 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 : 3.3349E+11 [eV/cm2/s]
                                                             or : 5.3431E-01 [erg/cm2/s]
 That variable "errorgaupin" is:          115

 MAIN : Total energy deposition in [CO2] is 2.628E+11 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 3.067E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 1.543E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 1.703E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 5.605E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 2.417E+00 [eV.cm-2.s-1] ("shsum").
  1.07344294E+09           2          21
  1.14695974E+09           2          23

 Total Heating :  5.538E+05 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  6.7812037E-03
 entot depart   553825.75       553825.75    
 shsum :  1.71599114E+10  2.62832980E+11  2.62832423E+11  2.62832423E+11
 shsum :  1.74167163E+10  2.93505565E+11  3.06725888E+10  2.93505008E+11
 shsum :  1.75095644E+10  3.08932968E+11  1.54274140E+10  3.08932411E+11
 shsum :  1.78715914E+10  3.25963907E+11  1.70309304E+10  3.25963350E+11
 shsum :  1.78715914E+10  3.25963907E+11   56.054565      3.25963350E+11
 shsum :  1.78715914E+10  3.25963907E+11   2.4174986      3.25963350E+11
 fin  3.25963907E+11  1.78715914E+10   18.660194    
   18.239222    
 -3.70326425E+13   18.660194    
 ezero   0.0000000    
  3.25963907E+11
  1.98457973E+14

Total energy input of :3.335E+11 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 3.260E+11 is absorbed (entot) 
                         through inelastic collisions (shsum =3.260E+11)
                                           + heating (elhsum =5.538E+05)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  18.66 eV (from qtoteV)
                                  or :  18.24 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 : 3.0366E+11 [eV/cm2/s]
                                                             or : 4.8653E-01 [erg/cm2/s]
 That variable "errorgaupin" is:           85

 MAIN : Total energy deposition in [CO2] is 2.367E+11 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 2.854E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 1.433E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 1.653E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 5.450E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 2.380E+00 [eV.cm-2.s-1] ("shsum").
  1.05220416E+09           2          21
  1.12370982E+09           2          23

 Total Heating :  5.318E+05 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  6.3794563E-03
 entot depart   531808.19       531808.19    
 shsum :  1.55719229E+10  2.36692013E+11  2.36691489E+11  2.36691489E+11
 shsum :  1.58135142E+10  2.65235153E+11  2.85431460E+10  2.65234629E+11
 shsum :  1.59008522E+10  2.79565500E+11  1.43303383E+10  2.79564976E+11
 shsum :  1.62545469E+10  2.96092205E+11  1.65266985E+10  2.96091681E+11
 shsum :  1.62545469E+10  2.96092205E+11   54.504864      2.96091681E+11
 shsum :  1.62545469E+10  2.96092205E+11   2.3795857      2.96091681E+11
 fin  2.96092205E+11  1.62545469E+10   18.681683    
   18.215961    
 -4.07167471E+13   18.681683    
 ezero   0.0000000    
  2.96092205E+11
  2.17950095E+14

Total energy input of :3.037E+11 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 2.961E+11 is absorbed (entot) 
                         through inelastic collisions (shsum =2.961E+11)
                                           + heating (elhsum =5.318E+05)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  18.68 eV (from qtoteV)
                                  or :  18.22 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 : 2.7160E+11 [eV/cm2/s]
                                                             or : 4.3516E-01 [erg/cm2/s]
 That variable "errorgaupin" is:          107

 MAIN : Total energy deposition in [CO2] is 2.089E+11 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 2.616E+10 [eV.cm-2.s-1] ("shsum").

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

 MAIN : Total energy deposition in [O]   is 1.587E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 5.270E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 2.334E+00 [eV.cm-2.s-1] ("shsum").
  1.02500256E+09           2          21
  1.09406938E+09           2          23

 Total Heating :  5.056E+05 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  5.9232013E-03
 entot depart   505644.06       505644.06    
 shsum :  1.38718044E+10  2.08865198E+11  2.08864690E+11  2.08864690E+11
 shsum :  1.40961167E+10  2.35020796E+11  2.61555978E+10  2.35020288E+11
 shsum :  1.41771858E+10  2.48121049E+11  1.31002460E+10  2.48120541E+11
 shsum :  1.45195633E+10  2.63987347E+11  1.58662994E+10  2.63986840E+11
 shsum :  1.45195633E+10  2.63987347E+11   52.704121      2.63986840E+11
 shsum :  1.45195633E+10  2.63987347E+11   2.3344026      2.63986840E+11
 fin  2.63987347E+11  1.45195633E+10   18.706106    
   18.181494    
 -4.55821062E+13   18.706106    
 ezero   0.0000000    
  2.63987347E+11
  2.43675003E+14

Total energy input of :2.716E+11 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 2.640E+11 is absorbed (entot) 
                         through inelastic collisions (shsum =2.640E+11)
                                           + heating (elhsum =5.056E+05)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  18.71 eV (from qtoteV)
                                  or :  18.18 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 : 2.3763E+11 [eV/cm2/s]
                                                             or : 3.8074E-01 [erg/cm2/s]
 That variable "errorgaupin" is:           90

 MAIN : Total energy deposition in [CO2] is 1.797E+11 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 2.350E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 1.173E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 1.500E+10 [eV.cm-2.s-1] ("shsum").

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

 MAIN : Total energy deposition in [O+]  is 2.280E+00 [eV.cm-2.s-1] ("shsum").
  9.89685952E+08           2          21
  1.05576486E+09           2          23

 Total Heating :  4.744E+05 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  5.4075690E-03
 entot depart   474423.59       474423.59    
 shsum :  1.20803615E+10  1.79730432E+11  1.79729957E+11  1.79729957E+11
 shsum :  1.22851471E+10  2.03232723E+11  2.35022909E+10  2.03232248E+11
 shsum :  1.23591199E+10  2.14966305E+11  1.17335869E+10  2.14965830E+11
 shsum :  1.26862019E+10  2.29970788E+11  1.50044867E+10  2.29970313E+11
 shsum :  1.26862019E+10  2.29970788E+11   50.609325      2.29970313E+11
 shsum :  1.26862019E+10  2.29970788E+11   2.2802444      2.29970313E+11
 fin  2.29970788E+11  1.26862019E+10   18.731724    
   18.127630    
 -5.21694578E+13   18.731724    
 ezero   0.0000000    
  2.29970788E+11
  2.78508580E+14

Total energy input of :2.376E+11 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 2.300E+11 is absorbed (entot) 
                         through inelastic collisions (shsum =2.300E+11)
                                           + heating (elhsum =4.744E+05)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  18.73 eV (from qtoteV)
                                  or :  18.13 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 : 3.3221E+11 [eV/cm2/s]
                                                             or : 5.3227E-01 [erg/cm2/s]
 That variable "errorgaupin" is:          107

 MAIN : Total energy deposition in [CO2] is 2.620E+11 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 3.049E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 1.534E+10 [eV.cm-2.s-1] ("shsum").

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

 MAIN : Total energy deposition in [O2]  is 5.618E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 2.420E+00 [eV.cm-2.s-1] ("shsum").
  1.07312557E+09           2          21
  1.14701555E+09           2          23

 Total Heating :  5.533E+05 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  6.7401663E-03
 entot depart   553341.75       553341.75    
 shsum :  1.70984069E+10  2.61972083E+11  2.61971526E+11  2.61971526E+11
 shsum :  1.73536584E+10  2.92464886E+11  3.04927969E+10  2.92464329E+11
 shsum :  1.74459372E+10  3.07800048E+11  1.53351455E+10  3.07799458E+11
 shsum :  1.78038149E+10  3.24636672E+11  1.68366203E+10  3.24636082E+11
 shsum :  1.78038149E+10  3.24636672E+11   56.178944      3.24636082E+11
 shsum :  1.78038149E+10  3.24636672E+11   2.4199028      3.24636082E+11
 fin  3.24636672E+11  1.78038149E+10   18.659538    
   18.234108    
 -3.71736214E+13   18.659538    
 ezero   0.0000000    
  3.24636672E+11
  1.99220481E+14

Total energy input of :3.322E+11 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 3.246E+11 is absorbed (entot) 
                         through inelastic collisions (shsum =3.246E+11)
                                           + heating (elhsum =5.533E+05)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  18.66 eV (from qtoteV)
                                  or :  18.23 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 : 3.0251E+11 [eV/cm2/s]
                                                             or : 4.8468E-01 [erg/cm2/s]
 That variable "errorgaupin" is:           85

 MAIN : Total energy deposition in [CO2] is 2.359E+11 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 2.838E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 1.425E+10 [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 5.462E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 2.382E+00 [eV.cm-2.s-1] ("shsum").
  1.05173114E+09           2          21
  1.12358272E+09           2          23

 Total Heating :  5.312E+05 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  6.3413298E-03
 entot depart   531246.88       531246.88    
 shsum :  1.55166095E+10  2.35926422E+11  2.35925897E+11  2.35925897E+11
 shsum :  1.57567570E+10  2.64304263E+11  2.83778417E+10  2.64303739E+11
 shsum :  1.58435635E+10  2.78549398E+11  1.42451323E+10  2.78548873E+11
 shsum :  1.61931909E+10  2.94886801E+11  1.63373885E+10  2.94886277E+11
 shsum :  1.61931909E+10  2.94886801E+11   54.619999      2.94886277E+11
 shsum :  1.61931909E+10  2.94886801E+11   2.3817704      2.94886277E+11
 fin  2.94886801E+11  1.61931909E+10   18.681068    
   18.210543    
 -4.08710220E+13   18.681068    
 ezero   0.0000000    
  2.94886801E+11
  2.18783117E+14

Total energy input of :3.025E+11 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 2.949E+11 is absorbed (entot) 
                         through inelastic collisions (shsum =2.949E+11)
                                           + heating (elhsum =5.312E+05)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  18.68 eV (from qtoteV)
                                  or :  18.21 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 : 2.7058E+11 [eV/cm2/s]
                                                             or : 4.3353E-01 [erg/cm2/s]
 That variable "errorgaupin" is:           89

 MAIN : Total energy deposition in [CO2] is 2.082E+11 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 2.601E+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 1.569E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 5.281E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 2.336E+00 [eV.cm-2.s-1] ("shsum").
  1.02432870E+09           2          21
  1.09370048E+09           2          23

 Total Heating :  5.050E+05 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  5.8884220E-03
 entot depart   505003.34       505003.34    
 shsum :  1.38232136E+10  2.08202793E+11  2.08202285E+11  2.08202285E+11
 shsum :  1.40462090E+10  2.34209395E+11  2.60065976E+10  2.34208887E+11
 shsum :  1.41267917E+10  2.47232610E+11  1.30232218E+10  2.47232102E+11
 shsum :  1.44652759E+10  2.62918996E+11  1.56863836E+10  2.62918488E+11
 shsum :  1.44652759E+10  2.62918996E+11   52.806931      2.62918488E+11
 shsum :  1.44652759E+10  2.62918996E+11   2.3363042      2.62918488E+11
 fin  2.62918996E+11  1.44652759E+10   18.705635    
   18.175871    
 -4.57531751E+13   18.705635    
 ezero   0.0000000    
  2.62918996E+11
  2.44595670E+14

Total energy input of :2.706E+11 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 2.629E+11 is absorbed (entot) 
                         through inelastic collisions (shsum =2.629E+11)
                                           + heating (elhsum =5.050E+05)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  18.71 eV (from qtoteV)
                                  or :  18.18 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 : 2.3675E+11 [eV/cm2/s]
                                                             or : 3.7932E-01 [erg/cm2/s]
 That variable "errorgaupin" is:           77

 MAIN : Total energy deposition in [CO2] is 1.792E+11 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 2.337E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 1.167E+10 [eV.cm-2.s-1] ("shsum").

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

 MAIN : Total energy deposition in [O2]  is 5.070E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 2.282E+00 [eV.cm-2.s-1] ("shsum").
  9.88788096E+08           2          21
  1.05511814E+09           2          23

 Total Heating :  4.737E+05 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  5.3765057E-03
 entot depart   473710.28       473710.28    
 shsum :  1.20386089E+10  1.79166102E+11  1.79165626E+11  1.79165626E+11
 shsum :  1.22422180E+10  2.02537255E+11  2.33711555E+10  2.02536780E+11
 shsum :  1.23157565E+10  2.14203007E+11  1.16657603E+10  2.14202548E+11
 shsum :  1.26392351E+10  2.29042455E+11  1.48394424E+10  2.29041996E+11
 shsum :  1.26392351E+10  2.29042455E+11   50.696274      2.29041996E+11
 shsum :  1.26392351E+10  2.29042455E+11   2.2817931      2.29041996E+11
 fin  2.29042455E+11  1.26392351E+10   18.731173    
   18.121544    
 -5.23633185E+13   18.731173    
 ezero   0.0000000    
  2.29042455E+11
  2.79551721E+14

Total energy input of :2.367E+11 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 2.290E+11 is absorbed (entot) 
                         through inelastic collisions (shsum =2.290E+11)
                                           + heating (elhsum =4.737E+05)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  18.73 eV (from qtoteV)
                                  or :  18.12 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 : 3.2847E+11 [eV/cm2/s]
                                                             or : 5.2628E-01 [erg/cm2/s]
 That variable "errorgaupin" is:           98

 MAIN : Total energy deposition in [CO2] is 2.590E+11 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 3.012E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 1.514E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 1.657E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 5.619E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 2.419E+00 [eV.cm-2.s-1] ("shsum").
  1.07068365E+09           2          21
  1.14476659E+09           2          23

 Total Heating :  5.509E+05 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  6.6607450E-03
 entot depart   550941.00       550941.00    
 shsum :  1.69067848E+10  2.59002024E+11  2.59001467E+11  2.59001467E+11
 shsum :  1.71590287E+10  2.89120715E+11  3.01186970E+10  2.89120158E+11
 shsum :  1.72502098E+10  3.04263528E+11  1.51428280E+10  3.04262971E+11
 shsum :  1.76026071E+10  3.20835092E+11  1.65715712E+10  3.20834535E+11
 shsum :  1.76026071E+10  3.20835092E+11   56.188042      3.20834535E+11
 shsum :  1.76026071E+10  3.20835092E+11   2.4192641      3.20834535E+11
 fin  3.20835092E+11  1.76026071E+10   18.660393    
   18.226566    
 -3.75985380E+13   18.660393    
 ezero   0.0000000    
  3.20835092E+11
  2.01488459E+14

Total energy input of :3.285E+11 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 3.208E+11 is absorbed (entot) 
                         through inelastic collisions (shsum =3.208E+11)
                                           + heating (elhsum =5.509E+05)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  18.66 eV (from qtoteV)
                                  or :  18.23 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 : 2.9909E+11 [eV/cm2/s]
                                                             or : 4.7920E-01 [erg/cm2/s]
 That variable "errorgaupin" is:           87

 MAIN : Total energy deposition in [CO2] is 2.332E+11 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 2.803E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 1.407E+10 [eV.cm-2.s-1] ("shsum").

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

 MAIN : Total energy deposition in [O2]  is 5.462E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 2.381E+00 [eV.cm-2.s-1] ("shsum").
  1.04908698E+09           2          21
  1.12110451E+09           2          23

 Total Heating :  5.288E+05 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  6.2668519E-03
 entot depart   528792.31       528792.31    
 shsum :  1.53422735E+10  2.33233662E+11  2.33233138E+11  2.33233138E+11
 shsum :  1.55795999E+10  2.61263688E+11  2.80300319E+10  2.61263163E+11
 shsum :  1.56653752E+10  2.75329679E+11  1.40660050E+10  2.75329155E+11
 shsum :  1.60096328E+10  2.91408773E+11  1.60790774E+10  2.91408249E+11
 shsum :  1.60096328E+10  2.91408773E+11   54.620731      2.91408249E+11
 shsum :  1.60096328E+10  2.91408773E+11   2.3808970      2.91408249E+11
 fin  2.91408773E+11  1.60096328E+10   18.681652    
   18.202089    
 -4.13396306E+13   18.681652    
 ezero   0.0000000    
  2.91408773E+11
  2.21284667E+14

Total energy input of :2.991E+11 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 2.914E+11 is absorbed (entot) 
                         through inelastic collisions (shsum =2.914E+11)
                                           + heating (elhsum =5.288E+05)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  18.68 eV (from qtoteV)
                                  or :  18.20 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 : 2.6754E+11 [eV/cm2/s]
                                                             or : 4.2866E-01 [erg/cm2/s]
 That variable "errorgaupin" is:           88

 MAIN : Total energy deposition in [CO2] is 2.058E+11 [eV.cm-2.s-1] ("shsum").

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

 MAIN : Total energy deposition in [CO]  is 1.286E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 1.544E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 5.280E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 2.335E+00 [eV.cm-2.s-1] ("shsum").
  1.02142330E+09           2          21
  1.09091968E+09           2          23

 Total Heating :  5.025E+05 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  5.8201384E-03
 entot depart   502499.66       502499.66    
 shsum :  1.36690678E+10  2.05836911E+11  2.05836403E+11  2.05836403E+11
 shsum :  1.38894776E+10  2.31527596E+11  2.56906834E+10  2.31527088E+11
 shsum :  1.39691141E+10  2.44387922E+11  1.28603310E+10  2.44387414E+11
 shsum :  1.43024497E+10  2.59828138E+11  1.54402140E+10  2.59827630E+11
 shsum :  1.43024497E+10  2.59828138E+11   52.796646      2.59827630E+11
 shsum :  1.43024497E+10  2.59828138E+11   2.3351436      2.59827630E+11
 fin  2.59828138E+11  1.43024497E+10   18.706236    
   18.166687    
 -4.62740490E+13   18.706236    
 ezero   0.0000000    
  2.59828138E+11
  2.47372349E+14

Total energy input of :2.675E+11 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 2.598E+11 is absorbed (entot) 
                         through inelastic collisions (shsum =2.598E+11)
                                           + heating (elhsum =5.025E+05)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  18.71 eV (from qtoteV)
                                  or :  18.17 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 : 2.3412E+11 [eV/cm2/s]
                                                             or : 3.7511E-01 [erg/cm2/s]
 That variable "errorgaupin" is:           76

 MAIN : Total energy deposition in [CO2] is 1.771E+11 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 2.309E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 1.152E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 1.461E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 5.067E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 2.280E+00 [eV.cm-2.s-1] ("shsum").
  9.85593728E+08           2          21
  1.05199437E+09           2          23

 Total Heating :  4.712E+05 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  5.3152395E-03
 entot depart   471185.78       471185.78    
 shsum :  1.19058831E+10  1.77144185E+11  1.77143710E+11  1.77143710E+11
 shsum :  1.21071718E+10  2.00235024E+11  2.30908436E+10  2.00234549E+11
 shsum :  1.21798595E+10  2.11756270E+11  1.15212401E+10  2.11755794E+11
 shsum :  1.24985375E+10  2.26367799E+11  1.46115338E+10  2.26367324E+11
 shsum :  1.24985375E+10  2.26367799E+11   50.672531      2.26367324E+11
 shsum :  1.24985375E+10  2.26367799E+11   2.2802942      2.26367324E+11
 fin  2.26367799E+11  1.24985375E+10   18.731785    
   18.111544    
 -5.29527776E+13   18.731785    
 ezero   0.0000000    
  2.26367799E+11
  2.82689446E+14

Total energy input of :2.341E+11 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 2.264E+11 is absorbed (entot) 
                         through inelastic collisions (shsum =2.264E+11)
                                           + heating (elhsum =4.712E+05)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  18.73 eV (from qtoteV)
                                  or :  18.11 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 : 3.2226E+11 [eV/cm2/s]
                                                             or : 5.1633E-01 [erg/cm2/s]
 That variable "errorgaupin" is:           70

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

 MAIN : Total energy deposition in [N2]  is 2.955E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 1.485E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 1.624E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 5.608E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 2.415E+00 [eV.cm-2.s-1] ("shsum").
  1.06599750E+09           2          21
  1.14007846E+09           2          23

 Total Heating :  5.466E+05 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  6.5428680E-03
 entot depart   546561.19       546561.19    
 shsum :  1.65849272E+10  2.53917053E+11  2.53916512E+11  2.53916512E+11
 shsum :  1.68327066E+10  2.83467448E+11  2.95503831E+10  2.83466891E+11
 shsum :  1.69222625E+10  2.98317971E+11  1.48505252E+10  2.98317414E+11
 shsum :  1.72678533E+10  3.14554188E+11  1.62362255E+10  3.14553631E+11
 shsum :  1.72678533E+10  3.14554188E+11   56.076851      3.14553631E+11
 shsum :  1.72678533E+10  3.14554188E+11   2.4154439      3.14553631E+11
 fin  3.14554188E+11  1.72678533E+10   18.662579    
   18.216171    
 -3.83274199E+13   18.662579    
 ezero   0.0000000    
  3.14554188E+11
  2.05370455E+14

Total energy input of :3.223E+11 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 3.146E+11 is absorbed (entot) 
                         through inelastic collisions (shsum =3.146E+11)
                                           + heating (elhsum =5.466E+05)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  18.66 eV (from qtoteV)
                                  or :  18.22 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 : 2.9345E+11 [eV/cm2/s]
                                                             or : 4.7017E-01 [erg/cm2/s]
 That variable "errorgaupin" is:           96

 MAIN : Total energy deposition in [CO2] is 2.287E+11 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 2.750E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 1.379E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 1.575E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 5.450E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 2.377E+00 [eV.cm-2.s-1] ("shsum").
  1.04415616E+09           2          21
  1.11614554E+09           2          23

 Total Heating :  5.244E+05 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  6.1567961E-03
 entot depart   524389.00       524389.00    
 shsum :  1.50510551E+10  2.28657873E+11  2.28657349E+11  2.28657349E+11
 shsum :  1.52842138E+10  2.56160891E+11  2.75030118E+10  2.56160367E+11
 shsum :  1.53684685E+10  2.69955514E+11  1.37946276E+10  2.69954990E+11
 shsum :  1.57060813E+10  2.85708714E+11  1.57532006E+10  2.85708190E+11
 shsum :  1.57060813E+10  2.85708714E+11   54.502575      2.85708190E+11
 shsum :  1.57060813E+10  2.85708714E+11   2.3768535      2.85708190E+11
 fin  2.85708714E+11  1.57060813E+10   18.684036    
   18.190962    
 -4.21385994E+13   18.684036    
 ezero   0.0000000    
  2.85708714E+11
  2.25532625E+14

Total energy input of :2.935E+11 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 2.857E+11 is absorbed (entot) 
                         through inelastic collisions (shsum =2.857E+11)
                                           + heating (elhsum =5.244E+05)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  18.68 eV (from qtoteV)
                                  or :  18.19 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 : 2.6253E+11 [eV/cm2/s]
                                                             or : 4.2062E-01 [erg/cm2/s]
 That variable "errorgaupin" is:           91

 MAIN : Total energy deposition in [CO2] is 2.018E+11 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 2.521E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 1.261E+10 [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 5.267E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 2.331E+00 [eV.cm-2.s-1] ("shsum").
  1.01617946E+09           2          21
  1.08560653E+09           2          23

 Total Heating :  4.981E+05 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  5.7188384E-03
 entot depart   498087.31       498087.31    
 shsum :  1.34109389E+10  2.01795912E+11  2.01795420E+11  2.01795420E+11
 shsum :  1.36275128E+10  2.27006218E+11  2.52103045E+10  2.27005727E+11
 shsum :  1.37057475E+10  2.39619097E+11  1.26128835E+10  2.39618605E+11
 shsum :  1.40327025E+10  2.54748197E+11  1.51290921E+10  2.54747705E+11
 shsum :  1.40327025E+10  2.54748197E+11   52.669235      2.54747705E+11
 shsum :  1.40327025E+10  2.54748197E+11   2.3308141      2.54747705E+11
 fin  2.54748197E+11  1.40327025E+10   18.708099    
   18.153894    
 -4.71635644E+13   18.708099    
 ezero   0.0000000    
  2.54748197E+11
  2.52102383E+14

Total energy input of :2.625E+11 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 2.547E+11 is absorbed (entot) 
                         through inelastic collisions (shsum =2.547E+11)
                                           + heating (elhsum =4.981E+05)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  18.71 eV (from qtoteV)
                                  or :  18.15 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 : 2.2977E+11 [eV/cm2/s]
                                                             or : 3.6815E-01 [erg/cm2/s]
 That variable "errorgaupin" is:           88

 MAIN : Total energy deposition in [CO2] is 1.737E+11 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 2.266E+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 1.432E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 5.053E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 2.276E+00 [eV.cm-2.s-1] ("shsum").
  9.80007040E+08           2          21
  1.04628570E+09           2          23

 Total Heating :  4.668E+05 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  5.2241711E-03
 entot depart   466806.03       466806.03    
 shsum :  1.16834140E+10  1.73684392E+11  1.73683933E+11  1.73683933E+11
 shsum :  1.18812539E+10  1.96347888E+11  2.26634998E+10  1.96347429E+11
 shsum :  1.19526810E+10  2.07649063E+11  1.13011702E+10  2.07648604E+11
 shsum :  1.22653870E+10  2.21971186E+11  1.43221176E+10  2.21970727E+11
 shsum :  1.22653870E+10  2.21971186E+11   50.534039      2.21970727E+11
 shsum :  1.22653870E+10  2.21971186E+11   2.2756386      2.21970727E+11
 fin  2.21971186E+11  1.22653870E+10   18.733595    
   18.097364    
 -5.39593477E+13   18.733595    
 ezero   0.0000000    
  2.21971186E+11
  2.88035204E+14

Total energy input of :2.298E+11 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 2.220E+11 is absorbed (entot) 
                         through inelastic collisions (shsum =2.220E+11)
                                           + heating (elhsum =4.668E+05)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  18.73 eV (from qtoteV)
                                  or :  18.10 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 : 3.1364E+11 [eV/cm2/s]
                                                             or : 5.0251E-01 [erg/cm2/s]
 That variable "errorgaupin" is:           75

 MAIN : Total energy deposition in [CO2] is 2.468E+11 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 2.879E+10 [eV.cm-2.s-1] ("shsum").

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

 MAIN : Total energy deposition in [O]   is 1.583E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 5.584E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 2.408E+00 [eV.cm-2.s-1] ("shsum").
  1.05890426E+09           2          21
  1.13277133E+09           2          23

 Total Heating :  5.401E+05 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  6.3871583E-03
 entot depart   540119.75       540119.75    
 shsum :  1.61356739E+10  2.46763373E+11  2.46762832E+11  2.46762832E+11
 shsum :  1.63775570E+10  2.75554763E+11  2.87914066E+10  2.75554238E+11
 shsum :  1.64649677E+10  2.90014855E+11  1.44600945E+10  2.90014331E+11
 shsum :  1.68024484E+10  3.05846583E+11  1.58317271E+10  3.05846059E+11
 shsum :  1.68024484E+10  3.05846583E+11   55.838959      3.05846059E+11
 shsum :  1.68024484E+10  3.05846583E+11   2.4082687      3.05846059E+11
 fin  3.05846583E+11  1.68024484E+10   18.666142    
   18.202501    
 -3.93890402E+13   18.666142    
 ezero   0.0000000    
  3.05846583E+11
  2.11018639E+14

Total energy input of :3.136E+11 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 3.058E+11 is absorbed (entot) 
                         through inelastic collisions (shsum =3.058E+11)
                                           + heating (elhsum =5.401E+05)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  18.67 eV (from qtoteV)
                                  or :  18.20 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 : 2.8565E+11 [eV/cm2/s]
                                                             or : 4.5766E-01 [erg/cm2/s]
 That variable "errorgaupin" is:           94

 MAIN : Total energy deposition in [CO2] is 2.222E+11 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 2.680E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 1.343E+10 [eV.cm-2.s-1] ("shsum").

