923174E+10   18.526987    
   18.294708    
 -3.71976422E+13   18.526987    
 ezero   0.0000000    
  3.25505253E+11
  2.00775444E+14

Total energy input of :3.296E+11 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 3.255E+11 is absorbed (entot) 
                         through inelastic collisions (shsum =3.255E+11)
                                           + heating (elhsum =3.719E+05)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  18.53 eV (from qtoteV)
                                  or :  18.29 eV (from (entot))
                                  or :******* eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  50.0, longitude 355.0.

 REED : The energy degradation is computed from the center energies of the grid.
 REED : The energy degradation source term is interpolated linearly with tau.
 REED : The albedo at  80. km is set to 1.00
 REED : The low energy phase function is taken from Porter
 REED : Secondary distribution from Rees et al., PSS 17, 1997, 1969           
 REED : Wiscombe's delta-M method IS applied

 MAIN : The screening parameter for the Rutherford phase function is calculated
        from the Bethe/Moliere formula for E > 500 eV

 MAIN : The energy grid covers the range from : 0.001 [eV] up to :   287.9 [eV].

 MAIN : The total energy input from the precipitation source is : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]
                                  and from photoelectron source : 2.9986E+11 [eV/cm2/s]
                                                             or : 4.8044E-01 [erg/cm2/s]
 That variable "errorgaupin" is:           82

 MAIN : Total energy deposition in [CO2] is 2.408E+11 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 1.985E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 1.215E+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 3.406E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 1.711E+00 [eV.cm-2.s-1] ("shsum").
  6.79143424E+08           2          21
  6.86701376E+08           2          23

 Total Heating :  3.600E+05 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  4.2087971E-03
 entot depart   360011.88       360011.88    
 shsum :  1.54579395E+10  2.40839164E+11  2.40838803E+11  2.40838803E+11
 shsum :  1.56173271E+10  2.60686381E+11  1.98472151E+10  2.60686021E+11
 shsum :  1.56884378E+10  2.72832971E+11  1.21465856E+10  2.72832610E+11
 shsum :  1.61730796E+10  2.95526957E+11  2.26939740E+10  2.95526597E+11
 shsum :  1.61730796E+10  2.95526957E+11   34.059280      2.95526597E+11
 shsum :  1.61730796E+10  2.95526957E+11   1.7113057      2.95526597E+11
 fin  2.95526957E+11  1.61730796E+10   18.540682    
   18.272770    
 -4.09218486E+13   18.540682    
 ezero   0.0000000    
  2.95526957E+11
  2.20713823E+14

Total energy input of :2.999E+11 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 2.955E+11 is absorbed (entot) 
                         through inelastic collisions (shsum =2.955E+11)
                                           + heating (elhsum =3.600E+05)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  18.54 eV (from qtoteV)
                                  or :  18.27 eV (from (entot))
                                  or :******* eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  55.0, longitude 355.0.

 REED : The energy degradation is computed from the center energies of the grid.
 REED : The energy degradation source term is interpolated linearly with tau.
 REED : The albedo at  80. km is set to 1.00
 REED : The low energy phase function is taken from Porter
 REED : Secondary distribution from Rees et al., PSS 17, 1997, 1969           
 REED : Wiscombe's delta-M method IS applied

 MAIN : The screening parameter for the Rutherford phase function is calculated
        from the Bethe/Moliere formula for E > 500 eV

 MAIN : The energy grid covers the range from : 0.001 [eV] up to :   287.9 [eV].

 MAIN : The total energy input from the precipitation source is : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]
                                  and from photoelectron source : 2.6786E+11 [eV/cm2/s]
                                                             or : 4.2916E-01 [erg/cm2/s]
 That variable "errorgaupin" is:           80

 MAIN : Total energy deposition in [CO2] is 2.126E+11 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 1.806E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 1.119E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 2.149E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 3.332E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 1.692E+00 [eV.cm-2.s-1] ("shsum").
  6.59850496E+08           2          21
  6.67089920E+08           2          23

 Total Heating :  3.449E+05 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  3.8631642E-03
 entot depart   344858.69       344858.69    
 shsum :  1.37590538E+10  2.12565295E+11  2.12564951E+11  2.12564951E+11
 shsum :  1.39053527E+10  2.30621397E+11  1.80560978E+10  2.30621053E+11
 shsum :  1.39716649E+10  2.41806868E+11  1.11854766E+10  2.41806524E+11
 shsum :  1.44342159E+10  2.63299334E+11  2.14924575E+10  2.63298974E+11
 shsum :  1.44342159E+10  2.63299334E+11   33.319145      2.63298974E+11
 shsum :  1.44342159E+10  2.63299334E+11   1.6924376      2.63298974E+11
 fin  2.63299334E+11  1.44342159E+10   18.557259    
   18.241333    
 -4.58516280E+13   18.557259    
 ezero   0.0000000    
  2.63299334E+11
  2.47081885E+14

Total energy input of :2.679E+11 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 2.633E+11 is absorbed (entot) 
                         through inelastic collisions (shsum =2.633E+11)
                                           + heating (elhsum =3.449E+05)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  18.56 eV (from qtoteV)
                                  or :  18.24 eV (from (entot))
                                  or :******* eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  60.0, longitude 355.0.

 REED : The energy degradation is computed from the center energies of the grid.
 REED : The energy degradation source term is interpolated linearly with tau.
 REED : The albedo at  80. km is set to 1.00
 REED : The low energy phase function is taken from Porter
 REED : Secondary distribution from Rees et al., PSS 17, 1997, 1969           
 REED : Wiscombe's delta-M method IS applied

 MAIN : The screening parameter for the Rutherford phase function is calculated
        from the Bethe/Moliere formula for E > 500 eV

 MAIN : The energy grid covers the range from : 0.001 [eV] up to :   287.9 [eV].

 MAIN : The total energy input from the precipitation source is : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]
                                  and from photoelectron source : 2.3400E+11 [eV/cm2/s]
                                                             or : 3.7491E-01 [erg/cm2/s]
 That variable "errorgaupin" is:           92

 MAIN : Total energy deposition in [CO2] is 1.828E+11 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 1.613E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 1.013E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 2.012E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 3.235E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 1.666E+00 [eV.cm-2.s-1] ("shsum").
  6.34827008E+08           2          21
  6.41585024E+08           2          23

 Total Heating :  3.257E+05 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  3.4915691E-03
 entot depart   325713.34       325713.34    
 shsum :  1.19673231E+10  1.82829679E+11  1.82829351E+11  1.82829351E+11
 shsum :  1.20995492E+10  1.98955024E+11  1.61253407E+10  1.98954697E+11
 shsum :  1.21605612E+10  2.09080517E+11  1.01254984E+10  2.09080189E+11
 shsum :  1.25976924E+10  2.29195661E+11  2.01151427E+10  2.29195334E+11
 shsum :  1.25976924E+10  2.29195661E+11   32.353645      2.29195334E+11
 shsum :  1.25976924E+10  2.29195661E+11   1.6661863      2.29195334E+11
 fin  2.29195661E+11  1.25976924E+10   18.574730    
   18.193464    
 -5.25359938E+13   18.574730    
 ezero   0.0000000    
  2.29195661E+11
  2.82835844E+14

Total energy input of :2.340E+11 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 2.292E+11 is absorbed (entot) 
                         through inelastic collisions (shsum =2.292E+11)
                                           + heating (elhsum =3.257E+05)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  18.57 eV (from qtoteV)
                                  or :  18.19 eV (from (entot))
                                  or :******* eV (from (qtoteV-qsump))