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

 MAIN : Total energy deposition in [O2]  is 5.426E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 2.369E+00 [eV.cm-2.s-1] ("shsum").
  1.03677626E+09           2          21
  1.10852621E+09           2          23

 Total Heating :  5.180E+05 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  6.0116206E-03
 entot depart   517959.63       517959.63    
 shsum :  1.46452900E+10  2.22235558E+11  2.22235034E+11  2.22235034E+11
 shsum :  1.48729508E+10  2.49035276E+11  2.67997123E+10  2.49034752E+11
 shsum :  1.49552015E+10  2.62467830E+11  1.34325504E+10  2.62467305E+11
 shsum :  1.52849121E+10  2.77828633E+11  1.53608049E+10  2.77828108E+11
 shsum :  1.52849121E+10  2.77828633E+11   54.259300      2.77828108E+11
 shsum :  1.52849121E+10  2.77828633E+11   2.3694634      2.77828108E+11
 fin  2.77828633E+11  1.52849121E+10   18.688166    
   18.176659    
 -4.32997128E+13   18.688166    
 ezero   0.0000000    
  2.77828633E+11
  2.31695870E+14

Total energy input of :2.856E+11 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 2.778E+11 is absorbed (entot) 
                         through inelastic collisions (shsum =2.778E+11)
                                           + heating (elhsum =5.180E+05)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  18.69 eV (from qtoteV)
                                  or :  18.18 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 : 2.5556E+11 [eV/cm2/s]
                                                             or : 4.0946E-01 [erg/cm2/s]
 That variable "errorgaupin" is:          103

 MAIN : Total energy deposition in [CO2] is 1.961E+11 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 2.457E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 1.228E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 1.475E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 5.242E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 2.323E+00 [eV.cm-2.s-1] ("shsum").
  1.00844346E+09           2          21
  1.07759232E+09           2          23

 Total Heating :  4.917E+05 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  5.5850260E-03
 entot depart   491696.09       491696.09    
 shsum :  1.30510592E+10  1.96115055E+11  1.96114563E+11  1.96114563E+11
 shsum :  1.32625654E+10  2.20683502E+11  2.45684429E+10  2.20683010E+11
 shsum :  1.33389517E+10  2.32965964E+11  1.22824571E+10  2.32965472E+11
 shsum :  1.36583168E+10  2.47720182E+11  1.47542231E+10  2.47719690E+11
 shsum :  1.36583168E+10  2.47720182E+11   52.418865      2.47719690E+11
 shsum :  1.36583168E+10  2.47720182E+11   2.3231530      2.47719690E+11
 fin  2.47720182E+11  1.36583168E+10   18.711172    
   18.136948    
 -4.84563579E+13   18.711172    
 ezero   0.0000000    
  2.47720182E+11
  2.58970204E+14

Total energy input of :2.556E+11 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 2.477E+11 is absorbed (entot) 
                         through inelastic collisions (shsum =2.477E+11)
                                           + heating (elhsum =4.917E+05)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  18.71 eV (from qtoteV)
                                  or :  18.14 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 : 2.2375E+11 [eV/cm2/s]
                                                             or : 3.5849E-01 [erg/cm2/s]
 That variable "errorgaupin" is:          101

 MAIN : Total energy deposition in [CO2] is 1.688E+11 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 2.209E+10 [eV.cm-2.s-1] ("shsum").

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

 MAIN : Total energy deposition in [O]   is 1.397E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 5.028E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 2.268E+00 [eV.cm-2.s-1] ("shsum").
  9.71884224E+08           2          21
  1.03783488E+09           2          23

 Total Heating :  4.605E+05 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  5.1038167E-03
 entot depart   460505.63       460505.63    
 shsum :  1.13732792E+10  1.68821326E+11  1.68820867E+11  1.68820867E+11
 shsum :  1.15665613E+10  1.90913348E+11  2.20920177E+10  1.90912889E+11
 shsum :  1.16363244E+10  2.01920463E+11  1.10071122E+10  2.01920004E+11
 shsum :  1.19419085E+10  2.15892967E+11  1.39725117E+10  2.15892509E+11
 shsum :  1.19419085E+10  2.15892967E+11   50.275082      2.15892509E+11
 shsum :  1.19419085E+10  2.15892967E+11   2.2676611      2.15892509E+11
 fin  2.15892967E+11  1.19419085E+10   18.736660    
   18.078598    
 -5.54209829E+13   18.736660    
 ezero   0.0000000    
  2.15892967E+11
  2.95789029E+14

Total energy input of :2.238E+11 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 2.159E+11 is absorbed (entot) 
                         through inelastic collisions (shsum =2.159E+11)
                                           + heating (elhsum =4.605E+05)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  18.74 eV (from qtoteV)
                                  or :  18.08 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 : 3.0269E+11 [eV/cm2/s]
                                                             or : 4.8497E-01 [erg/cm2/s]
 That variable "errorgaupin" is:           88

 MAIN : Total energy deposition in [CO2] is 2.376E+11 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 2.785E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 1.397E+10 [eV.cm-2.s-1] ("shsum").

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

 MAIN : Total energy deposition in [O2]  is 5.547E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 2.398E+00 [eV.cm-2.s-1] ("shsum").
  1.04918752E+09           2          21
  1.12260826E+09           2          23

 Total Heating :  5.315E+05 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  6.1946972E-03
 entot depart   531507.81       531507.81    
 shsum :  1.55637094E+10  2.37628899E+11  2.37628375E+11  2.37628375E+11
 shsum :  1.57983037E+10  2.65476047E+11  2.78471455E+10  2.65475523E+11
 shsum :  1.58830633E+10  2.79450354E+11  1.39743058E+10  2.79449829E+11
 shsum :  1.62111498E+10  2.94809698E+11  1.53593600E+10  2.94809174E+11
 shsum :  1.62111498E+10  2.94809698E+11   55.466015      2.94809174E+11
 shsum :  1.62111498E+10  2.94809698E+11   2.3975117      2.94809174E+11
 fin  2.94809698E+11  1.62111498E+10   18.671650    
   18.185614    
 -4.08257445E+13   18.671650    
 ezero   0.0000000    
  2.94809698E+11
  2.18650963E+14

Total energy input of :3.027E+11 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 2.948E+11 is absorbed (entot) 
                         through inelastic collisions (shsum =2.948E+11)
                                           + heating (elhsum =5.315E+05)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  18.67 eV (from qtoteV)
                                  or :  18.19 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 : 2.7571E+11 [eV/cm2/s]
                                                             or : 4.4174E-01 [erg/cm2/s]
 That variable "errorgaupin" is:           82

 MAIN : Total energy deposition in [CO2] is 2.140E+11 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 2.592E+10 [eV.cm-2.s-1] ("shsum").

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

 MAIN : Total energy deposition in [O]   is 1.490E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 5.388E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 2.358E+00 [eV.cm-2.s-1] ("shsum").
  1.02673715E+09           2          21
  1.09801715E+09           2          23

 Total Heating :  5.094E+05 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  5.8316062E-03
 entot depart   509400.75       509400.75    
 shsum :  1.41278228E+10  2.13999682E+11  2.13999174E+11  2.13999174E+11
 shsum :  1.43486669E+10  2.39922807E+11  2.59231334E+10  2.39922315E+11
 shsum :  1.44284355E+10  2.52904276E+11  1.29814743E+10  2.52903784E+11
 shsum :  1.47489966E+10  2.67806999E+11  1.49027174E+10  2.67806507E+11
 shsum :  1.47489966E+10  2.67806999E+11   53.882713      2.67806507E+11
 shsum :  1.47489966E+10  2.67806999E+11   2.3584933      2.67806507E+11
 fin  2.67806999E+11  1.47489966E+10   18.693190    
   18.157642    
 -4.48730382E+13   18.693190    
 ezero   0.0000000    
  2.67806999E+11
  2.40050185E+14

Total energy input of :2.757E+11 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 2.678E+11 is absorbed (entot) 
                         through inelastic collisions (shsum =2.678E+11)
                                           + heating (elhsum =5.094E+05)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  18.69 eV (from qtoteV)
                                  or :  18.16 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 : 2.4672E+11 [eV/cm2/s]
                                                             or : 3.9530E-01 [erg/cm2/s]
 That variable "errorgaupin" is:           90

 MAIN : Total energy deposition in [CO2] is 1.889E+11 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 2.377E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 1.187E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 1.432E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 5.204E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 2.312E+00 [eV.cm-2.s-1] ("shsum").
  9.98011200E+08           2          21
  1.06665440E+09           2          23

 Total Heating :  4.832E+05 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  5.4193838E-03
 entot depart   483232.13       483232.13    
 shsum :  1.25928038E+10  1.88852158E+11  1.88851683E+11  1.88851683E+11
 shsum :  1.27980370E+10  2.12621181E+11  2.37690225E+10  2.12620706E+11
 shsum :  1.28721367E+10  2.24492323E+11  1.18711347E+10  2.24491848E+11
 shsum :  1.31827180E+10  2.38808990E+11  1.43166751E+10  2.38808531E+11
 shsum :  1.31827180E+10  2.38808990E+11   52.037781      2.38808531E+11
 shsum :  1.31827180E+10  2.38808990E+11   2.3119352      2.38808531E+11
 fin  2.38808990E+11  1.31827180E+10   18.715553    
   18.115307    
 -5.02045396E+13   18.715553    
 ezero   0.0000000    
  2.38808990E+11
  2.68250353E+14

Total energy input of :2.467E+11 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 2.388E+11 is absorbed (entot) 
                         through inelastic collisions (shsum =2.388E+11)
                                           + heating (elhsum =4.832E+05)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  18.72 eV (from qtoteV)
                                  or :  18.12 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 : 2.1610E+11 [eV/cm2/s]
                                                             or : 3.4624E-01 [erg/cm2/s]
 That variable "errorgaupin" is:           87

 MAIN : Total energy deposition in [CO2] is 1.626E+11 [eV.cm-2.s-1] ("shsum").

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

 MAIN : Total energy deposition in [CO]  is 1.064E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 1.356E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 4.989E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 2.256E+00 [eV.cm-2.s-1] ("shsum").
  9.61033600E+08           2          21
  1.02643251E+09           2          23

 Total Heating :  4.522E+05 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  4.9547646E-03
 entot depart   452209.44       452209.44    
 shsum :  1.09784412E+10  1.62604925E+11  1.62604466E+11  1.62604466E+11
 shsum :  1.11660790E+10  1.83984833E+11  2.13799076E+10  1.83984374E+11
 shsum :  1.12337828E+10  1.94625765E+11  1.06409359E+10  1.94625307E+11
 shsum :  1.15311114E+10  2.08189473E+11  1.35637125E+10  2.08189014E+11
 shsum :  1.15311114E+10  2.08189473E+11   49.888966      2.08189014E+11
 shsum :  1.15311114E+10  2.08189473E+11   2.2561615      2.08189014E+11
 fin  2.08189473E+11  1.15311114E+10   18.741005    
   18.054588    
 -5.73953593E+13   18.741005    
 ezero   0.0000000    
  2.08189473E+11
  3.06255495E+14

Total energy input of :2.161E+11 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 2.082E+11 is absorbed (entot) 
                         through inelastic collisions (shsum =2.082E+11)
                                           + heating (elhsum =4.522E+05)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  18.74 eV (from qtoteV)
                                  or :  18.05 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 : 2.8949E+11 [eV/cm2/s]
                                                             or : 4.6381E-01 [erg/cm2/s]
 That variable "errorgaupin" is:           89

 MAIN : Total energy deposition in [CO2] is 2.266E+11 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 2.672E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 1.340E+10 [eV.cm-2.s-1] ("shsum").

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

 MAIN : Total energy deposition in [O2]  is 5.495E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 2.383E+00 [eV.cm-2.s-1] ("shsum").
  1.03657101E+09           2          21
  1.10928870E+09           2          23

 Total Heating :  5.206E+05 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  5.9659467E-03
 entot depart   520583.53       520583.53    
 shsum :  1.48732754E+10  2.26575368E+11  2.26574844E+11  2.26574844E+11
 shsum :  1.50992067E+10  2.53296968E+11  2.67215954E+10  2.53296443E+11
 shsum :  1.51808164E+10  2.66692297E+11  1.33953280E+10  2.66691772E+11
 shsum :  1.54982318E+10  2.81511985E+11  1.48196762E+10  2.81511461E+11
 shsum :  1.54982318E+10  2.81511985E+11   54.946991      2.81511461E+11
 shsum :  1.54982318E+10  2.81511985E+11   2.3828533      2.81511461E+11
 fin  2.81511985E+11  1.54982318E+10   18.678650    
   18.164135    
 -4.27037274E+13   18.678650    
 ezero   0.0000000    
  2.81511985E+11
  2.28623206E+14

Total energy input of :2.895E+11 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 2.815E+11 is absorbed (entot) 
                         through inelastic collisions (shsum =2.815E+11)
                                           + heating (elhsum =5.206E+05)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  18.68 eV (from qtoteV)
                                  or :  18.16 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 : 2.6372E+11 [eV/cm2/s]
                                                             or : 4.2253E-01 [erg/cm2/s]
 That variable "errorgaupin" is:           84

 MAIN : Total energy deposition in [CO2] is 2.040E+11 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 2.488E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 1.244E+10 [eV.cm-2.s-1] ("shsum").

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

 MAIN : Total energy deposition in [O2]  is 5.336E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 2.344E+00 [eV.cm-2.s-1] ("shsum").
  1.01376544E+09           2          21
  1.08432141E+09           2          23

 Total Heating :  4.986E+05 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  5.6176251E-03
 entot depart   498581.59       498581.59    
 shsum :  1.35034337E+10  2.04031771E+11  2.04031279E+11  2.04031279E+11
 shsum :  1.37161738E+10  2.28910154E+11  2.48783811E+10  2.28909662E+11
 shsum :  1.37929943E+10  2.41354244E+11  1.24440904E+10  2.41353753E+11
 shsum :  1.41031731E+10  2.55734120E+11  1.43798764E+10  2.55733629E+11
 shsum :  1.41031731E+10  2.55734120E+11   53.362442      2.55733629E+11
 shsum :  1.41031731E+10  2.55734120E+11   2.3436432      2.55733629E+11
 fin  2.55734120E+11  1.41031731E+10   18.699179    
   18.133091    
 -4.69278990E+13   18.699179    
 ezero   0.0000000    
  2.55734120E+11
  2.50962355E+14

Total energy input of :2.637E+11 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 2.557E+11 is absorbed (entot) 
                         through inelastic collisions (shsum =2.557E+11)
                                           + heating (elhsum =4.986E+05)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  18.70 eV (from qtoteV)
                                  or :  18.13 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 : 2.3608E+11 [eV/cm2/s]
                                                             or : 3.7825E-01 [erg/cm2/s]
 That variable "errorgaupin" is:           94

 MAIN : Total energy deposition in [CO2] is 1.801E+11 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 2.282E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 1.138E+10 [eV.cm-2.s-1] ("shsum").

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

 MAIN : Total energy deposition in [O2]  is 5.152E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 2.297E+00 [eV.cm-2.s-1] ("shsum").
  9.84616960E+08           2          21
  1.05250432E+09           2          23

 Total Heating :  4.726E+05 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  5.2226977E-03
 entot depart   472576.44       472576.44    
 shsum :  1.20404613E+10  1.80080476E+11  1.80080001E+11  1.80080001E+11
 shsum :  1.22382459E+10  2.02897244E+11  2.28167660E+10  2.02896769E+11
 shsum :  1.23096330E+10  2.14278668E+11  1.13814303E+10  2.14278193E+11
 shsum :  1.26102508E+10  2.28096049E+11  1.38173829E+10  2.28095574E+11
 shsum :  1.26102508E+10  2.28096049E+11   51.516190      2.28095574E+11
 shsum :  1.26102508E+10  2.28096049E+11   2.2968688      2.28095574E+11
 fin  2.28096049E+11  1.26102508E+10   18.721352    
   18.088146    
 -5.24836741E+13   18.721352    
 ezero   0.0000000    
  2.28096049E+11
  2.80341256E+14

Total energy input of :2.361E+11 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 2.281E+11 is absorbed (entot) 
                         through inelastic collisions (shsum =2.281E+11)
                                           + heating (elhsum =4.726E+05)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  18.72 eV (from qtoteV)
                                  or :  18.09 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 : 2.0690E+11 [eV/cm2/s]
                                                             or : 3.3150E-01 [erg/cm2/s]
 That variable "errorgaupin" is:           92

 MAIN : Total energy deposition in [CO2] is 1.551E+11 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 2.053E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 1.020E+10 [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 4.937E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 2.241E+00 [eV.cm-2.s-1] ("shsum").
  9.47204672E+08           2          21
  1.01180781E+09           2          23

 Total Heating :  4.418E+05 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  4.7777202E-03
 entot depart   441816.00       441816.00    
 shsum :  1.05027000E+10  1.55100037E+11  1.55099595E+11  1.55099595E+11
 shsum :  1.06836337E+10  1.75631532E+11  2.05315031E+10  1.75631106E+11
 shsum :  1.07488942E+10  1.85836503E+11  1.02049628E+10  1.85836077E+11
 shsum :  1.10368481E+10  1.98933185E+11  1.30966733E+10  1.98932759E+11
 shsum :  1.10368481E+10  1.98933185E+11   49.366817      1.98932759E+11
 shsum :  1.10368481E+10  1.98933185E+11   2.2408662      1.98932759E+11
 fin  1.98933185E+11  1.10368481E+10   18.746740    
   18.024456    
 -5.99656959E+13   18.746740    
 ezero   0.0000000    
  1.98933185E+11
  3.19872655E+14

Total energy input of :2.069E+11 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 1.989E+11 is absorbed (entot) 
                         through inelastic collisions (shsum =1.989E+11)
                                           + heating (elhsum =4.418E+05)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  18.75 eV (from qtoteV)
                                  or :  18.02 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 : 2.7414E+11 [eV/cm2/s]
                                                             or : 4.3923E-01 [erg/cm2/s]
 That variable "errorgaupin" is:           90

 MAIN : Total energy deposition in [CO2] is 2.137E+11 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 2.542E+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 1.421E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 5.427E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 2.364E+00 [eV.cm-2.s-1] ("shsum").
  1.02069491E+09           2          21
  1.09242432E+09           2          23

 Total Heating :  5.072E+05 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  5.7018977E-03
 entot depart   507168.75       507168.75    
 shsum :  1.40708229E+10  2.13711012E+11  2.13710504E+11  2.13710504E+11
 shsum :  1.42867548E+10  2.39132000E+11  2.54209905E+10  2.39131492E+11
 shsum :  1.43647293E+10  2.51858469E+11  1.27264748E+10  2.51857961E+11
 shsum :  1.46702029E+10  2.66071818E+11  1.42133473E+10  2.66071310E+11
 shsum :  1.46702029E+10  2.66071818E+11   54.268166      2.66071310E+11
 shsum :  1.46702029E+10  2.66071818E+11   2.3638940      2.66071310E+11
 fin  2.66071818E+11  1.46702029E+10   18.687160    
   18.136887    
 -4.51140513E+13   18.687160    
 ezero   0.0000000    
  2.66071818E+11
  2.41417343E+14

Total energy input of :2.741E+11 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 2.661E+11 is absorbed (entot) 
                         through inelastic collisions (shsum =2.661E+11)
                                           + heating (elhsum =5.072E+05)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  18.69 eV (from qtoteV)
                                  or :  18.14 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 : 2.4980E+11 [eV/cm2/s]
                                                             or : 4.0023E-01 [erg/cm2/s]
 That variable "errorgaupin" is:           98

 MAIN : Total energy deposition in [CO2] is 1.924E+11 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 2.367E+10 [eV.cm-2.s-1] ("shsum").

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

 MAIN : Total energy deposition in [O]   is 1.379E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 5.269E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 2.325E+00 [eV.cm-2.s-1] ("shsum").
  9.97504960E+08           2          21
  1.06705491E+09           2          23

 Total Heating :  4.853E+05 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  5.3707464E-03
 entot depart   485335.97       485335.97    
 shsum :  1.27782093E+10  1.92441680E+11  1.92441188E+11  1.92441188E+11
 shsum :  1.29816003E+10  2.16113283E+11  2.36716093E+10  2.16112792E+11
 shsum :  1.30550190E+10  2.27936895E+11  1.18236088E+10  2.27936403E+11
 shsum :  1.33535908E+10  2.41729864E+11  1.37929615E+10  2.41729372E+11
 shsum :  1.33535908E+10  2.41729864E+11   52.685318      2.41729372E+11
 shsum :  1.33535908E+10  2.41729864E+11   2.3245225      2.41729372E+11
 fin  2.41729864E+11  1.33535908E+10   18.706579    
   18.102238    
 -4.95621190E+13   18.706579    
 ezero   0.0000000    
  2.41729864E+11
  2.64944872E+14

Total energy input of :2.498E+11 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 2.417E+11 is absorbed (entot) 
                         through inelastic collisions (shsum =2.417E+11)
                                           + heating (elhsum =4.853E+05)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  18.71 eV (from qtoteV)
                                  or :  18.10 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 : 2.2374E+11 [eV/cm2/s]
                                                             or : 3.5847E-01 [erg/cm2/s]
 That variable "errorgaupin" is:           67

 MAIN : Total energy deposition in [CO2] is 1.699E+11 [eV.cm-2.s-1] ("shsum").

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

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

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

 MAIN : Total energy deposition in [O2]  is 5.084E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 2.278E+00 [eV.cm-2.s-1] ("shsum").
  9.67918464E+08           2          21
  1.03477312E+09           2          23

 Total Heating :  4.596E+05 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  4.9958336E-03
 entot depart   459581.06       459581.06    
 shsum :  1.13993216E+10  1.69890939E+11  1.69890480E+11  1.69890480E+11
 shsum :  1.15885148E+10  1.91608078E+11  2.17171415E+10  1.91607620E+11
 shsum :  1.16567736E+10  2.02424353E+11  1.08162673E+10  2.02423894E+11
 shsum :  1.19462554E+10  2.15681368E+11  1.32570204E+10  2.15680909E+11
 shsum :  1.19462554E+10  2.15681368E+11   50.841770      2.15680909E+11
 shsum :  1.19462554E+10  2.15681368E+11   2.2775755      2.15680909E+11
 fin  2.15681368E+11  1.19462554E+10   18.728683    
   18.054308    
 -5.54008167E+13   18.728683    
 ezero   0.0000000    
  2.15681368E+11
  2.95807316E+14

Total energy input of :2.237E+11 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 2.157E+11 is absorbed (entot) 
                         through inelastic collisions (shsum =2.157E+11)
                                           + heating (elhsum =4.596E+05)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  18.73 eV (from qtoteV)
                                  or :  18.05 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 : 1.9624E+11 [eV/cm2/s]
                                                             or : 3.1441E-01 [erg/cm2/s]
 That variable "errorgaupin" is:           92

 MAIN : Total energy deposition in [CO2] is 1.464E+11 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 1.955E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 9.702E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 1.257E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 4.870E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 2.221E+00 [eV.cm-2.s-1] ("shsum").
  9.30079744E+08           2          21
  9.93618752E+08           2          23

 Total Heating :  4.292E+05 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  4.5734998E-03
 entot depart   429199.53       429199.53    
 shsum :  9.95076403E+09  1.46387501E+11  1.46387075E+11  1.46387075E+11
 shsum :  1.01239634E+10  1.65939446E+11  1.95519508E+10  1.65939020E+11
 shsum :  1.01864059E+10  1.75641428E+11  9.70197504E+09  1.75641002E+11
 shsum :  1.04638740E+10  1.88213576E+11  1.25721539E+10  1.88213150E+11
 shsum :  1.04638740E+10  1.88213576E+11   48.697353      1.88213150E+11
 shsum :  1.04638740E+10  1.88213576E+11   2.2214155      1.88213150E+11
 fin  1.88213576E+11  1.04638740E+10   18.753942    
   17.986988    
 -6.32492613E+13   18.753942    
 ezero   0.0000000    
  1.88213576E+11
  3.37258482E+14

Total energy input of :1.962E+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 =4.292E+05)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  18.75 eV (from qtoteV)
                                  or :  17.99 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 : 2.5678E+11 [eV/cm2/s]
                                                             or : 4.1141E-01 [erg/cm2/s]
 That variable "errorgaupin" is:           94

 MAIN : Total energy deposition in [CO2] is 1.991E+11 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 2.395E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 1.197E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 1.354E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 5.341E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 2.340E+00 [eV.cm-2.s-1] ("shsum").
  1.00109824E+09           2          21
  1.07151827E+09           2          23

 Total Heating :  4.910E+05 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  5.4033138E-03
 entot depart   491040.59       491040.59    
 shsum :  1.31632660E+10  1.99143195E+11  1.99142703E+11  1.99142703E+11
 shsum :  1.33678909E+10  2.23094604E+11  2.39514132E+10  2.23094112E+11
 shsum :  1.34417562E+10  2.35065655E+11  1.19710577E+10  2.35065164E+11
 shsum :  1.37340119E+10  2.48606097E+11  1.35404370E+10  2.48605606E+11
 shsum :  1.37340119E+10  2.48606097E+11   53.412064      2.48605606E+11
 shsum :  1.37340119E+10  2.48606097E+11   2.3401136      2.48605606E+11
 fin  2.48606097E+11  1.37340119E+10   18.696486    
   18.101492    
 -4.81892898E+13   18.696486    
 ezero   0.0000000    
  2.48606097E+11
  2.57745199E+14

Total energy input of :2.568E+11 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 2.486E+11 is absorbed (entot) 
                         through inelastic collisions (shsum =2.486E+11)
                                           + heating (elhsum =4.910E+05)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  18.70 eV (from qtoteV)
                                  or :  18.10 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 : 2.3408E+11 [eV/cm2/s]
                                                             or : 3.7505E-01 [erg/cm2/s]
 That variable "errorgaupin" is:           95

 MAIN : Total energy deposition in [CO2] is 1.794E+11 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 2.231E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 1.112E+10 [eV.cm-2.s-1] ("shsum").

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

 MAIN : Total energy deposition in [O2]  is 5.183E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 2.301E+00 [eV.cm-2.s-1] ("shsum").
  9.77502208E+08           2          21
  1.04572966E+09           2          23

 Total Heating :  4.695E+05 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  5.0920434E-03
 entot depart   469459.78       469459.78    
 shsum :  1.19592100E+10  1.79353928E+11  1.79353453E+11  1.79353453E+11
 shsum :  1.21520466E+10  2.01663496E+11  2.23095665E+10  2.01663021E+11
 shsum :  1.22216274E+10  2.12787151E+11  1.11236608E+10  2.12786676E+11
 shsum :  1.25073654E+10  2.25929396E+11  1.31422454E+10  2.25928921E+11
 shsum :  1.25073654E+10  2.25929396E+11   51.834751      2.25928921E+11
 shsum :  1.25073654E+10  2.25929396E+11   2.3006241      2.25928921E+11
 fin  2.25929396E+11  1.25073654E+10   18.715693    
   18.063707    
 -5.29154022E+13   18.715693    
 ezero   0.0000000    
  2.25929396E+11
  2.82732832E+14

Total energy input of :2.341E+11 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 2.259E+11 is absorbed (entot) 
                         through inelastic collisions (shsum =2.259E+11)
                                           + heating (elhsum =4.695E+05)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  18.72 eV (from qtoteV)
                                  or :  18.06 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 : 2.0981E+11 [eV/cm2/s]
                                                             or : 3.3615E-01 [erg/cm2/s]
 That variable "errorgaupin" is:           83

 MAIN : Total energy deposition in [CO2] is 1.584E+11 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 2.048E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 1.018E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 1.264E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 5.000E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 2.254E+00 [eV.cm-2.s-1] ("shsum").
  9.47480320E+08           2          21
  1.01299245E+09           2          23

 Total Heating :  4.441E+05 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  4.7397455E-03
 entot depart   444064.25       444064.25    
 shsum :  1.06756690E+10  1.58392304E+11  1.58391861E+11  1.58391861E+11
 shsum :  1.08551639E+10  1.78868699E+11  2.04763955E+10  1.78868257E+11
 shsum :  1.09198940E+10  1.89047702E+11  1.01790106E+10  1.89047276E+11
 shsum :  1.11970652E+10  2.01683649E+11  1.26359491E+10  2.01683223E+11
 shsum :  1.11970652E+10  2.01683649E+11   49.999016      2.01683223E+11
 shsum :  1.11970652E+10  2.01683649E+11   2.2535677      2.01683223E+11
 fin  2.01683649E+11  1.11970652E+10   18.737703    
   18.012188    
 -5.91076545E+13   18.737703    
 ezero   0.0000000    
  2.01683649E+11
  3.15447698E+14

Total energy input of :2.098E+11 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 2.017E+11 is absorbed (entot) 
                         through inelastic collisions (shsum =2.017E+11)
                                           + heating (elhsum =4.441E+05)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  18.74 eV (from qtoteV)
                                  or :  18.01 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 : 1.8421E+11 [eV/cm2/s]
                                                             or : 2.9514E-01 [erg/cm2/s]
 That variable "errorgaupin" is:           80

 MAIN : Total energy deposition in [CO2] is 1.366E+11 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 1.845E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 9.135E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 1.199E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 4.787E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 2.197E+00 [eV.cm-2.s-1] ("shsum").
  9.09253760E+08           2          21
  9.71430656E+08           2          23

 Total Heating :  4.142E+05 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  4.3429951E-03
 entot depart   414207.34       414207.34    
 shsum :  9.32822528E+09  1.36563794E+11  1.36563376E+11  1.36563376E+11
 shsum :  9.49269504E+09  1.55010941E+11  1.84471511E+10  1.55010531E+11
 shsum :  9.55195904E+09  1.64146119E+11  9.13517466E+09  1.64145709E+11
 shsum :  9.81782938E+09  1.76136798E+11  1.19906755E+10  1.76136389E+11
 shsum :  9.81782938E+09  1.76136798E+11   47.866550      1.76136389E+11
 shsum :  9.81782938E+09  1.76136798E+11   2.1973500      1.76136389E+11
 fin  1.76136798E+11  9.81782938E+09   18.762743    
   17.940502    
 -6.74112649E+13   18.762743    
 ezero   0.0000000    
  1.76136798E+11
  3.59282571E+14

Total energy input of :1.842E+11 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 1.761E+11 is absorbed (entot) 
                         through inelastic collisions (shsum =1.761E+11)
                                           + heating (elhsum =4.142E+05)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  18.76 eV (from qtoteV)
                                  or :  17.94 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 : 2.3757E+11 [eV/cm2/s]
                                                             or : 3.8064E-01 [erg/cm2/s]
 That variable "errorgaupin" is:           92

 MAIN : Total energy deposition in [CO2] is 1.830E+11 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 2.232E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 1.113E+10 [eV.cm-2.s-1] ("shsum").

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

 MAIN : Total energy deposition in [O2]  is 5.236E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 2.311E+00 [eV.cm-2.s-1] ("shsum").
  9.77172160E+08           2          21
  1.04591712E+09           2          23

 Total Heating :  4.719E+05 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  5.0716782E-03
 entot depart   471921.28       471921.28    
 shsum :  1.21600819E+10  1.83049585E+11  1.83049110E+11  1.83049110E+11
 shsum :  1.23521475E+10  2.05371097E+11  2.23215104E+10  2.05370622E+11
 shsum :  1.24214497E+10  2.16504713E+11  1.11336212E+10  2.16504238E+11
 shsum :  1.26991985E+10  2.29305532E+11  1.28008161E+10  2.29305057E+11
 shsum :  1.26991985E+10  2.29305532E+11   52.356392      2.29305057E+11
 shsum :  1.26991985E+10  2.29305532E+11   2.3108335      2.29305057E+11
 fin  2.29305532E+11  1.26991985E+10   18.707621    
   18.056694    
 -5.21160685E+13   18.707621    
 ezero   0.0000000    
  2.29305532E+11
  2.78582031E+14

Total energy input of :2.376E+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 =4.719E+05)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  18.71 eV (from qtoteV)
                                  or :  18.06 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 : 2.1672E+11 [eV/cm2/s]
                                                             or : 3.4723E-01 [erg/cm2/s]
 That variable "errorgaupin" is:           89

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

 MAIN : Total energy deposition in [N2]  is 2.080E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 1.035E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 1.243E+10 [eV.cm-2.s-1] ("shsum").

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

 MAIN : Total energy deposition in [O+]  is 2.271E+00 [eV.cm-2.s-1] ("shsum").
  9.53172288E+08           2          21
  1.01971789E+09           2          23

 Total Heating :  4.507E+05 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  4.7826180E-03
 entot depart   450701.72       450701.72    
 shsum :  1.10545654E+10  1.64910465E+11  1.64910006E+11  1.64910006E+11
 shsum :  1.12356844E+10  1.85710199E+11  2.07997297E+10  1.85709740E+11
 shsum :  1.13010043E+10  1.96058448E+11  1.03482552E+10  1.96057989E+11
 shsum :  1.15726674E+10  2.08486040E+11  1.24275999E+10  2.08485581E+11
 shsum :  1.15726674E+10  2.08486040E+11   50.789673      2.08485581E+11
 shsum :  1.15726674E+10  2.08486040E+11   2.2712865      2.08485581E+11
 fin  2.08486040E+11  1.15726674E+10   18.726761    
   18.015383    
 -5.71892595E+13   18.726761    
 ezero   0.0000000    
  2.08486040E+11
  3.05387912E+14

Total energy input of :2.167E+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 =4.507E+05)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  18.73 eV (from qtoteV)
                                  or :  18.02 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 : 1.9443E+11 [eV/cm2/s]
                                                             or : 3.1151E-01 [erg/cm2/s]
 That variable "errorgaupin" is:           88

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

 MAIN : Total energy deposition in [N2]  is 1.910E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 9.474E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 1.195E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 4.897E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 2.224E+00 [eV.cm-2.s-1] ("shsum").
  9.22747136E+08           2          21
  9.86568576E+08           2          23

 Total Heating :  4.258E+05 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  4.4554798E-03
 entot depart   425806.78       425806.78    
 shsum :  9.87689062E+09  1.45713218E+11  1.45712792E+11  1.45712792E+11
 shsum :  1.00456202E+10  1.64814930E+11  1.91017124E+10  1.64814504E+11
 shsum :  1.01064335E+10  1.74288503E+11  9.47356570E+09  1.74288077E+11
 shsum :  1.03701084E+10  1.86242712E+11  1.19542036E+10  1.86242286E+11
 shsum :  1.03701084E+10  1.86242712E+11   48.968491      1.86242286E+11
 shsum :  1.03701084E+10  1.86242712E+11   2.2242134      1.86242286E+11
 fin  1.86242712E+11  1.03701084E+10   18.748602    
   17.959572    
 -6.38211546E+13   18.748602    
 ezero   0.0000000    
  1.86242712E+11
  3.40404881E+14

Total energy input of :1.944E+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 =4.258E+05)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  18.75 eV (from qtoteV)
                                  or :  17.96 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 : 1.7094E+11 [eV/cm2/s]
                                                             or : 2.7388E-01 [erg/cm2/s]
 That variable "errorgaupin" is:           85

 MAIN : Total energy deposition in [CO2] is 1.257E+11 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 1.722E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 8.508E+09 [eV.cm-2.s-1] ("shsum").

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

 MAIN : Total energy deposition in [O2]  is 4.686E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 2.168E+00 [eV.cm-2.s-1] ("shsum").
  8.84220096E+08           2          21
  9.44701056E+08           2          23

 Total Heating :  3.967E+05 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  4.0872185E-03
 entot depart   396659.94       396659.94    
 shsum :  8.64165683E+09  1.25743251E+11  1.25742858E+11  1.25742858E+11
 shsum :  8.79644058E+09  1.42967259E+11  1.72240077E+10  1.42966866E+11
 shsum :  8.85217997E+09  1.51475552E+11  8.50829414E+09  1.51475159E+11
 shsum :  9.10533632E+09  1.62828075E+11  1.13525268E+10  1.62827682E+11
 shsum :  9.10533632E+09  1.62828075E+11   46.856968      1.62827682E+11
 shsum :  9.10533632E+09  1.62828075E+11   2.1680784      1.62827682E+11
 fin  1.62828075E+11  9.10533632E+09   18.773298    
   17.882708    
 -7.26861978E+13   18.773298    
 ezero   0.0000000    
  1.62828075E+11
  3.87178652E+14

Total energy input of :1.709E+11 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 1.628E+11 is absorbed (entot) 
                         through inelastic collisions (shsum =1.628E+11)
                                           + heating (elhsum =3.967E+05)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  18.77 eV (from qtoteV)
                                  or :  17.88 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 : 2.1672E+11 [eV/cm2/s]
                                                             or : 3.4722E-01 [erg/cm2/s]
 That variable "errorgaupin" is:          101

 MAIN : Total energy deposition in [CO2] is 1.656E+11 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 2.054E+10 [eV.cm-2.s-1] ("shsum").

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

 MAIN : Total energy deposition in [O]   is 1.199E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 5.107E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 2.275E+00 [eV.cm-2.s-1] ("shsum").
  9.48124672E+08           2          21
  1.01477363E+09           2          23

 Total Heating :  4.495E+05 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  4.7082882E-03
 entot depart   449468.91       449468.91    
 shsum :  1.10715802E+10  1.65614371E+11  1.65613928E+11  1.65613928E+11
 shsum :  1.12498842E+10  1.86154566E+11  2.05401907E+10  1.86154123E+11
 shsum :  1.13141862E+10  1.96373545E+11  1.02189834E+10  1.96373103E+11
 shsum :  1.15761101E+10  2.08367190E+11  1.19936532E+10  2.08366764E+11
 shsum :  1.15761101E+10  2.08367190E+11   51.072449      2.08366764E+11
 shsum :  1.15761101E+10  2.08367190E+11   2.2751479      2.08366764E+11
 fin  2.08367190E+11  1.15761101E+10   18.721073    
   17.999760    
 -5.71722516E+13   18.721073    
 ezero   0.0000000    
  2.08367190E+11
  3.05389824E+14

Total energy input of :2.167E+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 =4.495E+05)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  18.72 eV (from qtoteV)
                                  or :  18.00 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 : 1.9787E+11 [eV/cm2/s]
                                                             or : 3.1704E-01 [erg/cm2/s]
 That variable "errorgaupin" is:           81

 MAIN : Total energy deposition in [CO2] is 1.493E+11 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 1.915E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 9.502E+09 [eV.cm-2.s-1] ("shsum").

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

 MAIN : Total energy deposition in [O2]  is 4.952E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 2.236E+00 [eV.cm-2.s-1] ("shsum").
  9.23752000E+08           2          21
  9.88203136E+08           2          23

 Total Heating :  4.288E+05 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  4.4436320E-03
 entot depart   428754.38       428754.38    
 shsum :  1.00736686E+10  1.49276246E+11  1.49275820E+11  1.49275820E+11
 shsum :  1.02419497E+10  1.68426799E+11  1.91505449E+10  1.68426373E+11
 shsum :  1.03026022E+10  1.77928798E+11  9.50199091E+09  1.77928372E+11
 shsum :  1.05589207E+10  1.89577118E+11  1.16483133E+10  1.89576692E+11
 shsum :  1.05589207E+10  1.89577118E+11   49.523117      1.89576692E+11
 shsum :  1.05589207E+10  1.89577118E+11   2.2356355      1.89576692E+11
 fin  1.89577118E+11  1.05589207E+10   18.740070    
   17.954214    
 -6.26799181E+13   18.740070    
 ezero   0.0000000    
  1.89577118E+11
  3.34470041E+14

Total energy input of :1.979E+11 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 1.896E+11 is absorbed (entot) 
                         through inelastic collisions (shsum =1.896E+11)
                                           + heating (elhsum =4.288E+05)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  18.74 eV (from qtoteV)
                                  or :  17.95 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 : 1.7775E+11 [eV/cm2/s]
                                                             or : 2.8479E-01 [erg/cm2/s]
 That variable "errorgaupin" is:           91

 MAIN : Total energy deposition in [CO2] is 1.320E+11 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 1.760E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 8.704E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 1.121E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 4.773E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 2.189E+00 [eV.cm-2.s-1] ("shsum").
  8.93008128E+08           2          21
  9.54740160E+08           2          23

 Total Heating :  4.045E+05 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  4.1441792E-03
 entot depart   404546.84       404546.84    
 shsum :  9.01153690E+09  1.32003545E+11  1.32003144E+11  1.32003144E+11
 shsum :  9.16847821E+09  1.49604909E+11  1.76013599E+10  1.49604499E+11
 shsum :  9.22500301E+09  1.58309335E+11  8.70443110E+09  1.58308925E+11
 shsum :  9.47397222E+09  1.69520742E+11  1.12114033E+10  1.69520333E+11
 shsum :  9.47397222E+09  1.69520742E+11   47.725475      1.69520333E+11
 shsum :  9.47397222E+09  1.69520742E+11   2.1886823      1.69520333E+11
 fin  1.69520742E+11  9.47397222E+09   18.761614    
   17.893312    
 -6.98579493E+13   18.761614    
 ezero   0.0000000    
  1.69520742E+11
  3.72345110E+14

Total energy input of :1.777E+11 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 1.695E+11 is absorbed (entot) 
                         through inelastic collisions (shsum =1.695E+11)
                                           + heating (elhsum =4.045E+05)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  18.76 eV (from qtoteV)
                                  or :  17.89 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 : 1.5656E+11 [eV/cm2/s]
                                                             or : 2.5084E-01 [erg/cm2/s]
 That variable "errorgaupin" is:           95

 MAIN : Total energy deposition in [CO2] is 1.141E+11 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 1.589E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 7.826E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 1.066E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 4.565E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 2.133E+00 [eV.cm-2.s-1] ("shsum").
  8.54339136E+08           2          21
  9.12747072E+08           2          23

 Total Heating :  3.763E+05 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  3.8072774E-03
 entot depart   376347.91       376347.91    
 shsum :  7.89868851E+09  1.14059092E+11  1.14058715E+11  1.14058715E+11
 shsum :  8.04287078E+09  1.29949532E+11  1.58904402E+10  1.29949155E+11
 shsum :  8.09475277E+09  1.37775235E+11  7.82570854E+09  1.37774858E+11
 shsum :  8.33405901E+09  1.48432912E+11  1.06576835E+10  1.48432536E+11
 shsum :  8.33405901E+09  1.48432912E+11   45.646770      1.48432536E+11
 shsum :  8.33405901E+09  1.48432912E+11   2.1328330      1.48432536E+11
 fin  1.48432912E+11  8.33405901E+09   18.785795    
   17.810398    
 -7.94129554E+13   18.785795    
 ezero   0.0000000    
  1.48432912E+11
  4.22728734E+14

Total energy input of :1.566E+11 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 1.484E+11 is absorbed (entot) 
                         through inelastic collisions (shsum =1.484E+11)
                                           + heating (elhsum =3.763E+05)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  18.79 eV (from qtoteV)
                                  or :  17.81 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 : 1.9443E+11 [eV/cm2/s]
                                                             or : 3.1151E-01 [erg/cm2/s]
 That variable "errorgaupin" is:           85

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

 MAIN : Total energy deposition in [N2]  is 1.862E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 9.233E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 1.112E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 4.952E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 2.232E+00 [eV.cm-2.s-1] ("shsum").
  9.12903296E+08           2          21
  9.76961664E+08           2          23

 Total Heating :  4.233E+05 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  4.3143793E-03
 entot depart   423260.53       423260.53    
 shsum :  9.90949581E+09  1.47045499E+11  1.47045073E+11  1.47045073E+11
 shsum :  1.00728822E+10  1.65662753E+11  1.86172498E+10  1.65662327E+11
 shsum :  1.01317642E+10  1.74895301E+11  9.23254886E+09  1.74894875E+11
 shsum :  1.03764920E+10  1.86012566E+11  1.11172598E+10  1.86012140E+11
 shsum :  1.03764920E+10  1.86012566E+11   49.522572      1.86012140E+11
 shsum :  1.03764920E+10  1.86012566E+11   2.2318316      1.86012140E+11
 fin  1.86012566E+11  1.03764920E+10   18.737267    
   17.926344    
 -6.37818917E+13   18.737267    
 ezero   0.0000000    
  1.86012566E+11
  3.40401257E+14

Total energy input of :1.944E+11 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 1.860E+11 is absorbed (entot) 
                         through inelastic collisions (shsum =1.860E+11)
                                           + heating (elhsum =4.233E+05)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  18.74 eV (from qtoteV)
                                  or :  17.93 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 : 1.7775E+11 [eV/cm2/s]
                                                             or : 2.8479E-01 [erg/cm2/s]
 That variable "errorgaupin" is:           91

 MAIN : Total energy deposition in [CO2] is 1.326E+11 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 1.737E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 8.590E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 1.080E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 4.800E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 2.192E+00 [eV.cm-2.s-1] ("shsum").
  8.88248576E+08           2          21
  9.50125632E+08           2          23

 Total Heating :  4.032E+05 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  4.0763244E-03
 entot depart   403247.97       403247.97    
 shsum :  9.02738944E+09  1.32643643E+11  1.32643242E+11  1.32643242E+11
 shsum :  9.18176051E+09  1.50015345E+11  1.73717094E+10  1.50014951E+11
 shsum :  9.23735757E+09  1.58605623E+11  8.59027149E+09  1.58605230E+11
 shsum :  9.47701555E+09  1.69408741E+11  1.08031140E+10  1.69408348E+11
 shsum :  9.47701555E+09  1.69408741E+11   48.000153      1.69408348E+11
 shsum :  9.47701555E+09  1.69408741E+11   2.1924989      1.69408348E+11
 fin  1.69408741E+11  9.47701555E+09   18.755959    
   17.875748    
 -6.98355181E+13   18.755959    
 ezero   0.0000000    
  1.69408741E+11
  3.72337761E+14

Total energy input of :1.778E+11 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 1.694E+11 is absorbed (entot) 
                         through inelastic collisions (shsum =1.694E+11)
                                           + heating (elhsum =4.032E+05)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  18.76 eV (from qtoteV)
                                  or :  17.88 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 : 1.5995E+11 [eV/cm2/s]
                                                             or : 2.5628E-01 [erg/cm2/s]
 That variable "errorgaupin" is:           89

 MAIN : Total energy deposition in [CO2] is 1.174E+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 7.877E+09 [eV.cm-2.s-1] ("shsum").

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

 MAIN : Total energy deposition in [O2]  is 4.624E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 2.146E+00 [eV.cm-2.s-1] ("shsum").
  8.57349696E+08           2          21
  9.16532992E+08           2          23

 Total Heating :  3.800E+05 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  3.8070818E-03
 entot depart   379974.41       379974.41    
 shsum :  8.08951501E+09  1.17437981E+11  1.17437604E+11  1.17437604E+11
 shsum :  8.23369011E+09  1.33422842E+11  1.59848612E+10  1.33422465E+11
 shsum :  8.28557363E+09  1.41299745E+11  7.87690598E+09  1.41299368E+11
 shsum :  8.51858842E+09  1.51706436E+11  1.04066867E+10  1.51706059E+11
 shsum :  8.51858842E+09  1.51706436E+11   46.238358      1.51706059E+11
 shsum :  8.51858842E+09  1.51706436E+11   2.1458733      1.51706059E+11
 fin  1.51706436E+11  8.51858842E+09   18.777020    
   17.808870    
 -7.76927204E+13   18.777020    
 ezero   0.0000000    
  1.51706436E+11
  4.13764902E+14

Total energy input of :1.600E+11 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 1.517E+11 is absorbed (entot) 
                         through inelastic collisions (shsum =1.517E+11)
                                           + heating (elhsum =3.800E+05)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  18.78 eV (from qtoteV)
                                  or :  17.81 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 : 1.4125E+11 [eV/cm2/s]
                                                             or : 2.2630E-01 [erg/cm2/s]
 That variable "errorgaupin" is:           90

 MAIN : Total energy deposition in [CO2] is 1.017E+11 [eV.cm-2.s-1] ("shsum").

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

 MAIN : Total energy deposition in [CO]  is 7.093E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 9.906E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 4.421E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 2.091E+00 [eV.cm-2.s-1] ("shsum").
  8.18813376E+08           2          21
  8.74718272E+08           2          23

 Total Heating :  3.530E+05 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  3.5044148E-03
 entot depart   353033.38       353033.38    
 shsum :  7.10812928E+09  1.01666333E+11  1.01665980E+11  1.01665980E+11
 shsum :  7.24084224E+09  1.16122092E+11  1.44557588E+10  1.16121739E+11
 shsum :  7.28855347E+09  1.23214651E+11  7.09255885E+09  1.23214299E+11
 shsum :  7.51284634E+09  1.33120524E+11  9.90587699E+09  1.33120180E+11
 shsum :  7.51284634E+09  1.33120524E+11   44.208462      1.33120180E+11
 shsum :  7.51284634E+09  1.33120524E+11   2.0906081      1.33120180E+11
 fin  1.33120524E+11  7.51284634E+09   18.800472    
   17.719053    
 -8.80934115E+13   18.800472    
 ezero   0.0000000    
  1.33120524E+11
  4.68570228E+14

Total energy input of :1.412E+11 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 1.331E+11 is absorbed (entot) 
                         through inelastic collisions (shsum =1.331E+11)
                                           + heating (elhsum =3.530E+05)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  18.80 eV (from qtoteV)
                                  or :  17.72 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 : 1.7095E+11 [eV/cm2/s]
                                                             or : 2.7389E-01 [erg/cm2/s]
 That variable "errorgaupin" is:           69

 MAIN : Total energy deposition in [CO2] is 1.276E+11 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 1.656E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 8.181E+09 [eV.cm-2.s-1] ("shsum").

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

 MAIN : Total energy deposition in [O2]  is 4.766E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 2.179E+00 [eV.cm-2.s-1] ("shsum").
  8.70100736E+08           2          21
  9.30980288E+08           2          23

 Total Heating :  3.928E+05 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  3.8912694E-03
 entot depart   392780.78       392780.78    
 shsum :  8.68747776E+09  1.27586927E+11  1.27586533E+11  1.27586533E+11
 shsum :  8.83484058E+09  1.44151101E+11  1.65641677E+10  1.44150708E+11
 shsum :  8.88790118E+09  1.52331878E+11  8.18077850E+09  1.52331485E+11
 shsum :  9.11398093E+09  1.62500952E+11  1.01690726E+10  1.62500559E+11
 shsum :  9.11398093E+09  1.62500952E+11   47.656738      1.62500559E+11
 shsum :  9.11398093E+09  1.62500952E+11   2.1791897      1.62500559E+11
 fin  1.62500952E+11  9.11398093E+09   18.756697    
   17.829855    
 -7.26172518E+13   18.756697    
 ezero   0.0000000    
  1.62500952E+11
  3.87153721E+14

Total energy input of :1.709E+11 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 1.625E+11 is absorbed (entot) 
                         through inelastic collisions (shsum =1.625E+11)
                                           + heating (elhsum =3.928E+05)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  18.76 eV (from qtoteV)
                                  or :  17.83 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 : 1.5657E+11 [eV/cm2/s]
                                                             or : 2.5086E-01 [erg/cm2/s]
 That variable "errorgaupin" is:           89

 MAIN : Total energy deposition in [CO2] is 1.152E+11 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 1.547E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 7.620E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 9.890E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 4.617E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 2.140E+00 [eV.cm-2.s-1] ("shsum").
  8.45353728E+08           2          21
  9.04088768E+08           2          23

 Total Heating :  3.737E+05 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  3.6820513E-03
 entot depart   373740.28       373740.28    
 shsum :  7.92837837E+09  1.15238126E+11  1.15237749E+11  1.15237749E+11
 shsum :  8.06781850E+09  1.30712846E+11  1.54747187E+10  1.30712470E+11
 shsum :  8.11798989E+09  1.38332357E+11  7.61951130E+09  1.38331980E+11
 shsum :  8.33959834E+09  1.48222312E+11  9.88995174E+09  1.48221936E+11
 shsum :  8.33959834E+09  1.48222312E+11   46.174778      1.48221936E+11
 shsum :  8.33959834E+09  1.48222312E+11   2.1402664      1.48221936E+11
 fin  1.48222312E+11  8.33959834E+09   18.774881    
   17.773315    
 -7.93602079E+13   18.774881    
 ezero   0.0000000    
  1.48222312E+11
  4.22693535E+14

Total energy input of :1.566E+11 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 1.482E+11 is absorbed (entot) 
                         through inelastic collisions (shsum =1.482E+11)
                                           + heating (elhsum =3.737E+05)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  18.77 eV (from qtoteV)
                                  or :  17.77 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 : 1.4126E+11 [eV/cm2/s]
                                                             or : 2.2632E-01 [erg/cm2/s]
 That variable "errorgaupin" is:           72

 MAIN : Total energy deposition in [CO2] is 1.022E+11 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 1.426E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 6.997E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 9.539E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 4.447E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 2.094E+00 [eV.cm-2.s-1] ("shsum").
  8.14601344E+08           2          21
  8.70698944E+08           2          23

 Total Heating :  3.517E+05 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  3.4455811E-03
 entot depart   351734.97       351734.97    
 shsum :  7.12233984E+09  1.02221357E+11  1.02221005E+11  1.02221005E+11
 shsum :  7.25282458E+09  1.16484973E+11  1.42636175E+10  1.16484620E+11
 shsum :  7.29973248E+09  1.23482366E+11  6.99739136E+09  1.23482014E+11
 shsum :  7.51548518E+09  1.33021098E+11  9.53872896E+09  1.33020746E+11
 shsum :  7.51548518E+09  1.33021098E+11   44.466171      1.33020746E+11
 shsum :  7.51548518E+09  1.33021098E+11   2.0942926      1.33020746E+11
 fin  1.33021098E+11  7.51548518E+09   18.795202    
   17.699602    
 -8.80624827E+13   18.795202    
 ezero   0.0000000    
  1.33021098E+11
  4.68537043E+14

Total energy input of :1.413E+11 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 1.330E+11 is absorbed (entot) 
                         through inelastic collisions (shsum =1.330E+11)
                                           + heating (elhsum =3.517E+05)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  18.80 eV (from qtoteV)
                                  or :  17.70 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 : 1.2517E+11 [eV/cm2/s]
                                                             or : 2.0055E-01 [erg/cm2/s]
 That variable "errorgaupin" is:           84

 MAIN : Total energy deposition in [CO2] is 8.875E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 1.293E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 6.315E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 9.097E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 4.251E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 2.040E+00 [eV.cm-2.s-1] ("shsum").
  7.76650560E+08           2          21
  8.29557248E+08           2          23

 Total Heating :  3.265E+05 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  3.1800822E-03
 entot depart   326459.50       326459.50    
 shsum :  6.28021197E+09  8.87458857E+10  8.87455580E+10  8.87455580E+10
 shsum :  6.40064205E+09  1.01677056E+11  1.29311713E+10  1.01676728E+11
 shsum :  6.44388915E+09  1.07992179E+11  6.31512218E+09  1.07991851E+11
 shsum :  6.65196134E+09  1.17088739E+11  9.09656166E+09  1.17088412E+11
 shsum :  6.65196134E+09  1.17088739E+11   42.507133      1.17088412E+11
 shsum :  6.65196134E+09  1.17088739E+11   2.0400622      1.17088412E+11
 fin  1.17088739E+11  6.65196134E+09   18.817591    
   17.602139    
 -9.94943099E+13   18.817591    
 ezero   0.0000000    
  1.17088739E+11
  5.28730338E+14

Total energy input of :1.252E+11 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 1.171E+11 is absorbed (entot) 
                         through inelastic collisions (shsum =1.171E+11)
                                           + heating (elhsum =3.265E+05)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  18.82 eV (from qtoteV)
                                  or :  17.60 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 : 1.4657E+11 [eV/cm2/s]
                                                             or : 2.3484E-01 [erg/cm2/s]
 That variable "errorgaupin" is:          108

 MAIN : Total energy deposition in [CO2] is 1.075E+11 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 1.440E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 7.072E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 9.145E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 4.541E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 2.115E+00 [eV.cm-2.s-1] ("shsum").
  8.17815232E+08           2          21
  8.74801408E+08           2          23

 Total Heating :  3.574E+05 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  3.4404323E-03
 entot depart   357413.06       357413.06    
 shsum :  7.42174310E+09  1.07531084E+11  1.07530723E+11  1.07530723E+11
 shsum :  7.55203277E+09  1.21926173E+11  1.43950909E+10  1.21925812E+11
 shsum :  7.59889254E+09  1.28997900E+11  7.07173171E+09  1.28997540E+11
 shsum :  7.80475290E+09  1.38143351E+11  9.14544640E+09  1.38142990E+11
 shsum :  7.80475290E+09  1.38143351E+11   45.406860      1.38142990E+11
 shsum :  7.80475290E+09  1.38143351E+11   2.1148024      1.38142990E+11
 fin  1.38143351E+11  7.80475290E+09   18.780064    
   17.699902    
 -8.47986179E+13   18.780064    
 ezero   0.0000000    
  1.38143351E+11
  4.51535348E+14

Total energy input of :1.466E+11 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 1.381E+11 is absorbed (entot) 
                         through inelastic collisions (shsum =1.381E+11)
                                           + heating (elhsum =3.574E+05)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  18.78 eV (from qtoteV)
                                  or :  17.70 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 : 1.3462E+11 [eV/cm2/s]
                                                             or : 2.1569E-01 [erg/cm2/s]
 That variable "errorgaupin" is:           89

 MAIN : Total energy deposition in [CO2] is 9.733E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 1.347E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 6.598E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 8.906E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 4.399E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 2.077E+00 [eV.cm-2.s-1] ("shsum").
  7.93346496E+08           2          21
  8.48259264E+08           2          23

 Total Heating :  3.397E+05 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  3.2623834E-03
 entot depart   339724.28       339724.28    
 shsum :  6.79164518E+09  9.73297172E+10  9.73293814E+10  9.73293814E+10
 shsum :  6.91519232E+09  1.10803567E+11  1.34738483E+10  1.10803231E+11
 shsum :  6.95959040E+09  1.17401420E+11  6.59784960E+09  1.17401084E+11
 shsum :  7.16165939E+09  1.26307492E+11  8.90607411E+09  1.26307156E+11
 shsum :  7.16165939E+09  1.26307492E+11   43.985500      1.26307156E+11
 shsum :  7.16165939E+09  1.26307492E+11   2.0766733      1.26307156E+11
 fin  1.26307492E+11  7.16165939E+09   18.797441    
   17.636623    
 -9.24132594E+13   18.797441    
 ezero   0.0000000    
  1.26307492E+11
  4.91626787E+14

Total energy input of :1.346E+11 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 1.263E+11 is absorbed (entot) 
                         through inelastic collisions (shsum =1.263E+11)
                                           + heating (elhsum =3.397E+05)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  18.80 eV (from qtoteV)
                                  or :  17.64 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 : 1.2190E+11 [eV/cm2/s]
                                                             or : 1.9531E-01 [erg/cm2/s]
 That variable "errorgaupin" is:           94

 MAIN : Total energy deposition in [CO2] is 8.660E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 1.245E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 6.074E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 8.606E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 4.236E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 2.032E+00 [eV.cm-2.s-1] ("shsum").
  7.63269248E+08           2          21
  8.15647040E+08           2          23

 Total Heating :  3.194E+05 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  3.0613444E-03
 entot depart   319442.44       319442.44    
 shsum :  6.12362342E+09  8.65973617E+10  8.65970422E+10  8.65970422E+10
 shsum :  6.23955712E+09  9.90492180E+10  1.24518584E+10  9.90488986E+10
 shsum :  6.28117914E+09  1.05123160E+11  6.07394099E+09  1.05122841E+11
 shsum :  6.47827968E+09  1.13728954E+11  8.60579635E+09  1.13728635E+11
 shsum :  6.47827968E+09  1.13728954E+11   42.355263      1.13728635E+11
 shsum :  6.47827968E+09  1.13728954E+11   2.0318713      1.13728635E+11
 fin  1.13728954E+11  6.47827968E+09   18.816648    
   17.555426    
 -1.02161736E+14   18.816648    
 ezero   0.0000000    
  1.13728954E+11
  5.42932688E+14

Total energy input of :1.219E+11 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 1.137E+11 is absorbed (entot) 
                         through inelastic collisions (shsum =1.137E+11)
                                           + heating (elhsum =3.194E+05)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  18.82 eV (from qtoteV)
                                  or :  17.56 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 : 1.0857E+11 [eV/cm2/s]
                                                             or : 1.7395E-01 [erg/cm2/s]
 That variable "errorgaupin" is:           90

 MAIN : Total energy deposition in [CO2] is 7.551E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 1.133E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 5.501E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 8.229E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 4.050E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 1.979E+00 [eV.cm-2.s-1] ("shsum").
  7.26637760E+08           2          21
  7.75974144E+08           2          23

 Total Heating :  2.964E+05 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  2.8360183E-03
 entot depart   296370.56       296370.56    
 shsum :  5.42694195E+09  7.55114394E+10  7.55111444E+10  7.55111444E+10
 shsum :  5.53434266E+09  8.68420157E+10  1.13305733E+10  8.68417208E+10
 shsum :  5.57285786E+09  9.23432468E+10  5.50123008E+09  9.23429519E+10
 shsum :  5.76344371E+09  1.00572447E+11  8.22919885E+09  1.00572152E+11
 shsum :  5.76344371E+09  1.00572447E+11   40.498352      1.00572152E+11
 shsum :  5.76344371E+09  1.00572447E+11   1.9793770      1.00572152E+11
 fin  1.00572447E+11  5.76344371E+09   18.837576    
   17.450062    
 -1.14832787E+14   18.837576    
 ezero   0.0000000    
  1.00572447E+11
  6.09594238E+14

Total energy input of :1.086E+11 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 1.006E+11 is absorbed (entot) 
                         through inelastic collisions (shsum =1.006E+11)
                                           + heating (elhsum =2.964E+05)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  18.84 eV (from qtoteV)
                                  or :  17.45 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 : 1.2166E+11 [eV/cm2/s]
                                                             or : 1.9493E-01 [erg/cm2/s]
 That variable "errorgaupin" is:           85

 MAIN : Total energy deposition in [CO2] is 8.724E+10 [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 5.916E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 8.042E+09 [eV.cm-2.s-1] ("shsum").

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

 MAIN : Total energy deposition in [O+]  is 2.035E+00 [eV.cm-2.s-1] ("shsum").
  7.53489280E+08           2          21
  8.05701248E+08           2          23

 Total Heating :  3.165E+05 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  2.9637218E-03
 entot depart   316461.75       316461.75    
 shsum :  6.13218202E+09  8.72403190E+10  8.72399995E+10  8.72399995E+10
 shsum :  6.24441856E+09  9.93692385E+10  1.21289175E+10  9.93689190E+10
 shsum :  6.28472371E+09  1.05285624E+11  5.91638426E+09  1.05285304E+11
 shsum :  6.46862899E+09  1.13327423E+11  8.04179917E+09  1.13327104E+11
 shsum :  6.46862899E+09  1.13327423E+11   42.678665      1.13327104E+11
 shsum :  6.46862899E+09  1.13327423E+11   2.0350986      1.13327104E+11
 fin  1.13327423E+11  6.46862899E+09   18.808363    
   17.519543    
 -1.02314149E+14   18.808363    
 ezero   0.0000000    
  1.13327423E+11
  5.43982203E+14

Total energy input of :1.217E+11 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 1.133E+11 is absorbed (entot) 
                         through inelastic collisions (shsum =1.133E+11)
                                           + heating (elhsum =3.165E+05)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  18.81 eV (from qtoteV)
                                  or :  17.52 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 : 1.1222E+11 [eV/cm2/s]
                                                             or : 1.7980E-01 [erg/cm2/s]
 That variable "errorgaupin" is:          100

 MAIN : Total energy deposition in [CO2] is 7.925E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 1.139E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 5.536E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 7.848E+09 [eV.cm-2.s-1] ("shsum").

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

 MAIN : Total energy deposition in [O+]  is 1.998E+00 [eV.cm-2.s-1] ("shsum").
  7.29984000E+08           2          21
  7.80249152E+08           2          23

 Total Heating :  3.007E+05 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  2.8193346E-03
 entot depart   300661.06       300661.06    
 shsum :  5.63551642E+09  7.92506696E+10  7.92503665E+10  7.92503665E+10
 shsum :  5.74228531E+09  9.06387374E+10  1.13880699E+10  9.06384343E+10
 shsum :  5.78059213E+09  9.61749729E+10  5.53623808E+09  9.61746698E+10
 shsum :  5.96149197E+09  1.04023212E+11  7.84823552E+09  1.04022909E+11
 shsum :  5.96149197E+09  1.04023212E+11   41.348961      1.04022909E+11
 shsum :  5.96149197E+09  1.04023212E+11   1.9984334      1.04022909E+11
 fin  1.04023212E+11  5.96149197E+09   18.824486    
   17.449190    
 -1.11017892E+14   18.824486    
 ezero   0.0000000    
  1.04023212E+11
  5.89752563E+14

Total energy input of :1.122E+11 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 1.040E+11 is absorbed (entot) 
                         through inelastic collisions (shsum =1.040E+11)
                                           + heating (elhsum =3.007E+05)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  18.82 eV (from qtoteV)
                                  or :  17.45 eV (from (entot))
                                  or :******* eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  55.0, longitude  70.0.

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

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

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

 MAIN : The total energy input from the precipitation source is : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]
                                  and from photoelectron source : 1.0219E+11 [eV/cm2/s]
                                                             or : 1.6373E-01 [erg/cm2/s]
 That variable "errorgaupin" is:           95

 MAIN : Total energy deposition in [CO2] is 7.086E+10 [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 5.117E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 7.606E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 3.983E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 1.956E+00 [eV.cm-2.s-1] ("shsum").
  7.01489216E+08           2          21
  7.49394048E+08           2          23

 Total Heating :  2.827E+05 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  2.6565618E-03
 entot depart   282725.94       282725.94    
 shsum :  5.10987264E+09  7.08633149E+10  7.08630282E+10  7.08630282E+10
 shsum :  5.21047706E+09  8.14317650E+10  1.05684511E+10  8.14314783E+10
 shsum :  5.24653517E+09  8.65490944E+10  5.11732890E+09  8.65488077E+10
 shsum :  5.42348493E+09  9.41552599E+10  7.60616397E+09  9.41549732E+10
 shsum :  5.42348493E+09  9.41552599E+10   39.834877      9.41549732E+10
 shsum :  5.42348493E+09  9.41552599E+10   1.9556772      9.41549732E+10
 fin  9.41552599E+10  5.42348493E+09   18.842072    
   17.360657    
 -1.22030817E+14   18.842072    
 ezero   0.0000000    
  9.41552599E+10
  6.47650735E+14

Total energy input of :1.022E+11 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 9.416E+10 is absorbed (entot) 
                         through inelastic collisions (shsum =9.415E+10)
                                           + heating (elhsum =2.827E+05)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  18.84 eV (from qtoteV)
                                  or :  17.36 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 : 9.1697E+10 [eV/cm2/s]
                                                             or : 1.4692E-01 [erg/cm2/s]
 That variable "errorgaupin" is:           86

 MAIN : Total energy deposition in [CO2] is 6.222E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 9.672E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 4.661E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 7.304E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 3.813E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 1.906E+00 [eV.cm-2.s-1] ("shsum").
  6.67343808E+08           2          21
  7.12448320E+08           2          23

 Total Heating :  2.626E+05 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  2.4745441E-03
 entot depart   262565.06       262565.06    
 shsum :  4.56272077E+09  6.22201160E+10  6.22198538E+10  6.22198538E+10
 shsum :  4.65643213E+09  7.18923203E+10  9.67220019E+09  7.18920581E+10
 shsum :  4.68997990E+09  7.65535027E+10  4.66118246E+09  7.65532406E+10
 shsum :  4.86174362E+09  8.38571868E+10  7.30368563E+09  8.38569247E+10
 shsum :  4.86174362E+09  8.38571868E+10   38.125542      8.38569247E+10
 shsum :  4.86174362E+09  8.38571868E+10   1.9060495      8.38569247E+10
 fin  8.38571868E+10  4.86174362E+09   18.860994    
   17.248377    
 -1.36130641E+14   18.860994    
 ezero   0.0000000    
  8.38571868E+10
  7.21757510E+14

Total energy input of :9.170E+10 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 8.386E+10 is absorbed (entot) 
                         through inelastic collisions (shsum =8.386E+10)
                                           + heating (elhsum =2.626E+05)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  18.86 eV (from qtoteV)
                                  or :  17.25 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 : 9.6689E+10 [eV/cm2/s]
                                                             or : 1.5491E-01 [erg/cm2/s]
 That variable "errorgaupin" is:          100

 MAIN : Total energy deposition in [CO2] is 6.719E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 9.794E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 4.731E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 6.853E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 3.934E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 1.935E+00 [eV.cm-2.s-1] ("shsum").
  6.73762688E+08           2          21
  7.20103808E+08           2          23

 Total Heating :  2.693E+05 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  2.4639454E-03
 entot depart   269256.22       269256.22    
 shsum :  4.84448870E+09  6.71856312E+10  6.71853609E+10  6.71853609E+10
 shsum :  4.93779866E+09  7.69792164E+10  9.79358618E+09  7.69789460E+10
 shsum :  4.97123686E+09  8.17102193E+10  4.73100186E+09  8.17099489E+10
 shsum :  5.13123174E+09  8.85636465E+10  6.85342618E+09  8.85633761E+10
 shsum :  5.13123174E+09  8.85636465E+10   39.339577      8.85633761E+10
 shsum :  5.13123174E+09  8.85636465E+10   1.9346080      8.85633761E+10
 fin  8.85636465E+10  5.13123174E+09   18.843208    
   17.259724    
 -1.28981173E+14   18.843208    
 ezero   0.0000000    
  8.85636465E+10
  6.84496857E+14

Total energy input of :9.669E+10 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 8.856E+10 is absorbed (entot) 
                         through inelastic collisions (shsum =8.856E+10)
                                           + heating (elhsum =2.693E+05)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  18.84 eV (from qtoteV)
                                  or :  17.26 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 : 8.9808E+10 [eV/cm2/s]
                                                             or : 1.4389E-01 [erg/cm2/s]
 That variable "errorgaupin" is:           96

 MAIN : Total energy deposition in [CO2] is 6.143E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 9.245E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 4.451E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 6.714E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 3.815E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 1.901E+00 [eV.cm-2.s-1] ("shsum").
  6.52459072E+08           2          21
  6.97072320E+08           2          23

 Total Heating :  2.561E+05 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  2.3559614E-03
 entot depart   256099.52       256099.52    
 shsum :  4.48338893E+09  6.14270525E+10  6.14267945E+10  6.14267945E+10
 shsum :  4.57260954E+09  7.06721546E+10  9.24509798E+09  7.06718925E+10
 shsum :  4.60455117E+09  7.51228027E+10  4.45064858E+09  7.51225405E+10
 shsum :  4.76247757E+09  8.18365727E+10  6.71376896E+09  8.18363105E+10
 shsum :  4.76247757E+09  8.18365727E+10   38.151390      8.18363105E+10
 shsum :  4.76247757E+09  8.18365727E+10   1.9006325      8.18363105E+10
 fin  8.18365727E+10  4.76247757E+09   18.857445    
   17.183613    
 -1.38968062E+14   18.857445    
 ezero   0.0000000    
  8.18365727E+10
  7.36940018E+14

Total energy input of :8.981E+10 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 8.184E+10 is absorbed (entot) 
                         through inelastic collisions (shsum =8.184E+10)
                                           + heating (elhsum =2.561E+05)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  18.86 eV (from qtoteV)
                                  or :  17.18 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 : 8.2510E+10 [eV/cm2/s]
                                                             or : 1.3220E-01 [erg/cm2/s]
 That variable "errorgaupin" is:           90

 MAIN : Total energy deposition in [CO2] is 5.539E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 8.640E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 4.143E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 6.539E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 3.681E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 1.861E+00 [eV.cm-2.s-1] ("shsum").
  6.27071232E+08           2          21
  6.69612736E+08           2          23

 Total Heating :  2.414E+05 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  2.2344752E-03
 entot depart   241352.91       241352.91    
 shsum :  4.10182682E+09  5.53937428E+10  5.53935012E+10  5.53935012E+10
 shsum :  4.18644685E+09  6.40339681E+10  8.64022630E+09  6.40337265E+10
 shsum :  4.21670912E+09  6.81768550E+10  4.14288512E+09  6.81766134E+10
 shsum :  4.37188762E+09  7.47161846E+10  6.53933107E+09  7.47159470E+10
 shsum :  4.37188762E+09  7.47161846E+10   36.812088      7.47159470E+10
 shsum :  4.37188762E+09  7.47161846E+10   1.8614559      7.47159470E+10
 fin  7.47161846E+10  4.37188762E+09   18.872749    
   17.090143    
 -1.51383639E+14   18.872749    
 ezero   0.0000000    
  7.47161846E+10
  8.02128226E+14

Total energy input of :8.251E+10 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 7.472E+10 is absorbed (entot) 
                         through inelastic collisions (shsum =7.472E+10)
                                           + heating (elhsum =2.414E+05)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  18.87 eV (from qtoteV)
                                  or :  17.09 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 : 7.4889E+10 [eV/cm2/s]
                                                             or : 1.1999E-01 [erg/cm2/s]
 That variable "errorgaupin" is:          110

 MAIN : Total energy deposition in [CO2] is 4.919E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 7.981E+09 [eV.cm-2.s-1] ("shsum").

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

 MAIN : Total energy deposition in [O]   is 6.322E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 3.532E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 1.817E+00 [eV.cm-2.s-1] ("shsum").
  5.97238144E+08           2          21
  6.37355584E+08           2          23

 Total Heating :  2.250E+05 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  2.0990078E-03
 entot depart   225010.34       225010.34    
 shsum :  3.70528563E+09  4.91885814E+10  4.91883561E+10  4.91883561E+10
 shsum :  3.78477542E+09  5.71698545E+10  7.98127309E+09  5.71696292E+10
 shsum :  3.81316941E+09  6.09790648E+10  3.80921165E+09  6.09788396E+10
 shsum :  3.96470682E+09  6.73007370E+10  6.32167322E+09  6.73005117E+10
 shsum :  3.96470682E+09  6.73007370E+10   35.318016      6.73005117E+10
 shsum :  3.96470682E+09  6.73007370E+10   1.8165848      6.73005117E+10
 fin  6.73007370E+10  3.96470682E+09   18.888975    
   16.974958    
 -1.66930950E+14   18.888975    
 ezero   0.0000000    
  6.73007370E+10
  8.83748040E+14

Total energy input of :7.489E+10 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 6.730E+10 is absorbed (entot) 
                         through inelastic collisions (shsum =6.730E+10)
                                           + heating (elhsum =2.250E+05)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  18.89 eV (from qtoteV)
                                  or :  16.97 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 : 7.2305E+10 [eV/cm2/s]
                                                             or : 1.1585E-01 [erg/cm2/s]
 That variable "errorgaupin" is:          100

 MAIN : Total energy deposition in [CO2] is 4.802E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 7.436E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 3.543E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 5.579E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 3.521E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 1.805E+00 [eV.cm-2.s-1] ("shsum").
  5.74652416E+08           2          21
  6.13775808E+08           2          23

 Total Heating :  2.155E+05 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  1.9464399E-03
 entot depart   215506.20       215506.20    
 shsum :  3.59416192E+09  4.80173343E+10  4.80171172E+10  4.80171172E+10
 shsum :  3.66787405E+09  5.54531062E+10  7.43576986E+09  5.54528850E+10
 shsum :  3.69421107E+09  5.89956465E+10  3.54253824E+09  5.89954253E+10
 shsum :  3.82809344E+09  6.45744230E+10  5.57877606E+09  6.45742019E+10
 shsum :  3.82809344E+09  6.45744230E+10   35.205101      6.45742019E+10
 shsum :  3.82809344E+09  6.45744230E+10   1.8046614      6.45742019E+10
 fin  6.45744230E+10  3.82809344E+09   18.887922    
   16.868559    
 -1.72888221E+14   18.887922    
 ezero   0.0000000    
  6.45744230E+10
  9.15337457E+14

Total energy input of :7.230E+10 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 6.457E+10 is absorbed (entot) 
                         through inelastic collisions (shsum =6.457E+10)
                                           + heating (elhsum =2.155E+05)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  18.89 eV (from qtoteV)
                                  or :  16.87 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 : 6.7970E+10 [eV/cm2/s]
                                                             or : 1.0890E-01 [erg/cm2/s]
 That variable "errorgaupin" is:           91

 MAIN : Total energy deposition in [CO2] is 4.443E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 7.090E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 3.367E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 5.504E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 3.424E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 1.776E+00 [eV.cm-2.s-1] ("shsum").
  5.57699520E+08           2          21
  5.95467072E+08           2          23

 Total Heating :  2.060E+05 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  1.8777931E-03
 entot depart   206012.31       206012.31    
 shsum :  3.36691558E+09  4.44336210E+10  4.44334162E+10  4.44334162E+10
 shsum :  3.43802803E+09  5.15232154E+10  7.08959232E+09  5.15230106E+10
 shsum :  3.46341120E+09  5.48898161E+10  3.36660045E+09  5.48896113E+10
 shsum :  3.59638579E+09  6.03937628E+10  5.50394778E+09  6.03935580E+10
 shsum :  3.59638579E+09  6.03937628E+10   34.241344      6.03935580E+10
 shsum :  3.59638579E+09  6.03937628E+10   1.7757533      6.03935580E+10
 fin  6.03937628E+10  3.59638579E+09   18.899393    
   16.792904    
 -1.84027051E+14   18.899393    
 ezero   0.0000000    
  6.03937628E+10
  9.73719418E+14

Total energy input of :6.797E+10 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 6.039E+10 is absorbed (entot) 
                         through inelastic collisions (shsum =6.039E+10)
                                           + heating (elhsum =2.060E+05)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  18.90 eV (from qtoteV)
                                  or :  16.79 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 : 6.3373E+10 [eV/cm2/s]
                                                             or : 1.0154E-01 [erg/cm2/s]
 That variable "errorgaupin" is:           83

 MAIN : Total energy deposition in [CO2] is 4.068E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 6.709E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 3.174E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 5.409E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 3.317E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 1.743E+00 [eV.cm-2.s-1] ("shsum").
  5.37879808E+08           2          21
  5.74040320E+08           2          23

 Total Heating :  1.955E+05 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  1.8006805E-03
 entot depart   195525.22       195525.22    
 shsum :  3.12685133E+09  4.06798909E+10  4.06796943E+10  4.06796943E+10
 shsum :  3.19504333E+09  4.73887007E+10  6.70880819E+09  4.73885041E+10
 shsum :  3.21935872E+09  5.05628099E+10  3.17410918E+09  5.05626132E+10
 shsum :  3.35104691E+09  5.59721021E+10  5.40929229E+09  5.59719055E+10
 shsum :  3.35104691E+09  5.59721021E+10   33.169884      5.59719055E+10
 shsum :  3.35104691E+09  5.59721021E+10   1.7429693      5.59719055E+10
 fin  5.59721021E+10  3.35104691E+09   18.911501    
   16.702869    
 -1.97500162E+14   18.911501    
 ezero   0.0000000    
  5.59721021E+10
  1.04433888E+15

Total energy input of :6.337E+10 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 5.597E+10 is absorbed (entot) 
                         through inelastic collisions (shsum =5.597E+10)
                                           + heating (elhsum =1.955E+05)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  18.91 eV (from qtoteV)
                                  or :  16.70 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 : 5.8576E+10 [eV/cm2/s]
                                                             or : 9.3850E-02 [erg/cm2/s]
 That variable "errorgaupin" is:           92

 MAIN : Total energy deposition in [CO2] is 3.682E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 6.295E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 2.966E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 5.289E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 3.199E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 1.706E+00 [eV.cm-2.s-1] ("shsum").
  5.15084384E+08           2          21
  5.49391360E+08           2          23

 Total Heating :  1.841E+05 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  1.7148659E-03
 entot depart   184084.81       184084.81    
 shsum :  2.87733402E+09  3.68182518E+10  3.68180675E+10  3.68180675E+10
 shsum :  2.94227635E+09  4.31133655E+10  6.29511475E+09  4.31131812E+10
 shsum :  2.96540723E+09  4.60794675E+10  2.96610150E+09  4.60792832E+10
 shsum :  3.09529190E+09  5.13689518E+10  5.28948429E+09  5.13687675E+10
 shsum :  3.09529190E+09  5.13689518E+10   31.993206      5.13687675E+10
 shsum :  3.09529190E+09  5.13689518E+10   1.7061269      5.13687675E+10
 fin  5.13689518E+10  3.09529190E+09   18.924078    
   16.595835    
 -2.13819024E+14   18.924078    
 ezero   0.0000000    
  5.13689518E+10
  1.12987812E+15

Total energy input of :5.858E+10 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 5.137E+10 is absorbed (entot) 
                         through inelastic collisions (shsum =5.137E+10)
                                           + heating (elhsum =1.841E+05)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  18.92 eV (from qtoteV)
                                  or :  16.60 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 : 4.9523E+10 [eV/cm2/s]
                                                             or : 7.9346E-02 [erg/cm2/s]
 That variable "errorgaupin" is:           93

 MAIN : Total energy deposition in [CO2] is 3.069E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 5.143E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 2.400E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 4.231E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 3.004E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 1.632E+00 [eV.cm-2.s-1] ("shsum").
  4.53134080E+08           2          21
  4.83520480E+08           2          23

 Total Heating :  1.563E+05 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  1.4234912E-03
 entot depart   156342.69       156342.69    
 shsum :  2.43451930E+09  3.06937160E+10  3.06935603E+10  3.06935603E+10
 shsum :  2.48842726E+09  3.58368625E+10  5.14314496E+09  3.58367068E+10
 shsum :  2.50760422E+09  3.82371267E+10  2.40026394E+09  3.82369710E+10
 shsum :  2.61306573E+09  4.24683028E+10  4.23117414E+09  4.24681472E+10
 shsum :  2.61306573E+09  4.24683028E+10   30.043652      4.24681472E+10
 shsum :  2.61306573E+09  4.24683028E+10   1.6315036      4.24681472E+10
 fin  4.24683028E+10  2.61306573E+09   18.952185    
   16.252291    
 -2.53278080E+14   18.952185    
 ezero   0.0000000    
  4.24683028E+10
  1.33640565E+15

Total energy input of :4.952E+10 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 4.247E+10 is absorbed (entot) 
                         through inelastic collisions (shsum =4.247E+10)
                                           + heating (elhsum =1.563E+05)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  18.95 eV (from qtoteV)
                                  or :  16.25 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 : 4.7584E+10 [eV/cm2/s]
                                                             or : 7.6239E-02 [erg/cm2/s]
 That variable "errorgaupin" is:           85

 MAIN : Total energy deposition in [CO2] is 2.909E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 5.001E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 2.328E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 4.235E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 2.944E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 1.612E+00 [eV.cm-2.s-1] ("shsum").
  4.43905248E+08           2          21
  4.73540704E+08           2          23

 Total Heating :  1.517E+05 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  1.3966343E-03
 entot depart   151668.30       151668.30    
 shsum :  2.33206246E+09  2.90870497E+10  2.90868982E+10  2.90868982E+10
 shsum :  2.38495334E+09  3.40882166E+10  5.00116634E+09  3.40880650E+10
 shsum :  2.40375219E+09  3.64166226E+10  2.32840653E+09  3.64164710E+10
 shsum :  2.50979098E+09  4.06512189E+10  4.23459763E+09  4.06510674E+10
 shsum :  2.50979098E+09  4.06512189E+10   29.442593      4.06510674E+10
 shsum :  2.50979098E+09  4.06512189E+10   1.6124818      4.06510674E+10
 fin  4.06512189E+10  2.50979098E+09   18.959248    
   16.197054    
 -2.63700154E+14   18.959248    
 ezero   0.0000000    
  4.06512189E+10
  1.39087885E+15

Total energy input of :4.758E+10 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 4.065E+10 is absorbed (entot) 
                         through inelastic collisions (shsum =4.065E+10)
                                           + heating (elhsum =1.517E+05)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  18.96 eV (from qtoteV)
                                  or :  16.20 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 : 4.5516E+10 [eV/cm2/s]
                                                             or : 7.2926E-02 [erg/cm2/s]
 That variable "errorgaupin" is:          113

 MAIN : Total energy deposition in [CO2] is 2.739E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 4.844E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 2.249E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 4.234E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 2.879E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 1.591E+00 [eV.cm-2.s-1] ("shsum").
  4.33216224E+08           2          21
  4.61956544E+08           2          23

 Total Heating :  1.466E+05 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  1.3661943E-03
 entot depart   146567.52       146567.52    
 shsum :  2.22317875E+09  2.73912422E+10  2.73910948E+10  2.73910948E+10
 shsum :  2.27491686E+09  3.22354053E+10  4.84416205E+09  3.22352579E+10
 shsum :  2.29329024E+09  3.44848998E+10  2.24949478E+09  3.44847524E+10
 shsum :  2.39985587E+09  3.87185213E+10  4.23362099E+09  3.87183739E+10
 shsum :  2.39985587E+09  3.87185213E+10   28.785400      3.87183739E+10
 shsum :  2.39985587E+09  3.87185213E+10   1.5914233      3.87183739E+10
 fin  3.87185213E+10  2.39985587E+09   18.966259    
   16.133686    
 -2.75780018E+14   18.966259    
 ezero   0.0000000    
  3.87185213E+10
  1.45405594E+15

Total energy input of :4.552E+10 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 3.872E+10 is absorbed (entot) 
                         through inelastic collisions (shsum =3.872E+10)
                                           + heating (elhsum =1.466E+05)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  18.97 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 : 4.3344E+10 [eV/cm2/s]
                                                             or : 6.9446E-02 [erg/cm2/s]
 That variable "errorgaupin" is:           83

 MAIN : Total energy deposition in [CO2] is 2.563E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 4.672E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 2.164E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 4.225E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 2.808E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 1.568E+00 [eV.cm-2.s-1] ("shsum").
  4.21068384E+08           2          21
  4.48775680E+08           2          23

 Total Heating :  1.411E+05 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  1.3319773E-03
 entot depart   141066.86       141066.86    
 shsum :  2.10921395E+09  2.56310579E+10  2.56309166E+10  2.56309166E+10
 shsum :  2.15965619E+09  3.03035310E+10  4.67247309E+09  3.03033897E+10
 shsum :  2.17755418E+09  3.24672963E+10  2.16376627E+09  3.24671570E+10
 shsum :  2.28451968E+09  3.66925742E+10  4.22527898E+09  3.66924349E+10
 shsum :  2.28451968E+09  3.66925742E+10   28.076473      3.66924349E+10
 shsum :  2.28451968E+09  3.66925742E+10   1.5683582      3.66924349E+10
 fin  3.66925742E+10  2.28451968E+09   18.973108    
   16.061396    
 -2.89703027E+14   18.973108    
 ezero   0.0000000    
  3.66925742E+10
  1.52691402E+15

Total energy input of :4.334E+10 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 3.669E+10 is absorbed (entot) 
                         through inelastic collisions (shsum =3.669E+10)
                                           + heating (elhsum =1.411E+05)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  18.97 eV (from qtoteV)
                                  or :  16.06 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 : 3.0011E+10 [eV/cm2/s]
                                                             or : 4.8084E-02 [erg/cm2/s]
 That variable "errorgaupin" is:           87

 MAIN : Total energy deposition in [CO2] is 1.666E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 3.092E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 1.398E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 2.876E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 2.371E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 1.397E+00 [eV.cm-2.s-1] ("shsum").
  3.13488192E+08           2          21
  3.33968032E+08           2          23

 Total Heating :  9.689E+04 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  9.2651637E-04
 entot depart   96889.172       96889.172    
 shsum :  1.45042150E+09  1.66578616E+10  1.66577644E+10  1.66577644E+10
 shsum :  1.48550886E+09  1.97495706E+10  3.09170842E+09  1.97494723E+10
 shsum :  1.49790643E+09  2.11479511E+10  1.39838029E+09  2.11478528E+10
 shsum :  1.57341312E+09  2.40238592E+10  2.87590707E+09  2.40237609E+10
 shsum :  1.57341312E+09  2.40238592E+10   23.710443      2.40237609E+10
 shsum :  1.57341312E+09  2.40238592E+10   1.3966510      2.40237609E+10
 fin  2.40238592E+10  1.57341312E+09   19.073973    
   15.268628    
 -4.20634769E+14   19.073973    
 ezero   0.0000000    
  2.40238592E+10
  2.20528156E+15

Total energy input of :3.001E+10 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 2.402E+10 is absorbed (entot) 
                         through inelastic collisions (shsum =2.402E+10)
                                           + heating (elhsum =9.689E+04)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  19.07 eV (from qtoteV)
                                  or :  15.27 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 : 3.0016E+10 [eV/cm2/s]
                                                             or : 4.8092E-02 [erg/cm2/s]
 That variable "errorgaupin" is:           99

 MAIN : Total energy deposition in [CO2] is 1.655E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 3.128E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 1.415E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 2.965E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 2.367E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 1.397E+00 [eV.cm-2.s-1] ("shsum").
  3.15543488E+08           2          21
  3.36113216E+08           2          23

 Total Heating :  9.752E+04 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  9.3978795E-04
 entot depart   97515.719       97515.719    
 shsum :  1.44799859E+09  1.65503130E+10  1.65502157E+10  1.65502157E+10
 shsum :  1.48358848E+09  1.96783821E+10  3.12806989E+09  1.96782858E+10
 shsum :  1.49615872E+09  2.10932224E+10  1.41484058E+09  2.10931261E+10
 shsum :  1.57404634E+09  2.40585011E+10  2.96527949E+09  2.40584049E+10
 shsum :  1.57404634E+09  2.40585011E+10   23.668005      2.40584049E+10
 shsum :  1.57404634E+09  2.40585011E+10   1.3966820      2.40584049E+10
 fin  2.40585011E+10  1.57404634E+09   19.069616    
   15.284493    
 -4.20465554E+14   19.069616    
 ezero   0.0000000    
  2.40585011E+10
  2.20489783E+15

Total energy input of :3.002E+10 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 2.406E+10 is absorbed (entot) 
                         through inelastic collisions (shsum =2.406E+10)
                                           + heating (elhsum =9.752E+04)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  19.07 eV (from qtoteV)
                                  or :  15.28 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 : 3.0008E+10 [eV/cm2/s]
                                                             or : 4.8079E-02 [erg/cm2/s]
 That variable "errorgaupin" is:           82

 MAIN : Total energy deposition in [CO2] is 1.642E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 3.166E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 1.432E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 3.064E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 2.362E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 1.397E+00 [eV.cm-2.s-1] ("shsum").
  3.17427520E+08           2          21
  3.38042080E+08           2          23

 Total Heating :  9.817E+04 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  9.5379644E-04
 entot depart   98169.883       98169.883    
 shsum :  1.44467405E+09  1.64216709E+10  1.64215726E+10  1.64215726E+10
 shsum :  1.48079450E+09  1.95874755E+10  3.16580454E+09  1.95873772E+10
 shsum :  1.49354803E+09  2.10195169E+10  1.43204250E+09  2.10194186E+10
 shsum :  1.57408576E+09  2.40839598E+10  3.06444186E+09  2.40838615E+10
 shsum :  1.57408576E+09  2.40839598E+10   23.618668      2.40838615E+10
 shsum :  1.57408576E+09  2.40839598E+10   1.3966956      2.40838615E+10
 fin  2.40839598E+10  1.57408576E+09   19.063995    
   15.300284    
 -4.20455052E+14   19.063995    
 ezero   0.0000000    
  2.40839598E+10
  2.20549282E+15

Total energy input of :3.001E+10 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 2.408E+10 is absorbed (entot) 
                         through inelastic collisions (shsum =2.408E+10)
                                           + heating (elhsum =9.817E+04)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  19.06 eV (from qtoteV)
                                  or :  15.30 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 : 2.9985E+10 [eV/cm2/s]
                                                             or : 4.8042E-02 [erg/cm2/s]
 That variable "errorgaupin" is:           89

 MAIN : Total energy deposition in [CO2] is 1.627E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 3.204E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 1.450E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 3.172E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 2.356E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 1.397E+00 [eV.cm-2.s-1] ("shsum").
  3.19078240E+08           2          21
  3.39687872E+08           2          23

 Total Heating :  9.883E+04 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  9.6826663E-04
 entot depart   98832.516       98832.516    
 shsum :  1.44037478E+09  1.62722324E+10  1.62721331E+10  1.62721331E+10
 shsum :  1.47704320E+09  1.94762772E+10  3.20404403E+09  1.94761769E+10
 shsum :  1.48998707E+09  2.09258701E+10  1.44959386E+09  2.09257718E+10
 shsum :  1.57340915E+09  2.40978555E+10  3.17198490E+09  2.40977572E+10
 shsum :  1.57340915E+09  2.40978555E+10   23.561504      2.40977572E+10
 shsum :  1.57340915E+09  2.40978555E+10   1.3966242      2.40977572E+10
 fin  2.40978555E+10  1.57340915E+09   19.057230    
   15.315696    
 -4.20635843E+14   19.057230    
 ezero   0.0000000    
  2.40978555E+10
  2.20722463E+15

Total energy input of :2.998E+10 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 2.410E+10 is absorbed (entot) 
                         through inelastic collisions (shsum =2.410E+10)
                                           + heating (elhsum =9.883E+04)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  19.06 eV (from qtoteV)
                                  or :  15.32 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 : 1.5415E+10 [eV/cm2/s]
                                                             or : 2.4698E-02 [erg/cm2/s]
 That variable "errorgaupin" is:           88

 MAIN : Total energy deposition in [CO2] is 7.142E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 1.505E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 6.500E+08 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 1.643E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 1.637E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 1.079E+00 [eV.cm-2.s-1] ("shsum").
  1.74794384E+08           2          21
  1.85583680E+08           2          23

 Total Heating :  4.691E+04 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  5.0355983E-04
 entot depart   46907.109       46907.109    
 shsum :  7.23818944E+08  7.14203648E+09  7.14198938E+09  7.14198938E+09
 shsum :  7.42888832E+08  8.64716390E+09  1.50512768E+09  8.64711680E+09
 shsum :  7.49555456E+08  9.29711923E+09  6.49955136E+08  9.29707213E+09
 shsum :  7.95743488E+08  1.09402982E+10  1.64317926E+09  1.09402511E+10
 shsum :  7.95743488E+08  1.09402982E+10   16.368830      1.09402511E+10
 shsum :  7.95743488E+08  1.09402982E+10   1.0791907      1.09402511E+10
 fin  1.09402982E+10  7.95743488E+08   19.371798    
   13.748524    
 -8.31715585E+14   19.371798    
 ezero   0.0000000    
  1.09402982E+10
  4.29343560E+15

Total energy input of :1.541E+10 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 1.094E+10 is absorbed (entot) 
                         through inelastic collisions (shsum =1.094E+10)
                                           + heating (elhsum =4.691E+04)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  19.37 eV (from qtoteV)
                                  or :  13.75 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 : 1.6523E+10 [eV/cm2/s]
                                                             or : 2.6473E-02 [erg/cm2/s]
 That variable "errorgaupin" is:           85

 MAIN : Total energy deposition in [CO2] is 7.751E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 1.644E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 7.137E+08 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 1.800E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 1.705E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 1.113E+00 [eV.cm-2.s-1] ("shsum").
  1.87767664E+08           2          21
  1.99434992E+08           2          23

 Total Heating :  5.116E+04 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  5.4508599E-04
 entot depart   51163.539       51163.539    
 shsum :  7.77043072E+08  7.75103181E+09  7.75098061E+09  7.75098061E+09
 shsum :  7.97685568E+08  9.39541094E+09  1.64437914E+09  9.39535974E+09
 shsum :  8.04907584E+08  1.01090775E+10  7.13666304E+08  1.01090263E+10
 shsum :  8.55187648E+08  1.19095153E+10  1.80043725E+09  1.19094641E+10
 shsum :  8.55187648E+08  1.19095153E+10   17.051750      1.19094641E+10
 shsum :  8.55187648E+08  1.19095153E+10   1.1126338      1.19094641E+10
 fin  1.19095153E+10  8.55187648E+08   19.321112    
   13.926201    
 -7.73902976E+14   19.321112    
 ezero   0.0000000    
  1.19095153E+10
  4.00547845E+15

Total energy input of :1.652E+10 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 1.191E+10 is absorbed (entot) 
                         through inelastic collisions (shsum =1.191E+10)
                                           + heating (elhsum =5.116E+04)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  19.32 eV (from qtoteV)
                                  or :  13.93 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 : 1.7756E+10 [eV/cm2/s]
                                                             or : 2.8449E-02 [erg/cm2/s]
 That variable "errorgaupin" is:           90

 MAIN : Total energy deposition in [CO2] is 8.431E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 1.802E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 7.863E+08 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 1.982E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 1.778E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 1.148E+00 [eV.cm-2.s-1] ("shsum").
  2.01964800E+08           2          21
  2.14572992E+08           2          23

 Total Heating :  5.596E+04 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  5.9178664E-04
 entot depart   55961.465       55961.465    
 shsum :  8.36215040E+08  8.43063859E+09  8.43058278E+09  8.43058278E+09
 shsum :  8.58626112E+08  1.02328648E+10  1.80222592E+09  1.02328084E+10
 shsum :  8.66473920E+08  1.10191985E+10  7.86334144E+08  1.10191421E+10
 shsum :  9.21438464E+08  1.30007153E+10  1.98151654E+09  1.30006589E+10
 shsum :  9.21438464E+08  1.30007153E+10   17.775602      1.30006589E+10
 shsum :  9.21438464E+08  1.30007153E+10   1.1476634      1.30006589E+10
 fin  1.30007153E+10  9.21438464E+08   19.269960    
   14.109152    
 -7.18259863E+14   19.269960    
 ezero   0.0000000    
  1.30007153E+10
  3.72735542E+15

Total energy input of :1.776E+10 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 1.300E+10 is absorbed (entot) 
                         through inelastic collisions (shsum =1.300E+10)
                                           + heating (elhsum =5.596E+04)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  19.27 eV (from qtoteV)
                                  or :  14.11 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 : 1.9113E+10 [eV/cm2/s]
                                                             or : 3.0623E-02 [erg/cm2/s]
 That variable "errorgaupin" is:           75

 MAIN : Total energy deposition in [CO2] is 9.181E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 1.979E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 8.683E+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 1.853E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 1.184E+00 [eV.cm-2.s-1] ("shsum").
  2.17280000E+08           2          21
  2.30877712E+08           2          23

 Total Heating :  6.130E+04 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  6.4371171E-04
 entot depart   61295.906       61295.906    
 shsum :  9.01262848E+08  9.18142362E+09  9.18136218E+09  9.18136218E+09
 shsum :  9.25640320E+08  1.11605371E+10  1.97911309E+09  1.11604756E+10
 shsum :  9.34185280E+08  1.20288174E+10  8.68280448E+08  1.20287560E+10
 shsum :  9.94438912E+08  1.42160538E+10  2.18723635E+09  1.42159923E+10
 shsum :  9.94438912E+08  1.42160538E+10   18.529819      1.42159923E+10
 shsum :  9.94438912E+08  1.42160538E+10   1.1837283      1.42159923E+10
 fin  1.42160538E+10  9.94438912E+08   19.219898    
   14.295552    
 -6.65533368E+14   19.219898    
 ezero   0.0000000    
  1.42160538E+10
  3.46273095E+15

Total energy input of :1.911E+10 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 1.422E+10 is absorbed (entot) 
                         through inelastic collisions (shsum =1.422E+10)
                                           + heating (elhsum =6.130E+04)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  19.22 eV (from qtoteV)
                                  or :  14.30 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 : 6.3401E+09 [eV/cm2/s]
                                                             or : 1.0158E-02 [erg/cm2/s]
 That variable "errorgaupin" is:           95

 MAIN : Total energy deposition in [CO2] is 2.195E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 5.374E+08 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 2.187E+08 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 7.111E+08 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 8.922E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 6.776E-01 [eV.cm-2.s-1] ("shsum").
   69422144.               2          21
   73052760.               2          23

 Total Heating :  1.590E+04 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  2.0505724E-04
 entot depart   15899.635       15899.635    
 shsum :  2.84002080E+08  2.19480448E+09  2.19478861E+09  2.19478861E+09
 shsum :  2.91767648E+08  2.73219942E+09  5.37394944E+08  2.73218355E+09
 shsum :  2.94442784E+08  2.95089792E+09  2.18698480E+08  2.95088205E+09
 shsum :  3.16055648E+08  3.66198272E+09  7.11084928E+08  3.66196685E+09
 shsum :  3.16055648E+08  3.66198272E+09   8.9216461      3.66196685E+09
 shsum :  3.16055648E+08  3.66198272E+09  0.67758214      3.66196685E+09
 fin  3.66198272E+09  3.16055648E+08   20.059940    
   11.586513    
 -2.09403721E+15   20.059940    
 ezero   0.0000000    
  3.66198272E+09
  1.04389008E+16

Total energy input of :6.340E+09 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 3.662E+09 is absorbed (entot) 
                         through inelastic collisions (shsum =3.662E+09)
                                           + heating (elhsum =1.590E+04)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  20.06 eV (from qtoteV)
                                  or :  11.59 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 : 7.6101E+09 [eV/cm2/s]
                                                             or : 1.2193E-02 [erg/cm2/s]
 That variable "errorgaupin" is:           87

 MAIN : Total energy deposition in [CO2] is 2.776E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 6.744E+08 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 2.776E+08 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 8.778E+08 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 1.022E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 7.560E-01 [eV.cm-2.s-1] ("shsum").
   85343664.               2          21
   90033528.               2          23

 Total Heating :  2.015E+04 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  2.5159199E-04
 entot depart   20150.023       20150.023    
 shsum :  3.43844512E+08  2.77572454E+09  2.77570432E+09  2.77570432E+09
 shsum :  3.53372352E+08  3.45011968E+09  6.74395072E+08  3.45009946E+09
 shsum :  3.56662880E+08  3.72773120E+09  2.77611520E+08  3.72771098E+09
 shsum :  3.82973600E+08  4.60555418E+09  8.77822976E+08  4.60553421E+09
 shsum :  3.82973600E+08  4.60555418E+09   10.220122      4.60553421E+09
 shsum :  3.82973600E+08  4.60555418E+09  0.75604796      4.60553421E+09
 fin  4.60555418E+09  3.82973600E+08   19.871037    
   12.025775    
 -1.72814076E+15   19.871037    
 ezero   0.0000000    
  4.60555418E+09
  8.69678210E+15

Total energy input of :7.610E+09 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 4.606E+09 is absorbed (entot) 
                         through inelastic collisions (shsum =4.606E+09)
                                           + heating (elhsum =2.015E+04)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  19.87 eV (from qtoteV)
                                  or :  12.03 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 : 9.1556E+09 [eV/cm2/s]
                                                             or : 1.4669E-02 [erg/cm2/s]
 That variable "errorgaupin" is:           81

 MAIN : Total energy deposition in [CO2] is 3.517E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 8.478E+08 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 3.533E+08 [eV.cm-2.s-1] ("shsum").

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

 MAIN : Total energy deposition in [O2]  is 1.166E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 8.391E-01 [eV.cm-2.s-1] ("shsum").
  1.04631512E+08           2          21
  1.10610616E+08           2          23

 Total Heating :  2.557E+04 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  3.0868815E-04
 entot depart   25567.119       25567.119    
 shsum :  4.17134144E+08  3.51653530E+09  3.51650970E+09  3.51650970E+09
 shsum :  4.28824224E+08  4.36430029E+09  8.47764992E+08  4.36427469E+09
 shsum :  4.32872640E+08  4.71760947E+09  3.53309280E+08  4.71758387E+09
 shsum :  4.64909024E+08  5.80271514E+09  1.08510579E+09  5.80268954E+09
 shsum :  4.64909024E+08  5.80271514E+09   11.660406      5.80268954E+09
 shsum :  4.64909024E+08  5.80271514E+09  0.83913481      5.80268954E+09
 fin  5.80271514E+09  4.64909024E+08   19.693274    
   12.481400    
 -1.42357376E+15   19.693274    
 ezero   0.0000000    
  5.80271514E+09
  7.22873007E+15

Total energy input of :9.156E+09 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 5.803E+09 is absorbed (entot) 
                         through inelastic collisions (shsum =5.803E+09)
                                           + heating (elhsum =2.557E+04)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  19.69 eV (from qtoteV)
                                  or :  12.48 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 : 1.1009E+10 [eV/cm2/s]
                                                             or : 1.7638E-02 [erg/cm2/s]
 That variable "errorgaupin" is:           89

 MAIN : Total energy deposition in [CO2] is 4.445E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 1.063E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 4.488E+08 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 1.338E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 1.322E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 9.248E-01 [eV.cm-2.s-1] ("shsum").
  1.27447352E+08           2          21
  1.34945552E+08           2          23

 Total Heating :  3.232E+04 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  3.7745648E-04
 entot depart   32318.703       32318.703    
 shsum :  5.05493856E+08  4.44483942E+09  4.44480717E+09  4.44480717E+09
 shsum :  5.19788192E+08  5.50803558E+09  1.06319642E+09  5.50800384E+09
 shsum :  5.24752896E+08  5.95687014E+09  4.48834816E+08  5.95683840E+09
 shsum :  5.63631680E+08  7.29483981E+09  1.33796966E+09  7.29480806E+09
 shsum :  5.63631680E+08  7.29483981E+09   13.217227      7.29480806E+09
 shsum :  5.63631680E+08  7.29483981E+09  0.92477822      7.29480806E+09
 fin  7.29483981E+09  5.63631680E+08   19.531773    
   12.942565    
 -1.17422836E+15   19.531773    
 ezero   0.0000000    
  7.29483981E+09
  6.01188799E+15

Total energy input of :1.101E+10 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 7.295E+09 is absorbed (entot) 
                         through inelastic collisions (shsum =7.295E+09)
                                           + heating (elhsum =3.232E+04)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  19.53 eV (from qtoteV)
                                  or :  12.94 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 : 1.9416E+09 [eV/cm2/s]
                                                             or : 3.1108E-03 [erg/cm2/s]
 That variable "errorgaupin" is:           82

 MAIN : Total energy deposition in [CO2] is 4.578E+08 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 1.301E+08 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 5.029E+07 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 2.061E+08 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 3.278E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 2.865E-01 [eV.cm-2.s-1] ("shsum").
   16959022.               2          21
   17518800.               2          23

 Total Heating :  3.584E+03 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  5.5289722E-05
 entot depart   3584.3005       3584.3005    
 shsum :   81172440.      4.57761728E+08  4.57758144E+08  4.57758144E+08
 shsum :   83266272.      5.87825024E+08  1.30063312E+08  5.87821440E+08
 shsum :   83977784.      6.38114496E+08   50289464.      6.38110912E+08
 shsum :   90676512.      8.44252352E+08  2.06137840E+08  8.44248768E+08
 shsum :   90676512.      8.44252352E+08   3.2775917      8.44248768E+08
 shsum :   90676512.      8.44252352E+08  0.28654268      8.44248768E+08
 fin  8.44252352E+08   90676512.       21.412148    
   9.3105955    
 -7.29882823E+15   21.412148    
 ezero   0.0000000    
  8.44252352E+08
  3.40873236E+16

Total energy input of :1.942E+09 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 8.443E+08 is absorbed (entot) 
                         through inelastic collisions (shsum =8.442E+08)
                                           + heating (elhsum =3.584E+03)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  21.41 eV (from qtoteV)
                                  or :   9.31 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 : 2.8054E+09 [eV/cm2/s]
                                                             or : 4.4949E-03 [erg/cm2/s]
 That variable "errorgaupin" is:           77

 MAIN : Total energy deposition in [CO2] is 7.255E+08 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 2.035E+08 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 7.969E+07 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 3.152E+08 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 4.572E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 3.848E-01 [eV.cm-2.s-1] ("shsum").
   26864498.               2          21
   27905952.               2          23

 Total Heating :  5.718E+03 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  8.4361018E-05
 entot depart   5718.3086       5718.3086    
 shsum :  1.19937672E+08  7.25478720E+08  7.25473024E+08  7.25473024E+08
 shsum :  1.23132440E+08  9.28956928E+08  2.03478224E+08  9.28951232E+08
 shsum :  1.24221776E+08  1.00864218E+09   79685248.      1.00863648E+09
 shsum :  1.34298512E+08  1.32383731E+09  3.15195168E+08  1.32383168E+09
 shsum :  1.34298512E+08  1.32383731E+09   4.5724106      1.32383168E+09
 shsum :  1.34298512E+08  1.32383731E+09  0.38481104      1.32383168E+09
 fin  1.32383731E+09  1.34298512E+08   20.889605    
   9.8574238    
 -4.92806856E+15   20.889605    
 ezero   0.0000000    
  1.32383731E+09
  2.35910098E+16

Total energy input of :2.805E+09 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 1.324E+09 is absorbed (entot) 
                         through inelastic collisions (shsum =1.324E+09)
                                           + heating (elhsum =5.718E+03)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  20.89 eV (from qtoteV)
                                  or :   9.86 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 : 4.0110E+09 [eV/cm2/s]
                                                             or : 6.4265E-03 [erg/cm2/s]
 That variable "errorgaupin" is:           79

 MAIN : Total energy deposition in [CO2] is 1.150E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 3.162E+08 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 1.257E+08 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 4.752E+08 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 6.219E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 5.023E-01 [eV.cm-2.s-1] ("shsum").
   41464424.               2          21
   43350040.               2          23

 Total Heating :  9.067E+03 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  1.2721178E-04
 entot depart   9066.7676       9066.7676    
 shsum :  1.74836656E+08  1.14971264E+09  1.14970355E+09  1.14970355E+09
 shsum :  1.79654192E+08  1.46588902E+09  3.16176416E+08  1.46587994E+09
 shsum :  1.81303168E+08  1.59163597E+09  1.25746896E+08  1.59162688E+09
 shsum :  1.96205536E+08  2.06679846E+09  4.75162528E+08  2.06678938E+09
 shsum :  1.96205536E+08  2.06679846E+09   6.2191038      2.06678938E+09
 shsum :  1.96205536E+08  2.06679846E+09  0.50234056      2.06678938E+09
 fin  2.06679846E+09  1.96205536E+08   20.442955    
   10.533844    
 -3.37315806E+15   20.442955    
 ezero   0.0000000    
  2.06679846E+09
  1.65003452E+16

Total energy input of :4.011E+09 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 2.067E+09 is absorbed (entot) 
                         through inelastic collisions (shsum =2.067E+09)
                                           + heating (elhsum =9.067E+03)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  20.44 eV (from qtoteV)
                                  or :  10.53 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 : 5.6572E+09 [eV/cm2/s]
                                                             or : 9.0640E-03 [erg/cm2/s]
 That variable "errorgaupin" is:           96

 MAIN : Total energy deposition in [CO2] is 1.803E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 4.840E+08 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 1.960E+08 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 7.014E+08 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 8.211E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 6.346E-01 [eV.cm-2.s-1] ("shsum").
   62045860.               2          21
   65227716.               2          23

 Total Heating :  1.417E+04 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  1.8798071E-04
 entot depart   14165.317       14165.317    
 shsum :  2.50914944E+08  1.80322394E+09  1.80320973E+09  1.80320973E+09
 shsum :  2.58033808E+08  2.28722176E+09  4.83997888E+08  2.28720768E+09
 shsum :  2.60481216E+08  2.48323430E+09  1.96012656E+08  2.48322022E+09
 shsum :  2.81999552E+08  3.18468147E+09  7.01447040E+08  3.18466714E+09
 shsum :  2.81999552E+08  3.18468147E+09   8.2106972      3.18466714E+09
 shsum :  2.81999552E+08  3.18468147E+09  0.63457453      3.18466714E+09
 fin  3.18468147E+09  2.81999552E+08   20.061069    
   11.293215    
 -2.34692663E+15   20.061069    
 ezero   0.0000000    
  3.18468147E+09
  1.16989111E+16

Total energy input of :5.657E+09 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 3.185E+09 is absorbed (entot) 
                         through inelastic collisions (shsum =3.185E+09)
                                           + heating (elhsum =1.417E+04)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  20.06 eV (from qtoteV)
                                  or :  11.29 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 : 3.3235E+08 [eV/cm2/s]
                                                             or : 5.3250E-04 [erg/cm2/s]
 That variable "errorgaupin" is:           74

 MAIN : Total energy deposition in [CO2] is 6.158E+07 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 1.796E+07 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 6.631E+06 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 3.077E+07 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 5.900E-01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 6.147E-02 [eV.cm-2.s-1] ("shsum").
   1831393.9               2          21
   1902570.4               2          23

 Total Heating :  4.357E+02 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  8.4362800E-06
 entot depart   435.72626       435.72626    
 shsum :   11550478.       61576068.       61575632.       61575632.    
 shsum :   11869961.       79537824.       17961756.       79537392.    
 shsum :   11976157.       86169080.       6631257.0       86168648.    
 shsum :   13037302.      1.16934768E+08   30765684.      1.16934336E+08
 shsum :   13037302.      1.16934768E+08  0.58997828      1.16934336E+08
 shsum :   13037302.      1.16934768E+08  6.14675656E-02  1.16934336E+08
 fin  1.16934768E+08   13037302.       25.492495    
   8.9692459    
 -5.07645120E+16   25.492495    
 ezero   0.0000000    
  1.16934768E+08
  1.99135145E+17

Total energy input of :3.324E+08 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 1.169E+08 is absorbed (entot) 
                         through inelastic collisions (shsum =1.169E+08)
                                           + heating (elhsum =4.357E+02)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  25.49 eV (from qtoteV)
                                  or :   8.97 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 : 7.2946E+08 [eV/cm2/s]
                                                             or : 1.1687E-03 [erg/cm2/s]
 That variable "errorgaupin" is:           73

 MAIN : Total energy deposition in [CO2] is 1.393E+08 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 4.253E+07 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 1.607E+07 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 7.384E+07 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 1.289E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 1.233E-01 [eV.cm-2.s-1] ("shsum").
   4962784.0               2          21
   5130051.0               2          23

 Total Heating :  1.108E+03 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  1.9037445E-05
 entot depart   1108.4905       1108.4905    
 shsum :   28146812.      1.39336592E+08  1.39335488E+08  1.39335488E+08
 shsum :   28867764.      1.81867616E+08   42531024.      1.81866512E+08
 shsum :   29110504.      1.97937920E+08   16070304.      1.97936816E+08
 shsum :   31591676.      2.71776160E+08   73838240.      2.71775040E+08
 shsum :   31591676.      2.71776160E+08   1.2889652      2.71775040E+08
 shsum :   31591676.      2.71776160E+08  0.12331821      2.71775040E+08
 fin  2.71776160E+08   31591676.       23.090410    
   8.6027775    
 -2.09495792E+16   23.090410    
 ezero   0.0000000    
  2.71776160E+08
  9.07284783E+16

Total energy input of :7.295E+08 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 2.718E+08 is absorbed (entot) 
                         through inelastic collisions (shsum =2.718E+08)
                                           + heating (elhsum =1.108E+03)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  23.09 eV (from qtoteV)
                                  or :   8.60 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 : 1.4192E+09 [eV/cm2/s]
                                                             or : 2.2738E-03 [erg/cm2/s]
 That variable "errorgaupin" is:           85

 MAIN : Total energy deposition in [CO2] is 2.976E+08 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 9.146E+07 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 3.516E+07 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 1.568E+08 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 2.458E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 2.208E-01 [eV.cm-2.s-1] ("shsum").
   11585245.               2          21
   11954539.               2          23

 Total Heating :  2.489E+03 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  3.9540049E-05
 entot depart   2489.4661       2489.4661    
 shsum :   58131200.      2.97612128E+08  2.97609632E+08  2.97609632E+08
 shsum :   59628588.      3.89076896E+08   91464768.      3.89074400E+08
 shsum :   60136340.      4.24234528E+08   35157640.      4.24232032E+08
 shsum :   65289992.      5.80988288E+08  1.56753728E+08  5.80985728E+08
 shsum :   65289992.      5.80988288E+08   2.4581556      5.80985728E+08
 shsum :   65289992.      5.80988288E+08  0.22081712      5.80985728E+08
 fin  5.80988288E+08   65289992.       21.736765    
   8.8985815    
 -1.01368111E+16   21.736765    
 ezero   0.0000000    
  5.80988288E+08
  4.66344027E+16

Total energy input of :1.419E+09 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 5.810E+08 is absorbed (entot) 
                         through inelastic collisions (shsum =5.810E+08)
                                           + heating (elhsum =2.489E+03)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  21.74 eV (from qtoteV)
                                  or :   8.90 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 : 2.5456E+09 [eV/cm2/s]
                                                             or : 4.0785E-03 [erg/cm2/s]
 That variable "errorgaupin" is:           91

 MAIN : Total energy deposition in [CO2] is 6.130E+08 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 1.844E+08 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 7.214E+07 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 3.050E+08 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 4.222E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 3.584E-01 [eV.cm-2.s-1] ("shsum").
   24137820.               2          21
   25062958.               2          23

 Total Heating :  5.175E+03 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  7.7008001E-05
 entot depart   5175.4438       5175.4438    
 shsum :  1.08224104E+08  6.13002944E+08  6.12997760E+08  6.12997760E+08
 shsum :  1.11140408E+08  7.97396096E+08  1.84393120E+08  7.97390848E+08
 shsum :  1.12134416E+08  8.69531520E+08   72135440.      8.69526272E+08
 shsum :  1.21933024E+08  1.17454579E+09  3.05014304E+08  1.17454054E+09
 shsum :  1.21933024E+08  1.17454579E+09   4.2218118      1.17454054E+09
 shsum :  1.21933024E+08  1.17454579E+09  0.35844588      1.17454054E+09
 fin  1.17454579E+09  1.21933024E+08   20.876776    
   9.6327124    
 -5.42783471E+15   20.876776    
 ezero   0.0000000    
  1.17454579E+09
  2.59993891E+16

Total energy input of :2.546E+09 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 1.175E+09 is absorbed (entot) 
                         through inelastic collisions (shsum =1.175E+09)
                                           + heating (elhsum =5.175E+03)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  20.88 eV (from qtoteV)
                                  or :   9.63 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 : 1.0332E+07 [eV/cm2/s]
                                                             or : 1.6555E-05 [erg/cm2/s]
 That variable "errorgaupin" is:           84

 MAIN : Total energy deposition in [CO2] is 2.476E+06 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 5.093E+05 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 1.655E+05 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 7.003E+05 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 1.614E-02 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 2.666E-03 [eV.cm-2.s-1] ("shsum").
   28700.002               2          21
   30318.807               2          23

 Total Heating :  8.681E+00 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  3.0869572E-07
 entot depart   8.6805439       8.6805439    
 shsum :   162819.08       2476125.5       2476116.8       2476116.8    
 shsum :   174509.44       2985454.0       509328.50       2985445.3    
 shsum :   178041.42       3150923.3       165469.27       3150914.5    
 shsum :   205562.44       3851227.0       700303.81       3851218.3    
 shsum :   205562.44       3851227.0      1.61401685E-02   3851218.3    
 shsum :   205562.44       3851227.0      2.66645360E-03   3851218.3    
 fin   3851227.0       205562.44       50.264523    
   18.735071    
 -3.21961689E+18   50.264523    
 ezero   0.0000000    
   3851227.0    
  6.40534627E+18

Total energy input of :1.033E+07 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 3.851E+06 is absorbed (entot) 
                         through inelastic collisions (shsum =3.851E+06)
                                           + heating (elhsum =8.681E+00)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  50.26 eV (from qtoteV)
                                  or :  18.74 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 : 7.4604E+07 [eV/cm2/s]
                                                             or : 1.1953E-04 [erg/cm2/s]
 That variable "errorgaupin" is:          105

 MAIN : Total energy deposition in [CO2] is 1.454E+07 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 3.841E+06 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 1.342E+06 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 6.372E+06 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 1.307E-01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 1.657E-02 [eV.cm-2.s-1] ("shsum").
   289961.09               2          21
   303751.19               2          23

 Total Heating :  7.841E+01 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  2.0235204E-06
 entot depart   78.410179       78.410179    
 shsum :   1921351.8       14535951.       14535873.       14535873.    
 shsum :   1997982.9       18376968.       3841017.8       18376890.    
 shsum :   2022522.5       19719218.       1342250.6       19719140.    
 shsum :   2255342.3       26090870.       6371652.5       26090792.    
 shsum :   2255342.3       26090870.      0.13065037       26090792.    
 shsum :   2255342.3       26090870.      1.65684689E-02   26090792.    
 fin   26090870.       2255342.3       33.078701    
   11.568475    
 -2.93450926E+17   33.078701    
 ezero   0.0000000    
   26090870.    
  8.87129549E+17

Total energy input of :7.460E+07 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 2.609E+07 is absorbed (entot) 
                         through inelastic collisions (shsum =2.609E+07)
                                           + heating (elhsum =7.841E+01)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  33.08 eV (from qtoteV)
                                  or :  11.57 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 : 3.3049E+08 [eV/cm2/s]
                                                             or : 5.2951E-04 [erg/cm2/s]
 That variable "errorgaupin" is:           97

 MAIN : Total energy deposition in [CO2] is 5.851E+07 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 1.811E+07 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 6.712E+06 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 3.267E+07 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 5.903E-01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 6.116E-02 [eV.cm-2.s-1] ("shsum").
   1855405.6               2          21
   1927966.0               2          23

 Total Heating :  4.430E+02 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  8.4732073E-06
 entot depart   442.98502       442.98502    
 shsum :   11543099.       58508012.       58507568.       58507568.    
 shsum :   11863981.       76620864.       18112848.       76620416.    
 shsum :   11970809.       83333248.       6712384.0       83332800.    
 shsum :   13096453.      1.16005248E+08   32672004.      1.16004800E+08
 shsum :   13096453.      1.16005248E+08  0.59027570      1.16004800E+08
 shsum :   13096453.      1.16005248E+08  6.11609109E-02  1.16004800E+08
 fin  1.16005248E+08   13096453.       25.235258    
   8.8577604    
 -5.05352294E+16   25.235258    
 ezero   0.0000000    
  1.16005248E+08
  2.00256441E+17

Total energy input of :3.305E+08 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 1.160E+08 is absorbed (entot) 
                         through inelastic collisions (shsum =1.160E+08)
                                           + heating (elhsum =4.430E+02)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  25.24 eV (from qtoteV)
                                  or :   8.86 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 : 9.4968E+08 [eV/cm2/s]
                                                             or : 1.5216E-03 [erg/cm2/s]
 That variable "errorgaupin" is:           77

 MAIN : Total energy deposition in [CO2] is 1.791E+08 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 5.806E+07 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 2.216E+07 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 1.054E+08 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 1.680E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 1.561E-01 [eV.cm-2.s-1] ("shsum").
   7036916.5               2          21
   7267390.0               2          23

 Total Heating :  1.555E+03 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  2.5557225E-05
 entot depart   1554.9375       1554.9375    
 shsum :   37755096.      1.79057904E+08  1.79056352E+08  1.79056352E+08
 shsum :   38722952.      2.37115296E+08   58057392.      2.37113744E+08
 shsum :   39050272.      2.59275808E+08   22160508.      2.59274256E+08
 shsum :   42560672.      3.64686720E+08  1.05410912E+08  3.64685184E+08
 shsum :   42560672.      3.64686720E+08   1.6802459      3.64685184E+08
 shsum :   42560672.      3.64686720E+08  0.15607309      3.64685184E+08
 fin  3.64686720E+08   42560672.       22.313442    
   8.5686312    
 -1.55503253E+16   22.313442    
 ezero   0.0000000    
  3.64686720E+08
  6.96903927E+16

Total energy input of :9.497E+08 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 3.647E+08 is absorbed (entot) 
                         through inelastic collisions (shsum =3.647E+08)
                                           + heating (elhsum =1.555E+03)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  22.31 eV (from qtoteV)
                                  or :   8.57 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 :  1.224E-36 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  0.0000000E+00
 entot depart  1.22435128E-36  1.22435128E-36
 shsum :   0.0000000      1.22435128E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.22435128E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.22435128E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.22435128E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.22435128E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.22435128E-36   0.0000000       0.0000000    
 fin  1.22435128E-36   0.0000000           +Infinity
       +Infinity
       -Infinity       +Infinity
 ezero   0.0000000    
  1.22435128E-36
       +Infinity

Total energy input of :1.302E-28 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 1.224E-36 is absorbed (entot) 
                         through inelastic collisions (shsum =0.000E+00)
                                           + heating (elhsum =1.224E-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 : 1.1632E+06 [eV/cm2/s]
                                                             or : 1.8637E-06 [erg/cm2/s]
 That variable "errorgaupin" is:           94

 MAIN : Total energy deposition in [CO2] is 3.015E+05 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 5.651E+04 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 1.799E+04 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 7.121E+04 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 1.594E-03 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 2.945E-04 [eV.cm-2.s-1] ("shsum").
   2898.8865               2          21
   3071.9949               2          23

 Total Heating :  9.300E-01 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  3.5858392E-08
 entot depart  0.93003422      0.93003422    
 shsum :   14488.156       301517.84       301516.91       301516.91    
 shsum :   15846.120       358029.31       56511.484       358028.38    
 shsum :   16245.638       376019.66       17990.348       376018.72    
 shsum :   19105.920       447233.19       71213.539       447232.25    
 shsum :   19105.920       447233.19      1.59423286E-03   447232.25    
 shsum :   19105.920       447233.19      2.94533733E-04   447232.25    
 fin   447233.19       19105.920       60.882702    
   23.408094    
 -3.46401688E+19   60.882702    
 ezero   0.0000000    
   447233.19    
  5.68965689E+19

Total energy input of :1.163E+06 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 4.472E+05 is absorbed (entot) 
                         through inelastic collisions (shsum =4.472E+05)
                                           + heating (elhsum =9.300E-01)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  60.88 eV (from qtoteV)
                                  or :  23.41 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 : 2.6853E+07 [eV/cm2/s]
                                                             or : 4.3024E-05 [erg/cm2/s]
 That variable "errorgaupin" is:           90

 MAIN : Total energy deposition in [CO2] is 5.676E+06 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 1.375E+06 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 4.616E+05 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 2.168E+06 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 4.540E-02 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 6.643E-03 [eV.cm-2.s-1] ("shsum").
   87309.625               2          21
   91853.484               2          23

 Total Heating :  2.514E+01 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  7.8385062E-07
 entot depart   25.144440       25.144440    
 shsum :   534557.69       5675827.5       5675802.5       5675802.5    
 shsum :   564242.25       7050446.5       1374619.1       7050421.5    
 shsum :   573465.31       7512084.5       461638.06       7512059.5    
 shsum :   655987.50       9680066.0       2167981.5       9680041.0    
 shsum :   655987.50       9680066.0      4.54033762E-02   9680041.0    
 shsum :   655987.50       9680066.0      6.64267782E-03   9680041.0    
 fin   9680066.0       655987.50       40.935074    
   14.756479    
 -1.00890988E+18   40.935074    
 ezero   0.0000000    
   9680066.0    
  2.46465894E+18

Total energy input of :2.685E+07 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 9.680E+06 is absorbed (entot) 
                         through inelastic collisions (shsum =9.680E+06)
                                           + heating (elhsum =2.514E+01)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  40.94 eV (from qtoteV)
                                  or :  14.76 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 : 2.4166E+08 [eV/cm2/s]
                                                             or : 3.8719E-04 [erg/cm2/s]
 That variable "errorgaupin" is:           91

 MAIN : Total energy deposition in [CO2] is 4.154E+07 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 1.311E+07 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 4.823E+06 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 2.430E+07 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 4.338E-01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 4.642E-02 [eV.cm-2.s-1] ("shsum").
   1271593.4               2          21
   1323499.4               2          23

 Total Heating :  3.126E+02 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  6.2427589E-06
 entot depart   312.58820       312.58820    
 shsum :   8060018.0       41542412.       41542100.       41542100.    
 shsum :   8296432.5       54650592.       13108180.       54650280.    
 shsum :   8374757.5       59473664.       4823071.5       59473352.    
 shsum :   9220427.0       83778216.       24304552.       83777904.    
 shsum :   9220427.0       83778216.      0.43381524       83777904.    
 shsum :   9220427.0       83778216.      4.64235544E-02   83777904.    
 fin   83778216.       9220427.0       26.209295    
   9.0861540    
 -7.17789194E+16   26.209295    
 ezero   0.0000000    
   83778216.    
  2.73868194E+17

Total energy input of :2.417E+08 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 8.378E+07 is absorbed (entot) 
                         through inelastic collisions (shsum =8.378E+07)
                                           + heating (elhsum =3.126E+02)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  26.21 eV (from qtoteV)
                                  or :   9.09 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 :  1.227E-36 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  0.0000000E+00
 entot depart  1.22665686E-36  1.22665686E-36
 shsum :   0.0000000      1.22665686E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.22665686E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.22665686E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.22665686E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.22665686E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.22665686E-36   0.0000000       0.0000000    
 fin  1.22665686E-36   0.0000000           +Infinity
       +Infinity
       -Infinity       +Infinity
 ezero   0.0000000    
  1.22665686E-36
       +Infinity

Total energy input of :1.302E-28 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 1.227E-36 is absorbed (entot) 
                         through inelastic collisions (shsum =0.000E+00)
                                           + heating (elhsum =1.227E-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 :  1.230E-36 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  0.0000000E+00
 entot depart  1.23026292E-36  1.23026292E-36
 shsum :   0.0000000      1.23026292E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.23026292E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.23026292E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.23026292E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.23026292E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.23026292E-36   0.0000000       0.0000000    
 fin  1.23026292E-36   0.0000000           +Infinity
       +Infinity
       -Infinity       +Infinity
 ezero   0.0000000    
  1.23026292E-36
       +Infinity

Total energy input of :1.302E-28 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 1.230E-36 is absorbed (entot) 
                         through inelastic collisions (shsum =0.000E+00)
                                           + heating (elhsum =1.230E-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 : 4.1588E+05 [eV/cm2/s]
                                                             or : 6.6633E-07 [erg/cm2/s]
 That variable "errorgaupin" is:          100

 MAIN : Total energy deposition in [CO2] is 1.078E+05 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 2.044E+04 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 6.508E+03 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 2.604E+04 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 5.587E-04 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 1.044E-04 [eV.cm-2.s-1] ("shsum").
   1036.0969               2          21
   1097.8722               2          23

 Total Heating :  3.354E-01 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  1.3014992E-08
 entot depart  0.33535913      0.33535913    
 shsum :   5028.2217       107766.88       107766.55       107766.55    
 shsum :   5521.1016       128207.98       20441.096       128207.64    
 shsum :   5665.7495       134715.86       6507.8809       134715.52    
 shsum :   6712.5518       160752.17       26036.316       160751.83    
 shsum :   6712.5518       160752.17      5.58662112E-04   160751.83    
 shsum :   6712.5518       160752.17      1.04359053E-04   160751.83    
 fin   160752.17       6712.5518       61.956234    
   23.947998    
 -9.85962247E+19   61.956234    
 ezero   0.0000000    
   160752.17    
  1.59138510E+20

Total energy input of :4.159E+05 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 1.608E+05 is absorbed (entot) 
                         through inelastic collisions (shsum =1.608E+05)
                                           + heating (elhsum =3.354E-01)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  61.96 eV (from qtoteV)
                                  or :  23.95 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 : 2.7174E+07 [eV/cm2/s]
                                                             or : 4.3537E-05 [erg/cm2/s]
 That variable "errorgaupin" is:           87

 MAIN : Total energy deposition in [CO2] is 5.586E+06 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 1.407E+06 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 4.742E+05 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 2.297E+06 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 4.637E-02 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 6.734E-03 [eV.cm-2.s-1] ("shsum").
   90125.219               2          21
   94752.484               2          23

 Total Heating :  2.591E+01 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  7.9860183E-07
 entot depart   25.905989       25.905989    
 shsum :   546904.63       5586034.5       5586008.5       5586008.5    
 shsum :   577147.81       6993041.0       1407006.6       6993015.0    
 shsum :   586565.50       7467221.0       474180.13       7467195.0    
 shsum :   673815.38       9764200.0       2296978.5       9764174.0    
 shsum :   673815.38       9764200.0      4.63699773E-02   9764174.0    
 shsum :   673815.38       9764200.0      6.73365733E-03   9764174.0    
 fin   9764200.0       673815.38       40.327858    
   14.490913    
 -9.82216071E+17   40.327858    
 ezero   0.0000000    
   9764200.0    
  2.43557713E+18

Total energy input of :2.717E+07 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 9.764E+06 is absorbed (entot) 
                         through inelastic collisions (shsum =9.764E+06)
                                           + heating (elhsum =2.591E+01)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  40.33 eV (from qtoteV)
                                  or :  14.49 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 :  1.227E-36 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  0.0000000E+00
 entot depart  1.22742544E-36  1.22742544E-36
 shsum :   0.0000000      1.22742544E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.22742544E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.22742544E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.22742544E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.22742544E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.22742544E-36   0.0000000       0.0000000    
 fin  1.22742544E-36   0.0000000           +Infinity
       +Infinity
       -Infinity       +Infinity
 ezero   0.0000000    
  1.22742544E-36
       +Infinity

Total energy input of :1.302E-28 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 1.227E-36 is absorbed (entot) 
                         through inelastic collisions (shsum =0.000E+00)
                                           + heating (elhsum =1.227E-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 :  1.231E-36 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  0.0000000E+00
 entot depart  1.23101967E-36  1.23101967E-36
 shsum :   0.0000000      1.23101967E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.23101967E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.23101967E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.23101967E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.23101967E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.23101967E-36   0.0000000       0.0000000    
 fin  1.23101967E-36   0.0000000           +Infinity
       +Infinity
       -Infinity       +Infinity
 ezero   0.0000000    
  1.23101967E-36
       +Infinity

Total energy input of :1.302E-28 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 1.231E-36 is absorbed (entot) 
                         through inelastic collisions (shsum =0.000E+00)
                                           + heating (elhsum =1.231E-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 :  1.238E-36 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  0.0000000E+00
 entot depart  1.23799558E-36  1.23799558E-36
 shsum :   0.0000000      1.23799558E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.23799558E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.23799558E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.23799558E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.23799558E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.23799558E-36   0.0000000       0.0000000    
 fin  1.23799558E-36   0.0000000           +Infinity
       +Infinity
       -Infinity       +Infinity
 ezero   0.0000000    
  1.23799558E-36
       +Infinity

Total energy input of :1.302E-28 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 1.238E-36 is absorbed (entot) 
                         through inelastic collisions (shsum =0.000E+00)
                                           + heating (elhsum =1.238E-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 : 1.1525E+06 [eV/cm2/s]
                                                             or : 1.8465E-06 [erg/cm2/s]
 That variable "errorgaupin" is:           85

 MAIN : Total energy deposition in [CO2] is 2.900E+05 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 5.779E+04 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 1.843E+04 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 7.697E+04 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 1.603E-03 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 2.962E-04 [eV.cm-2.s-1] ("shsum").
   2952.6333               2          21
   3125.2983               2          23

 Total Heating :  9.461E-01 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  3.6653923E-08
 entot depart  0.94610280      0.94610280    
 shsum :   14215.811       290026.56       290025.63       290025.63    
 shsum :   15603.901       347813.50       57786.953       347812.56    
 shsum :   16012.747       366240.22       18426.729       366239.28    
 shsum :   19104.094       443209.88       76969.672       443208.94    
 shsum :   19104.094       443209.88      1.60335773E-03   443208.94    
 shsum :   19104.094       443209.88      2.96185957E-04   443208.94    
 fin   443209.88       19104.094       60.325172    
   23.199734    
 -3.46434805E+19   60.325172    
 ezero   0.0000000    
   443209.88    
  5.74279013E+19

Total energy input of :1.152E+06 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 4.432E+05 is absorbed (entot) 
                         through inelastic collisions (shsum =4.432E+05)
                                           + heating (elhsum =9.461E-01)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  60.33 eV (from qtoteV)
                                  or :  23.20 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 :  1.231E-36 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  0.0000000E+00
 entot depart  1.23139804E-36  1.23139804E-36
 shsum :   0.0000000      1.23139804E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.23139804E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.23139804E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.23139804E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.23139804E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.23139804E-36   0.0000000       0.0000000    
 fin  1.23139804E-36   0.0000000           +Infinity
       +Infinity
       -Infinity       +Infinity
 ezero   0.0000000    
  1.23139804E-36
       +Infinity

Total energy input of :1.302E-28 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 1.231E-36 is absorbed (entot) 
                         through inelastic collisions (shsum =0.000E+00)
                                           + heating (elhsum =1.231E-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 :  1.235E-36 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  0.0000000E+00
 entot depart  1.23450763E-36  1.23450763E-36
 shsum :   0.0000000      1.23450763E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.23450763E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.23450763E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.23450763E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.23450763E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.23450763E-36   0.0000000       0.0000000    
 fin  1.23450763E-36   0.0000000           +Infinity
       +Infinity
       -Infinity       +Infinity
 ezero   0.0000000    
  1.23450763E-36
       +Infinity

Total energy input of :1.302E-28 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 1.235E-36 is absorbed (entot) 
                         through inelastic collisions (shsum =0.000E+00)
                                           + heating (elhsum =1.235E-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 :  1.241E-36 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  0.0000000E+00
 entot depart  1.24148336E-36  1.24148336E-36
 shsum :   0.0000000      1.24148336E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.24148336E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.24148336E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.24148336E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.24148336E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.24148336E-36   0.0000000       0.0000000    
 fin  1.24148336E-36   0.0000000           +Infinity
       +Infinity
       -Infinity       +Infinity
 ezero   0.0000000    
  1.24148336E-36
       +Infinity

Total energy input of :1.302E-28 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 1.241E-36 is absorbed (entot) 
                         through inelastic collisions (shsum =0.000E+00)
                                           + heating (elhsum =1.241E-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 :  1.251E-36 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  0.0000000E+00
 entot depart  1.25057597E-36  1.25057597E-36
 shsum :   0.0000000      1.25057597E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.25057597E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.25057597E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.25057597E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.25057597E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.25057597E-36   0.0000000       0.0000000    
 fin  1.25057597E-36   0.0000000           +Infinity
       +Infinity
       -Infinity       +Infinity
 ezero   0.0000000    
  1.25057597E-36
       +Infinity

Total energy input of :1.302E-28 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 1.251E-36 is absorbed (entot) 
                         through inelastic collisions (shsum =0.000E+00)
                                           + heating (elhsum =1.251E-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 :  1.236E-36 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  0.0000000E+00
 entot depart  1.23581996E-36  1.23581996E-36
 shsum :   0.0000000      1.23581996E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.23581996E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.23581996E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.23581996E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.23581996E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.23581996E-36   0.0000000       0.0000000    
 fin  1.23581996E-36   0.0000000           +Infinity
       +Infinity
       -Infinity       +Infinity
 ezero   0.0000000    
  1.23581996E-36
       +Infinity

Total energy input of :1.302E-28 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 1.236E-36 is absorbed (entot) 
                         through inelastic collisions (shsum =0.000E+00)
                                           + heating (elhsum =1.236E-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 :  1.241E-36 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  0.0000000E+00
 entot depart  1.24053756E-36  1.24053756E-36
 shsum :   0.0000000      1.24053756E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.24053756E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.24053756E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.24053756E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.24053756E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.24053756E-36   0.0000000       0.0000000    
 fin  1.24053756E-36   0.0000000           +Infinity
       +Infinity
       -Infinity       +Infinity
 ezero   0.0000000    
  1.24053756E-36
       +Infinity

Total energy input of :1.302E-28 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 1.241E-36 is absorbed (entot) 
                         through inelastic collisions (shsum =0.000E+00)
                                           + heating (elhsum =1.241E-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 :  1.250E-36 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  0.0000000E+00
 entot depart  1.24994926E-36  1.24994926E-36
 shsum :   0.0000000      1.24994926E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.24994926E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.24994926E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.24994926E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.24994926E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.24994926E-36   0.0000000       0.0000000    
 fin  1.24994926E-36   0.0000000           +Infinity
       +Infinity
       -Infinity       +Infinity
 ezero   0.0000000    
  1.24994926E-36
       +Infinity

Total energy input of :1.302E-28 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 1.250E-36 is absorbed (entot) 
                         through inelastic collisions (shsum =0.000E+00)
                                           + heating (elhsum =1.250E-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 :  1.253E-36 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  0.0000000E+00
 entot depart  1.25272782E-36  1.25272782E-36
 shsum :   0.0000000      1.25272782E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.25272782E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.25272782E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.25272782E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.25272782E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.25272782E-36   0.0000000       0.0000000    
 fin  1.25272782E-36   0.0000000           +Infinity
       +Infinity
       -Infinity       +Infinity
 ezero   0.0000000    
  1.25272782E-36
       +Infinity

Total energy input of :1.302E-28 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 1.253E-36 is absorbed (entot) 
                         through inelastic collisions (shsum =0.000E+00)
                                           + heating (elhsum =1.253E-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 :  1.242E-36 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  0.0000000E+00
 entot depart  1.24248861E-36  1.24248861E-36
 shsum :   0.0000000      1.24248861E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.24248861E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.24248861E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.24248861E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.24248861E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.24248861E-36   0.0000000       0.0000000    
 fin  1.24248861E-36   0.0000000           +Infinity
       +Infinity
       -Infinity       +Infinity
 ezero   0.0000000    
  1.24248861E-36
       +Infinity

Total energy input of :1.302E-28 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 1.242E-36 is absorbed (entot) 
                         through inelastic collisions (shsum =0.000E+00)
                                           + heating (elhsum =1.242E-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 :  1.249E-36 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  0.0000000E+00
 entot depart  1.24880239E-36  1.24880239E-36
 shsum :   0.0000000      1.24880239E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.24880239E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.24880239E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.24880239E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.24880239E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.24880239E-36   0.0000000       0.0000000    
 fin  1.24880239E-36   0.0000000           +Infinity
       +Infinity
       -Infinity       +Infinity
 ezero   0.0000000    
  1.24880239E-36
       +Infinity

Total energy input of :1.302E-28 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 1.249E-36 is absorbed (entot) 
                         through inelastic collisions (shsum =0.000E+00)
                                           + heating (elhsum =1.249E-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 :  1.252E-36 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  0.0000000E+00
 entot depart  1.25230219E-36  1.25230219E-36
 shsum :   0.0000000      1.25230219E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.25230219E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.25230219E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.25230219E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.25230219E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.25230219E-36   0.0000000       0.0000000    
 fin  1.25230219E-36   0.0000000           +Infinity
       +Infinity
       -Infinity       +Infinity
 ezero   0.0000000    
  1.25230219E-36
       +Infinity

Total energy input of :1.302E-28 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 1.252E-36 is absorbed (entot) 
                         through inelastic collisions (shsum =0.000E+00)
                                           + heating (elhsum =1.252E-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 :  1.257E-36 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  0.0000000E+00
 entot depart  1.25724435E-36  1.25724435E-36
 shsum :   0.0000000      1.25724435E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.25724435E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.25724435E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.25724435E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.25724435E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.25724435E-36   0.0000000       0.0000000    
 fin  1.25724435E-36   0.0000000           +Infinity
       +Infinity
       -Infinity       +Infinity
 ezero   0.0000000    
  1.25724435E-36
       +Infinity

Total energy input of :1.302E-28 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 1.257E-36 is absorbed (entot) 
                         through inelastic collisions (shsum =0.000E+00)
                                           + heating (elhsum =1.257E-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 :  1.247E-36 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  0.0000000E+00
 entot depart  1.24743078E-36  1.24743078E-36
 shsum :   0.0000000      1.24743078E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.24743078E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.24743078E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.24743078E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.24743078E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.24743078E-36   0.0000000       0.0000000    
 fin  1.24743078E-36   0.0000000           +Infinity
       +Infinity
       -Infinity       +Infinity
 ezero   0.0000000    
  1.24743078E-36
       +Infinity

Total energy input of :1.302E-28 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 1.247E-36 is absorbed (entot) 
                         through inelastic collisions (shsum =0.000E+00)
                                           + heating (elhsum =1.247E-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 :  1.253E-36 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  0.0000000E+00
 entot depart  1.25250317E-36  1.25250317E-36
 shsum :   0.0000000      1.25250317E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.25250317E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.25250317E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.25250317E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.25250317E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.25250317E-36   0.0000000       0.0000000    
 fin  1.25250317E-36   0.0000000           +Infinity
       +Infinity
       -Infinity       +Infinity
 ezero   0.0000000    
  1.25250317E-36
       +Infinity

Total energy input of :1.302E-28 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 1.253E-36 is absorbed (entot) 
                         through inelastic collisions (shsum =0.000E+00)
                                           + heating (elhsum =1.253E-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 :  1.256E-36 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  0.0000000E+00
 entot depart  1.25606197E-36  1.25606197E-36
 shsum :   0.0000000      1.25606197E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.25606197E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.25606197E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.25606197E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.25606197E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.25606197E-36   0.0000000       0.0000000    
 fin  1.25606197E-36   0.0000000           +Infinity
       +Infinity
       -Infinity       +Infinity
 ezero   0.0000000    
  1.25606197E-36
       +Infinity

Total energy input of :1.302E-28 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 1.256E-36 is absorbed (entot) 
                         through inelastic collisions (shsum =0.000E+00)
                                           + heating (elhsum =1.256E-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 :  1.260E-36 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  0.0000000E+00
 entot depart  1.26028300E-36  1.26028300E-36
 shsum :   0.0000000      1.26028300E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.26028300E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.26028300E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.26028300E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.26028300E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.26028300E-36   0.0000000       0.0000000    
 fin  1.26028300E-36   0.0000000           +Infinity
       +Infinity
       -Infinity       +Infinity
 ezero   0.0000000    
  1.26028300E-36
       +Infinity

Total energy input of :1.302E-28 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 1.260E-36 is absorbed (entot) 
                         through inelastic collisions (shsum =0.000E+00)
                                           + heating (elhsum =1.260E-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 :  1.254E-36 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  0.0000000E+00
 entot depart  1.25417011E-36  1.25417011E-36
 shsum :   0.0000000      1.25417011E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.25417011E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.25417011E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.25417011E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.25417011E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.25417011E-36   0.0000000       0.0000000    
 fin  1.25417011E-36   0.0000000           +Infinity
       +Infinity
       -Infinity       +Infinity
 ezero   0.0000000    
  1.25417011E-36
       +Infinity

Total energy input of :1.302E-28 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 1.254E-36 is absorbed (entot) 
                         through inelastic collisions (shsum =0.000E+00)
                                           + heating (elhsum =1.254E-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 :  1.258E-36 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  0.0000000E+00
 entot depart  1.25769367E-36  1.25769367E-36
 shsum :   0.0000000      1.25769367E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.25769367E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.25769367E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.25769367E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.25769367E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.25769367E-36   0.0000000       0.0000000    
 fin  1.25769367E-36   0.0000000           +Infinity
       +Infinity
       -Infinity       +Infinity
 ezero   0.0000000    
  1.25769367E-36
       +Infinity

Total energy input of :1.302E-28 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 1.258E-36 is absorbed (entot) 
                         through inelastic collisions (shsum =0.000E+00)
                                           + heating (elhsum =1.258E-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 :  1.261E-36 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  0.0000000E+00
 entot depart  1.26119346E-36  1.26119346E-36
 shsum :   0.0000000      1.26119346E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.26119346E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.26119346E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.26119346E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.26119346E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.26119346E-36   0.0000000       0.0000000    
 fin  1.26119346E-36   0.0000000           +Infinity
       +Infinity
       -Infinity       +Infinity
 ezero   0.0000000    
  1.26119346E-36
       +Infinity

Total energy input of :1.302E-28 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 1.261E-36 is absorbed (entot) 
                         through inelastic collisions (shsum =0.000E+00)
                                           + heating (elhsum =1.261E-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 :  1.266E-36 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  0.0000000E+00
 entot depart  1.26561233E-36  1.26561233E-36
 shsum :   0.0000000      1.26561233E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.26561233E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.26561233E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.26561233E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.26561233E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.26561233E-36   0.0000000       0.0000000    
 fin  1.26561233E-36   0.0000000           +Infinity
       +Infinity
       -Infinity       +Infinity
 ezero   0.0000000    
  1.26561233E-36
       +Infinity

Total energy input of :1.302E-28 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 1.266E-36 is absorbed (entot) 
                         through inelastic collisions (shsum =0.000E+00)
                                           + heating (elhsum =1.266E-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 :  1.259E-36 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  0.0000000E+00
 entot depart  1.25872215E-36  1.25872215E-36
 shsum :   0.0000000      1.25872215E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.25872215E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.25872215E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.25872215E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.25872215E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.25872215E-36   0.0000000       0.0000000    
 fin  1.25872215E-36   0.0000000           +Infinity
       +Infinity
       -Infinity       +Infinity
 ezero   0.0000000    
  1.25872215E-36
       +Infinity

Total energy input of :1.302E-28 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 1.259E-36 is absorbed (entot) 
                         through inelastic collisions (shsum =0.000E+00)
                                           + heating (elhsum =1.259E-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 :  1.263E-36 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  0.0000000E+00
 entot depart  1.26291959E-36  1.26291959E-36
 shsum :   0.0000000      1.26291959E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.26291959E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.26291959E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.26291959E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.26291959E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.26291959E-36   0.0000000       0.0000000    
 fin  1.26291959E-36   0.0000000           +Infinity
       +Infinity
       -Infinity       +Infinity
 ezero   0.0000000    
  1.26291959E-36
       +Infinity

Total energy input of :1.302E-28 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 1.263E-36 is absorbed (entot) 
                         through inelastic collisions (shsum =0.000E+00)
                                           + heating (elhsum =1.263E-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 :  1.270E-36 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  0.0000000E+00
 entot depart  1.26956412E-36  1.26956412E-36
 shsum :   0.0000000      1.26956412E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.26956412E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.26956412E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.26956412E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.26956412E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.26956412E-36   0.0000000       0.0000000    
 fin  1.26956412E-36   0.0000000           +Infinity
       +Infinity
       -Infinity       +Infinity
 ezero   0.0000000    
  1.26956412E-36
       +Infinity

Total energy input of :1.302E-28 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 1.270E-36 is absorbed (entot) 
                         through inelastic collisions (shsum =0.000E+00)
                                           + heating (elhsum =1.270E-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 :  1.273E-36 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  0.0000000E+00
 entot depart  1.27297809E-36  1.27297809E-36
 shsum :   0.0000000      1.27297809E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.27297809E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.27297809E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.27297809E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.27297809E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.27297809E-36   0.0000000       0.0000000    
 fin  1.27297809E-36   0.0000000           +Infinity
       +Infinity
       -Infinity       +Infinity
 ezero   0.0000000    
  1.27297809E-36
       +Infinity

Total energy input of :1.302E-28 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 1.273E-36 is absorbed (entot) 
                         through inelastic collisions (shsum =0.000E+00)
                                           + heating (elhsum =1.273E-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 :  1.265E-36 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  0.0000000E+00
 entot depart  1.26461030E-36  1.26461030E-36
 shsum :   0.0000000      1.26461030E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.26461030E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.26461030E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.26461030E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.26461030E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.26461030E-36   0.0000000       0.0000000    
 fin  1.26461030E-36   0.0000000           +Infinity
       +Infinity
       -Infinity       +Infinity
 ezero   0.0000000    
  1.26461030E-36
       +Infinity

Total energy input of :1.302E-28 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 1.265E-36 is absorbed (entot) 
                         through inelastic collisions (shsum =0.000E+00)
                                           + heating (elhsum =1.265E-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 :  1.271E-36 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  0.0000000E+00
 entot depart  1.27117214E-36  1.27117214E-36
 shsum :   0.0000000      1.27117214E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.27117214E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.27117214E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.27117214E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.27117214E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.27117214E-36   0.0000000       0.0000000    
 fin  1.27117214E-36   0.0000000           +Infinity
       +Infinity
       -Infinity       +Infinity
 ezero   0.0000000    
  1.27117214E-36
       +Infinity

Total energy input of :1.302E-28 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 1.271E-36 is absorbed (entot) 
                         through inelastic collisions (shsum =0.000E+00)
                                           + heating (elhsum =1.271E-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 :  1.273E-36 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  0.0000000E+00
 entot depart  1.27325001E-36  1.27325001E-36
 shsum :   0.0000000      1.27325001E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.27325001E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.27325001E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.27325001E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.27325001E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.27325001E-36   0.0000000       0.0000000    
 fin  1.27325001E-36   0.0000000           +Infinity
       +Infinity
       -Infinity       +Infinity
 ezero   0.0000000    
  1.27325001E-36
       +Infinity

Total energy input of :1.302E-28 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 1.273E-36 is absorbed (entot) 
                         through inelastic collisions (shsum =0.000E+00)
                                           + heating (elhsum =1.273E-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 :  1.277E-36 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  0.0000000E+00
 entot depart  1.27740018E-36  1.27740018E-36
 shsum :   0.0000000      1.27740018E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.27740018E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.27740018E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.27740018E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.27740018E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.27740018E-36   0.0000000       0.0000000    
 fin  1.27740018E-36   0.0000000           +Infinity
       +Infinity
       -Infinity       +Infinity
 ezero   0.0000000    
  1.27740018E-36
       +Infinity

Total energy input of :1.302E-28 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 1.277E-36 is absorbed (entot) 
                         through inelastic collisions (shsum =0.000E+00)
                                           + heating (elhsum =1.277E-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 :  1.272E-36 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  0.0000000E+00
 entot depart  1.27195247E-36  1.27195247E-36
 shsum :   0.0000000      1.27195247E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.27195247E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.27195247E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.27195247E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.27195247E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.27195247E-36   0.0000000       0.0000000    
 fin  1.27195247E-36   0.0000000           +Infinity
       +Infinity
       -Infinity       +Infinity
 ezero   0.0000000    
  1.27195247E-36
       +Infinity

Total energy input of :1.302E-28 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 1.272E-36 is absorbed (entot) 
                         through inelastic collisions (shsum =0.000E+00)
                                           + heating (elhsum =1.272E-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 :  1.274E-36 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  0.0000000E+00
 entot depart  1.27418711E-36  1.27418711E-36
 shsum :   0.0000000      1.27418711E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.27418711E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.27418711E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.27418711E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.27418711E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.27418711E-36   0.0000000       0.0000000    
 fin  1.27418711E-36   0.0000000           +Infinity
       +Infinity
       -Infinity       +Infinity
 ezero   0.0000000    
  1.27418711E-36
       +Infinity

Total energy input of :1.302E-28 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 1.274E-36 is absorbed (entot) 
                         through inelastic collisions (shsum =0.000E+00)
                                           + heating (elhsum =1.274E-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 :  1.277E-36 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  0.0000000E+00
 entot depart  1.27684442E-36  1.27684442E-36
 shsum :   0.0000000      1.27684442E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.27684442E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.27684442E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.27684442E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.27684442E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.27684442E-36   0.0000000       0.0000000    
 fin  1.27684442E-36   0.0000000           +Infinity
       +Infinity
       -Infinity       +Infinity
 ezero   0.0000000    
  1.27684442E-36
       +Infinity

Total energy input of :1.302E-28 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 1.277E-36 is absorbed (entot) 
                         through inelastic collisions (shsum =0.000E+00)
                                           + heating (elhsum =1.277E-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 :  1.285E-36 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  0.0000000E+00
 entot depart  1.28528665E-36  1.28528665E-36
 shsum :   0.0000000      1.28528665E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.28528665E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.28528665E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.28528665E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.28528665E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.28528665E-36   0.0000000       0.0000000    
 fin  1.28528665E-36   0.0000000           +Infinity
       +Infinity
       -Infinity       +Infinity
 ezero   0.0000000    
  1.28528665E-36
       +Infinity

Total energy input of :1.302E-28 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 1.285E-36 is absorbed (entot) 
                         through inelastic collisions (shsum =0.000E+00)
                                           + heating (elhsum =1.285E-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 :  1.274E-36 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  0.0000000E+00
 entot depart  1.27418711E-36  1.27418711E-36
 shsum :   0.0000000      1.27418711E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.27418711E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.27418711E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.27418711E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.27418711E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.27418711E-36   0.0000000       0.0000000    
 fin  1.27418711E-36   0.0000000           +Infinity
       +Infinity
       -Infinity       +Infinity
 ezero   0.0000000    
  1.27418711E-36
       +Infinity

Total energy input of :1.302E-28 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 1.274E-36 is absorbed (entot) 
                         through inelastic collisions (shsum =0.000E+00)
                                           + heating (elhsum =1.274E-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 :  1.278E-36 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  0.0000000E+00
 entot depart  1.27750655E-36  1.27750655E-36
 shsum :   0.0000000      1.27750655E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.27750655E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.27750655E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.27750655E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.27750655E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.27750655E-36   0.0000000       0.0000000    
 fin  1.27750655E-36   0.0000000           +Infinity
       +Infinity
       -Infinity       +Infinity
 ezero   0.0000000    
  1.27750655E-36
       +Infinity

Total energy input of :1.302E-28 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 1.278E-36 is absorbed (entot) 
                         through inelastic collisions (shsum =0.000E+00)
                                           + heating (elhsum =1.278E-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 :  1.285E-36 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  0.0000000E+00
 entot depart  1.28465994E-36  1.28465994E-36
 shsum :   0.0000000      1.28465994E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.28465994E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.28465994E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.28465994E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.28465994E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.28465994E-36   0.0000000       0.0000000    
 fin  1.28465994E-36   0.0000000           +Infinity
       +Infinity
       -Infinity       +Infinity
 ezero   0.0000000    
  1.28465994E-36
       +Infinity

Total energy input of :1.302E-28 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 1.285E-36 is absorbed (entot) 
                         through inelastic collisions (shsum =0.000E+00)
                                           + heating (elhsum =1.285E-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 :  1.287E-36 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  0.0000000E+00
 entot depart  1.28721358E-36  1.28721358E-36
 shsum :   0.0000000      1.28721358E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.28721358E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.28721358E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.28721358E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.28721358E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.28721358E-36   0.0000000       0.0000000    
 fin  1.28721358E-36   0.0000000           +Infinity
       +Infinity
       -Infinity       +Infinity
 ezero   0.0000000    
  1.28721358E-36
       +Infinity

Total energy input of :1.302E-28 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 1.287E-36 is absorbed (entot) 
                         through inelastic collisions (shsum =0.000E+00)
                                           + heating (elhsum =1.287E-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 :  1.279E-36 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  0.0000000E+00
 entot depart  1.27891654E-36  1.27891654E-36
 shsum :   0.0000000      1.27891654E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.27891654E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.27891654E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.27891654E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.27891654E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.27891654E-36   0.0000000       0.0000000    
 fin  1.27891654E-36   0.0000000           +Infinity
       +Infinity
       -Infinity       +Infinity
 ezero   0.0000000    
  1.27891654E-36
       +Infinity

Total energy input of :1.302E-28 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 1.279E-36 is absorbed (entot) 
                         through inelastic collisions (shsum =0.000E+00)
                                           + heating (elhsum =1.279E-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 :  1.284E-36 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  0.0000000E+00
 entot depart  1.28403332E-36  1.28403332E-36
 shsum :   0.0000000      1.28403332E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.28403332E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.28403332E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.28403332E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.28403332E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.28403332E-36   0.0000000       0.0000000    
 fin  1.28403332E-36   0.0000000           +Infinity
       +Infinity
       -Infinity       +Infinity
 ezero   0.0000000    
  1.28403332E-36
       +Infinity

Total energy input of :1.302E-28 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 1.284E-36 is absorbed (entot) 
                         through inelastic collisions (shsum =0.000E+00)
                                           + heating (elhsum =1.284E-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 :  1.289E-36 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  0.0000000E+00
 entot depart  1.28890428E-36  1.28890428E-36
 shsum :   0.0000000      1.28890428E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.28890428E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.28890428E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.28890428E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.28890428E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.28890428E-36   0.0000000       0.0000000    
 fin  1.28890428E-36   0.0000000           +Infinity
       +Infinity
       -Infinity       +Infinity
 ezero   0.0000000    
  1.28890428E-36
       +Infinity

Total energy input of :1.302E-28 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 1.289E-36 is absorbed (entot) 
                         through inelastic collisions (shsum =0.000E+00)
                                           + heating (elhsum =1.289E-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 :  1.291E-36 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  0.0000000E+00
 entot depart  1.29071373E-36  1.29071373E-36
 shsum :   0.0000000      1.29071373E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.29071373E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.29071373E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.29071373E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.29071373E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.29071373E-36   0.0000000       0.0000000    
 fin  1.29071373E-36   0.0000000           +Infinity
       +Infinity
       -Infinity       +Infinity
 ezero   0.0000000    
  1.29071373E-36
       +Infinity

Total energy input of :1.302E-28 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 1.291E-36 is absorbed (entot) 
                         through inelastic collisions (shsum =0.000E+00)
                                           + heating (elhsum =1.291E-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 :  1.281E-36 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  0.0000000E+00
 entot depart  1.28108921E-36  1.28108921E-36
 shsum :   0.0000000      1.28108921E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.28108921E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.28108921E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.28108921E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.28108921E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.28108921E-36   0.0000000       0.0000000    
 fin  1.28108921E-36   0.0000000           +Infinity
       +Infinity
       -Infinity       +Infinity
 ezero   0.0000000    
  1.28108921E-36
       +Infinity

Total energy input of :1.302E-28 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 1.281E-36 is absorbed (entot) 
                         through inelastic collisions (shsum =0.000E+00)
                                           + heating (elhsum =1.281E-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 :  1.287E-36 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  0.0000000E+00
 entot depart  1.28669359E-36  1.28669359E-36
 shsum :   0.0000000      1.28669359E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.28669359E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.28669359E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.28669359E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.28669359E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.28669359E-36   0.0000000       0.0000000    
 fin  1.28669359E-36   0.0000000           +Infinity
       +Infinity
       -Infinity       +Infinity
 ezero   0.0000000    
  1.28669359E-36
       +Infinity

Total energy input of :1.302E-28 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 1.287E-36 is absorbed (entot) 
                         through inelastic collisions (shsum =0.000E+00)
                                           + heating (elhsum =1.287E-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 :  1.292E-36 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  0.0000000E+00
 entot depart  1.29164769E-36  1.29164769E-36
 shsum :   0.0000000      1.29164769E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.29164769E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.29164769E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.29164769E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.29164769E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.29164769E-36   0.0000000       0.0000000    
 fin  1.29164769E-36   0.0000000           +Infinity
       +Infinity
       -Infinity       +Infinity
 ezero   0.0000000    
  1.29164769E-36
       +Infinity

Total energy input of :1.302E-28 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 1.292E-36 is absorbed (entot) 
                         through inelastic collisions (shsum =0.000E+00)
                                           + heating (elhsum =1.292E-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 :  1.293E-36 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  0.0000000E+00
 entot depart  1.29284191E-36  1.29284191E-36
 shsum :   0.0000000      1.29284191E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.29284191E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.29284191E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.29284191E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.29284191E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.29284191E-36   0.0000000       0.0000000    
 fin  1.29284191E-36   0.0000000           +Infinity
       +Infinity
       -Infinity       +Infinity
 ezero   0.0000000    
  1.29284191E-36
       +Infinity

Total energy input of :1.302E-28 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 1.293E-36 is absorbed (entot) 
                         through inelastic collisions (shsum =0.000E+00)
                                           + heating (elhsum =1.293E-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 :  1.285E-36 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  0.0000000E+00
 entot depart  1.28531014E-36  1.28531014E-36
 shsum :   0.0000000      1.28531014E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.28531014E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.28531014E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.28531014E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.28531014E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.28531014E-36   0.0000000       0.0000000    
 fin  1.28531014E-36   0.0000000           +Infinity
       +Infinity
       -Infinity       +Infinity
 ezero   0.0000000    
  1.28531014E-36
       +Infinity

Total energy input of :1.302E-28 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 1.285E-36 is absorbed (entot) 
                         through inelastic collisions (shsum =0.000E+00)
                                           + heating (elhsum =1.285E-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 :  1.290E-36 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  0.0000000E+00
 entot depart  1.28956650E-36  1.28956650E-36
 shsum :   0.0000000      1.28956650E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.28956650E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.28956650E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.28956650E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.28956650E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.28956650E-36   0.0000000       0.0000000    
 fin  1.28956650E-36   0.0000000           +Infinity
       +Infinity
       -Infinity       +Infinity
 ezero   0.0000000    
  1.28956650E-36
       +Infinity

Total energy input of :1.302E-28 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 1.290E-36 is absorbed (entot) 
                         through inelastic collisions (shsum =0.000E+00)
                                           + heating (elhsum =1.290E-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 :  1.294E-36 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  0.0000000E+00
 entot depart  1.29377587E-36  1.29377587E-36
 shsum :   0.0000000      1.29377587E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.29377587E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.29377587E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.29377587E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.29377587E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.29377587E-36   0.0000000       0.0000000    
 fin  1.29377587E-36   0.0000000           +Infinity
       +Infinity
       -Infinity       +Infinity
 ezero   0.0000000    
  1.29377587E-36
       +Infinity

Total energy input of :1.302E-28 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 1.294E-36 is absorbed (entot) 
                         through inelastic collisions (shsum =0.000E+00)
                                           + heating (elhsum =1.294E-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 :  1.300E-36 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  0.0000000E+00
 entot depart  1.30023144E-36  1.30023144E-36
 shsum :   0.0000000      1.30023144E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.30023144E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.30023144E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.30023144E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.30023144E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.30023144E-36   0.0000000       0.0000000    
 fin  1.30023144E-36   0.0000000           +Infinity
       +Infinity
       -Infinity       +Infinity
 ezero   0.0000000    
  1.30023144E-36
       +Infinity

Total energy input of :1.302E-28 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 1.300E-36 is absorbed (entot) 
                         through inelastic collisions (shsum =0.000E+00)
                                           + heating (elhsum =1.300E-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 :  1.290E-36 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  0.0000000E+00
 entot depart  1.28969654E-36  1.28969654E-36
 shsum :   0.0000000      1.28969654E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.28969654E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.28969654E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.28969654E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.28969654E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.28969654E-36   0.0000000       0.0000000    
 fin  1.28969654E-36   0.0000000           +Infinity
       +Infinity
       -Infinity       +Infinity
 ezero   0.0000000    
  1.28969654E-36
       +Infinity

Total energy input of :1.302E-28 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 1.290E-36 is absorbed (entot) 
                         through inelastic collisions (shsum =0.000E+00)
                                           + heating (elhsum =1.290E-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 :  1.295E-36 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  0.0000000E+00
 entot depart  1.29525385E-36  1.29525385E-36
 shsum :   0.0000000      1.29525385E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.29525385E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.29525385E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.29525385E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.29525385E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.29525385E-36   0.0000000       0.0000000    
 fin  1.29525385E-36   0.0000000           +Infinity
       +Infinity
       -Infinity       +Infinity
 ezero   0.0000000    
  1.29525385E-36
       +Infinity

Total energy input of :1.302E-28 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 1.295E-36 is absorbed (entot) 
                         through inelastic collisions (shsum =0.000E+00)
                                           + heating (elhsum =1.295E-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 :  1.299E-36 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  0.0000000E+00
 entot depart  1.29890718E-36  1.29890718E-36
 shsum :   0.0000000      1.29890718E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.29890718E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.29890718E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.29890718E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.29890718E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.29890718E-36   0.0000000       0.0000000    
 fin  1.29890718E-36   0.0000000           +Infinity
       +Infinity
       -Infinity       +Infinity
 ezero   0.0000000    
  1.29890718E-36
       +Infinity

Total energy input of :1.302E-28 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 1.299E-36 is absorbed (entot) 
                         through inelastic collisions (shsum =0.000E+00)
                                           + heating (elhsum =1.299E-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 :  1.304E-36 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  0.0000000E+00
 entot depart  1.30386127E-36  1.30386127E-36
 shsum :   0.0000000      1.30386127E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.30386127E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.30386127E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.30386127E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.30386127E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.30386127E-36   0.0000000       0.0000000    
 fin  1.30386127E-36   0.0000000           +Infinity
       +Infinity
       -Infinity       +Infinity
 ezero   0.0000000    
  1.30386127E-36
       +Infinity

Total energy input of :1.302E-28 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 1.304E-36 is absorbed (entot) 
                         through inelastic collisions (shsum =0.000E+00)
                                           + heating (elhsum =1.304E-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 :  1.294E-36 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  0.0000000E+00
 entot depart  1.29403613E-36  1.29403613E-36
 shsum :   0.0000000      1.29403613E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.29403613E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.29403613E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.29403613E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.29403613E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.29403613E-36   0.0000000       0.0000000    
 fin  1.29403613E-36   0.0000000           +Infinity
       +Infinity
       -Infinity       +Infinity
 ezero   0.0000000    
  1.29403613E-36
       +Infinity

Total energy input of :1.302E-28 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 1.294E-36 is absorbed (entot) 
                         through inelastic collisions (shsum =0.000E+00)
                                           + heating (elhsum =1.294E-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 :  1.301E-36 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  0.0000000E+00
 entot depart  1.30073994E-36  1.30073994E-36
 shsum :   0.0000000      1.30073994E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.30073994E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.30073994E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.30073994E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.30073994E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.30073994E-36   0.0000000       0.0000000    
 fin  1.30073994E-36   0.0000000           +Infinity
       +Infinity
       -Infinity       +Infinity
 ezero   0.0000000    
  1.30073994E-36
       +Infinity

Total energy input of :1.302E-28 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 1.301E-36 is absorbed (entot) 
                         through inelastic collisions (shsum =0.000E+00)
                                           + heating (elhsum =1.301E-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 :  1.302E-36 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  0.0000000E+00
 entot depart  1.30241881E-36  1.30241881E-36
 shsum :   0.0000000      1.30241881E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.30241881E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.30241881E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.30241881E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.30241881E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.30241881E-36   0.0000000       0.0000000    
 fin  1.30241881E-36   0.0000000           +Infinity
       +Infinity
       -Infinity       +Infinity
 ezero   0.0000000    
  1.30241881E-36
       +Infinity

Total energy input of :1.302E-28 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 1.302E-36 is absorbed (entot) 
                         through inelastic collisions (shsum =0.000E+00)
                                           + heating (elhsum =1.302E-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 :  1.304E-36 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  0.0000000E+00
 entot depart  1.30386127E-36  1.30386127E-36
 shsum :   0.0000000      1.30386127E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.30386127E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.30386127E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.30386127E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.30386127E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.30386127E-36   0.0000000       0.0000000    
 fin  1.30386127E-36   0.0000000           +Infinity
       +Infinity
       -Infinity       +Infinity
 ezero   0.0000000    
  1.30386127E-36
       +Infinity

Total energy input of :1.302E-28 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 1.304E-36 is absorbed (entot) 
                         through inelastic collisions (shsum =0.000E+00)
                                           + heating (elhsum =1.304E-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 :  1.299E-36 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  0.0000000E+00
 entot depart  1.29850540E-36  1.29850540E-36
 shsum :   0.0000000      1.29850540E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.29850540E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.29850540E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.29850540E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.29850540E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.29850540E-36   0.0000000       0.0000000    
 fin  1.29850540E-36   0.0000000           +Infinity
       +Infinity
       -Infinity       +Infinity
 ezero   0.0000000    
  1.29850540E-36
       +Infinity

Total energy input of :1.302E-28 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 1.299E-36 is absorbed (entot) 
                         through inelastic collisions (shsum =0.000E+00)
                                           + heating (elhsum =1.299E-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 :  1.304E-36 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  0.0000000E+00
 entot depart  1.30414503E-36  1.30414503E-36
 shsum :   0.0000000      1.30414503E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.30414503E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.30414503E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.30414503E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.30414503E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.30414503E-36   0.0000000       0.0000000    
 fin  1.30414503E-36   0.0000000           +Infinity
       +Infinity
       -Infinity       +Infinity
 ezero   0.0000000    
  1.30414503E-36
       +Infinity

Total energy input of :1.302E-28 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 1.304E-36 is absorbed (entot) 
                         through inelastic collisions (shsum =0.000E+00)
                                           + heating (elhsum =1.304E-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 :  1.305E-36 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  0.0000000E+00
 entot depart  1.30544561E-36  1.30544561E-36
 shsum :   0.0000000      1.30544561E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.30544561E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.30544561E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.30544561E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.30544561E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.30544561E-36   0.0000000       0.0000000    
 fin  1.30544561E-36   0.0000000           +Infinity
       +Infinity
       -Infinity       +Infinity
 ezero   0.0000000    
  1.30544561E-36
       +Infinity

Total energy input of :1.302E-28 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 1.305E-36 is absorbed (entot) 
                         through inelastic collisions (shsum =0.000E+00)
                                           + heating (elhsum =1.305E-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 :  1.309E-36 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  0.0000000E+00
 entot depart  1.30883904E-36  1.30883904E-36
 shsum :   0.0000000      1.30883904E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.30883904E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.30883904E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.30883904E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.30883904E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.30883904E-36   0.0000000       0.0000000    
 fin  1.30883904E-36   0.0000000           +Infinity
       +Infinity
       -Infinity       +Infinity
 ezero   0.0000000    
  1.30883904E-36
       +Infinity

Total energy input of :1.302E-28 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 1.309E-36 is absorbed (entot) 
                         through inelastic collisions (shsum =0.000E+00)
                                           + heating (elhsum =1.309E-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 :  1.303E-36 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  0.0000000E+00
 entot depart  1.30310471E-36  1.30310471E-36
 shsum :   0.0000000      1.30310471E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.30310471E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.30310471E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.30310471E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.30310471E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.30310471E-36   0.0000000       0.0000000    
 fin  1.30310471E-36   0.0000000           +Infinity
       +Infinity
       -Infinity       +Infinity
 ezero   0.0000000    
  1.30310471E-36
       +Infinity

Total energy input of :1.302E-28 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 1.303E-36 is absorbed (entot) 
                         through inelastic collisions (shsum =0.000E+00)
                                           + heating (elhsum =1.303E-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 :  1.306E-36 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  0.0000000E+00
 entot depart  1.30574121E-36  1.30574121E-36
 shsum :   0.0000000      1.30574121E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.30574121E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.30574121E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.30574121E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.30574121E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.30574121E-36   0.0000000       0.0000000    
 fin  1.30574121E-36   0.0000000           +Infinity
       +Infinity
       -Infinity       +Infinity
 ezero   0.0000000    
  1.30574121E-36
       +Infinity

Total energy input of :1.302E-28 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 1.306E-36 is absorbed (entot) 
                         through inelastic collisions (shsum =0.000E+00)
                                           + heating (elhsum =1.306E-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 :  1.309E-36 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  0.0000000E+00
 entot depart  1.30904002E-36  1.30904002E-36
 shsum :   0.0000000      1.30904002E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.30904002E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.30904002E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.30904002E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.30904002E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.30904002E-36   0.0000000       0.0000000    
 fin  1.30904002E-36   0.0000000           +Infinity
       +Infinity
       -Infinity       +Infinity
 ezero   0.0000000    
  1.30904002E-36
       +Infinity

Total energy input of :1.302E-28 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 1.309E-36 is absorbed (entot) 
                         through inelastic collisions (shsum =0.000E+00)
                                           + heating (elhsum =1.309E-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 :  1.312E-36 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  0.0000000E+00
 entot depart  1.31162935E-36  1.31162935E-36
 shsum :   0.0000000      1.31162935E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.31162935E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.31162935E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.31162935E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.31162935E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.31162935E-36   0.0000000       0.0000000    
 fin  1.31162935E-36   0.0000000           +Infinity
       +Infinity
       -Infinity       +Infinity
 ezero   0.0000000    
  1.31162935E-36
       +Infinity

Total energy input of :1.302E-28 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 1.312E-36 is absorbed (entot) 
                         through inelastic collisions (shsum =0.000E+00)
                                           + heating (elhsum =1.312E-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 :  1.308E-36 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  0.0000000E+00
 entot depart  1.30828328E-36  1.30828328E-36
 shsum :   0.0000000      1.30828328E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.30828328E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.30828328E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.30828328E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.30828328E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.30828328E-36   0.0000000       0.0000000    
 fin  1.30828328E-36   0.0000000           +Infinity
       +Infinity
       -Infinity       +Infinity
 ezero   0.0000000    
  1.30828328E-36
       +Infinity

Total energy input of :1.302E-28 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 1.308E-36 is absorbed (entot) 
                         through inelastic collisions (shsum =0.000E+00)
                                           + heating (elhsum =1.308E-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 :  1.313E-36 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  0.0000000E+00
 entot depart  1.31331997E-36  1.31331997E-36
 shsum :   0.0000000      1.31331997E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.31331997E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.31331997E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.31331997E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.31331997E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.31331997E-36   0.0000000       0.0000000    
 fin  1.31331997E-36   0.0000000           +Infinity
       +Infinity
       -Infinity       +Infinity
 ezero   0.0000000    
  1.31331997E-36
       +Infinity

Total energy input of :1.302E-28 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 1.313E-36 is absorbed (entot) 
                         through inelastic collisions (shsum =0.000E+00)
                                           + heating (elhsum =1.313E-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 :  1.313E-36 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  0.0000000E+00
 entot depart  1.31311908E-36  1.31311908E-36
 shsum :   0.0000000      1.31311908E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.31311908E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.31311908E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.31311908E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.31311908E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.31311908E-36   0.0000000       0.0000000    
 fin  1.31311908E-36   0.0000000           +Infinity
       +Infinity
       -Infinity       +Infinity
 ezero   0.0000000    
  1.31311908E-36
       +Infinity

Total energy input of :1.302E-28 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 1.313E-36 is absorbed (entot) 
                         through inelastic collisions (shsum =0.000E+00)
                                           + heating (elhsum =1.313E-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 :  1.318E-36 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  0.0000000E+00
 entot depart  1.31812053E-36  1.31812053E-36
 shsum :   0.0000000      1.31812053E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.31812053E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.31812053E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.31812053E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.31812053E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.31812053E-36   0.0000000       0.0000000    
 fin  1.31812053E-36   0.0000000           +Infinity
       +Infinity
       -Infinity       +Infinity
 ezero   0.0000000    
  1.31812053E-36
       +Infinity

Total energy input of :1.302E-28 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 1.318E-36 is absorbed (entot) 
                         through inelastic collisions (shsum =0.000E+00)
                                           + heating (elhsum =1.318E-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 :  1.313E-36 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  0.0000000E+00
 entot depart  1.31268152E-36  1.31268152E-36
 shsum :   0.0000000      1.31268152E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.31268152E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.31268152E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.31268152E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.31268152E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.31268152E-36   0.0000000       0.0000000    
 fin  1.31268152E-36   0.0000000           +Infinity
       +Infinity
       -Infinity       +Infinity
 ezero   0.0000000    
  1.31268152E-36
       +Infinity

Total energy input of :1.302E-28 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 1.313E-36 is absorbed (entot) 
                         through inelastic collisions (shsum =0.000E+00)
                                           + heating (elhsum =1.313E-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 :  1.316E-36 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  0.0000000E+00
 entot depart  1.31621673E-36  1.31621673E-36
 shsum :   0.0000000      1.31621673E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.31621673E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.31621673E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.31621673E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.31621673E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.31621673E-36   0.0000000       0.0000000    
 fin  1.31621673E-36   0.0000000           +Infinity
       +Infinity
       -Infinity       +Infinity
 ezero   0.0000000    
  1.31621673E-36
       +Infinity

Total energy input of :1.302E-28 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 1.316E-36 is absorbed (entot) 
                         through inelastic collisions (shsum =0.000E+00)
                                           + heating (elhsum =1.316E-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 :  1.321E-36 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  0.0000000E+00
 entot depart  1.32070977E-36  1.32070977E-36
 shsum :   0.0000000      1.32070977E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.32070977E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.32070977E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.32070977E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.32070977E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.32070977E-36   0.0000000       0.0000000    
 fin  1.32070977E-36   0.0000000           +Infinity
       +Infinity
       -Infinity       +Infinity
 ezero   0.0000000    
  1.32070977E-36
       +Infinity

Total energy input of :1.302E-28 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 1.321E-36 is absorbed (entot) 
                         through inelastic collisions (shsum =0.000E+00)
                                           + heating (elhsum =1.321E-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 :  1.320E-36 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  0.0000000E+00
 entot depart  1.32029597E-36  1.32029597E-36
 shsum :   0.0000000      1.32029597E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.32029597E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.32029597E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.32029597E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.32029597E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.32029597E-36   0.0000000       0.0000000    
 fin  1.32029597E-36   0.0000000           +Infinity
       +Infinity
       -Infinity       +Infinity
 ezero   0.0000000    
  1.32029597E-36
       +Infinity

Total energy input of :1.302E-28 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 1.320E-36 is absorbed (entot) 
                         through inelastic collisions (shsum =0.000E+00)
                                           + heating (elhsum =1.320E-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 :  1.318E-36 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  0.0000000E+00
 entot depart  1.31776574E-36  1.31776574E-36
 shsum :   0.0000000      1.31776574E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.31776574E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.31776574E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.31776574E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.31776574E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.31776574E-36   0.0000000       0.0000000    
 fin  1.31776574E-36   0.0000000           +Infinity
       +Infinity
       -Infinity       +Infinity
 ezero   0.0000000    
  1.31776574E-36
       +Infinity

Total energy input of :1.302E-28 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 1.318E-36 is absorbed (entot) 
                         through inelastic collisions (shsum =0.000E+00)
                                           + heating (elhsum =1.318E-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 :  1.321E-36 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  0.0000000E+00
 entot depart  1.32091057E-36  1.32091057E-36
 shsum :   0.0000000      1.32091057E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.32091057E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.32091057E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.32091057E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.32091057E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.32091057E-36   0.0000000       0.0000000    
 fin  1.32091057E-36   0.0000000           +Infinity
       +Infinity
       -Infinity       +Infinity
 ezero   0.0000000    
  1.32091057E-36
       +Infinity

Total energy input of :1.302E-28 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 1.321E-36 is absorbed (entot) 
                         through inelastic collisions (shsum =0.000E+00)
                                           + heating (elhsum =1.321E-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 :  1.324E-36 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  0.0000000E+00
 entot depart  1.32425673E-36  1.32425673E-36
 shsum :   0.0000000      1.32425673E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.32425673E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.32425673E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.32425673E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.32425673E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.32425673E-36   0.0000000       0.0000000    
 fin  1.32425673E-36   0.0000000           +Infinity
       +Infinity
       -Infinity       +Infinity
 ezero   0.0000000    
  1.32425673E-36
       +Infinity

Total energy input of :1.302E-28 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 1.324E-36 is absorbed (entot) 
                         through inelastic collisions (shsum =0.000E+00)
                                           + heating (elhsum =1.324E-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 :  1.323E-36 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  0.0000000E+00
 entot depart  1.32309803E-36  1.32309803E-36
 shsum :   0.0000000      1.32309803E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.32309803E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.32309803E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.32309803E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.32309803E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.32309803E-36   0.0000000       0.0000000    
 fin  1.32309803E-36   0.0000000           +Infinity
       +Infinity
       -Infinity       +Infinity
 ezero   0.0000000    
  1.32309803E-36
       +Infinity

Total energy input of :1.302E-28 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 1.323E-36 is absorbed (entot) 
                         through inelastic collisions (shsum =0.000E+00)
                                           + heating (elhsum =1.323E-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 :  1.321E-36 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  0.0000000E+00
 entot depart  1.32057964E-36  1.32057964E-36
 shsum :   0.0000000      1.32057964E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.32057964E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.32057964E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.32057964E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.32057964E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.32057964E-36   0.0000000       0.0000000    
 fin  1.32057964E-36   0.0000000           +Infinity
       +Infinity
       -Infinity       +Infinity
 ezero   0.0000000    
  1.32057964E-36
       +Infinity

Total energy input of :1.302E-28 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 1.321E-36 is absorbed (entot) 
                         through inelastic collisions (shsum =0.000E+00)
                                           + heating (elhsum =1.321E-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 :  1.325E-36 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  0.0000000E+00
 entot depart  1.32517895E-36  1.32517895E-36
 shsum :   0.0000000      1.32517895E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.32517895E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.32517895E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.32517895E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.32517895E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.32517895E-36   0.0000000       0.0000000    
 fin  1.32517895E-36   0.0000000           +Infinity
       +Infinity
       -Infinity       +Infinity
 ezero   0.0000000    
  1.32517895E-36
       +Infinity

Total energy input of :1.302E-28 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 1.325E-36 is absorbed (entot) 
                         through inelastic collisions (shsum =0.000E+00)
                                           + heating (elhsum =1.325E-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 :  1.326E-36 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  0.0000000E+00
 entot depart  1.32638491E-36  1.32638491E-36
 shsum :   0.0000000      1.32638491E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.32638491E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.32638491E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.32638491E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.32638491E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.32638491E-36   0.0000000       0.0000000    
 fin  1.32638491E-36   0.0000000           +Infinity
       +Infinity
       -Infinity       +Infinity
 ezero   0.0000000    
  1.32638491E-36
       +Infinity

Total energy input of :1.302E-28 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 1.326E-36 is absorbed (entot) 
                         through inelastic collisions (shsum =0.000E+00)
                                           + heating (elhsum =1.326E-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 : 1.0280E+06 [eV/cm2/s]
                                                             or : 1.6471E-06 [erg/cm2/s]
 That variable "errorgaupin" is:          102

 MAIN : Total energy deposition in [CO2] is 2.372E+05 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 5.437E+04 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 1.749E+04 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 8.618E+04 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 1.519E-03 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 2.808E-04 [eV.cm-2.s-1] ("shsum").
   2777.6353               2          21
   2926.4150               2          23

 Total Heating :  8.965E-01 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  3.4308414E-08
 entot depart  0.89645493      0.89645493    
 shsum :   12393.938       237168.17       237167.28       237167.28    
 shsum :   13693.203       291540.78       54372.617       291539.91    
 shsum :   14078.057       309028.19       17487.400       309027.31    
 shsum :   17544.736       395204.16       86175.969       395203.28    
 shsum :   17544.736       395204.16      1.51920877E-03   395203.28    
 shsum :   17544.736       395204.16      2.80770590E-04   395203.28    
 fin   395204.16       17544.736       58.595787    
   22.525511    
 -3.77225551E+19   58.595787    
 ezero   0.0000000    
   395204.16    
  6.43775889E+19

Total energy input of :1.028E+06 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 3.952E+05 is absorbed (entot) 
                         through inelastic collisions (shsum =3.952E+05)
                                           + heating (elhsum =8.965E-01)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  58.60 eV (from qtoteV)
                                  or :  22.53 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 :  1.325E-36 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  0.0000000E+00
 entot depart  1.32478891E-36  1.32478891E-36
 shsum :   0.0000000      1.32478891E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.32478891E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.32478891E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.32478891E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.32478891E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.32478891E-36   0.0000000       0.0000000    
 fin  1.32478891E-36   0.0000000           +Infinity
       +Infinity
       -Infinity       +Infinity
 ezero   0.0000000    
  1.32478891E-36
       +Infinity

Total energy input of :1.302E-28 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 1.325E-36 is absorbed (entot) 
                         through inelastic collisions (shsum =0.000E+00)
                                           + heating (elhsum =1.325E-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 :  1.328E-36 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  0.0000000E+00
 entot depart  1.32809939E-36  1.32809939E-36
 shsum :   0.0000000      1.32809939E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.32809939E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.32809939E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.32809939E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.32809939E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.32809939E-36   0.0000000       0.0000000    
 fin  1.32809939E-36   0.0000000           +Infinity
       +Infinity
       -Infinity       +Infinity
 ezero   0.0000000    
  1.32809939E-36
       +Infinity

Total energy input of :1.302E-28 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 1.328E-36 is absorbed (entot) 
                         through inelastic collisions (shsum =0.000E+00)
                                           + heating (elhsum =1.328E-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 : 3.3795E+05 [eV/cm2/s]
                                                             or : 5.4146E-07 [erg/cm2/s]
 That variable "errorgaupin" is:           93

 MAIN : Total energy deposition in [CO2] is 8.035E+04 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 1.773E+04 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 5.688E+03 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 2.725E+04 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 4.845E-04 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 9.097E-05 [eV.cm-2.s-1] ("shsum").
   888.69250               2          21
   936.61560               2          23

 Total Heating :  2.910E-01 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  1.1251796E-08
 entot depart  0.29104692      0.29104692    
 shsum :   3950.5935       80347.086       80346.797       80346.797    
 shsum :   4376.7012       98076.680       17729.596       98076.391    
 shsum :   4502.3760       103765.08       5688.4019       103764.79    
 shsum :   5601.4927       131019.88       27254.795       131019.59    
 shsum :   5601.4927       131019.88      4.84539953E-04   131019.59    
 shsum :   5601.4927       131019.88      9.09727096E-05   131019.59    
 fin   131019.88       5601.4927       60.332123    
   23.390171    
 -1.18152842E+20   60.332123    
 ezero   0.0000000    
   131019.88    
  1.95837376E+20

Total energy input of :3.379E+05 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 1.310E+05 is absorbed (entot) 
                         through inelastic collisions (shsum =1.310E+05)
                                           + heating (elhsum =2.910E-01)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  60.33 eV (from qtoteV)
                                  or :  23.39 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 : 2.8658E+07 [eV/cm2/s]
                                                             or : 4.5915E-05 [erg/cm2/s]
 That variable "errorgaupin" is:          110

 MAIN : Total energy deposition in [CO2] is 4.804E+06 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 1.511E+06 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 5.252E+05 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 3.155E+06 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 5.276E-02 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 7.201E-03 [eV.cm-2.s-1] ("shsum").
   106116.56               2          21
   110988.90               2          23

 Total Heating :  3.050E+01 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  8.2058250E-07
 entot depart   30.496212       30.496212    
 shsum :   637089.25       4803708.0       4803677.5       4803677.5    
 shsum :   668164.88       6314217.5       1510509.5       6314187.0    
 shsum :   678033.56       6839452.5       525235.13       6839422.0    
 shsum :   795982.81       9994591.0       3155138.3       9994560.0    
 shsum :   795982.81       9994591.0      5.27563766E-02   9994560.0    
 shsum :   795982.81       9994591.0      7.20132468E-03   9994560.0    
 fin   9994591.0       795982.81       36.002991    
   12.556290    
 -8.31465536E+17   36.002991    
 ezero   0.0000000    
   9994591.0    
  2.30943456E+18

Total energy input of :2.866E+07 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 9.995E+06 is absorbed (entot) 
                         through inelastic collisions (shsum =9.995E+06)
                                           + heating (elhsum =3.050E+01)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  36.00 eV (from qtoteV)
                                  or :  12.56 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 :  1.327E-36 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  0.0000000E+00
 entot depart  1.32689342E-36  1.32689342E-36
 shsum :   0.0000000      1.32689342E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.32689342E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.32689342E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.32689342E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.32689342E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.32689342E-36   0.0000000       0.0000000    
 fin  1.32689342E-36   0.0000000           +Infinity
       +Infinity
       -Infinity       +Infinity
 ezero   0.0000000    
  1.32689342E-36
       +Infinity

Total energy input of :1.302E-28 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 1.327E-36 is absorbed (entot) 
                         through inelastic collisions (shsum =0.000E+00)
                                           + heating (elhsum =1.327E-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 : 9.5419E+05 [eV/cm2/s]
                                                             or : 1.5288E-06 [erg/cm2/s]
 That variable "errorgaupin" is:           83

 MAIN : Total energy deposition in [CO2] is 2.238E+05 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 4.971E+04 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 1.596E+04 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 7.722E+04 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 1.408E-03 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 2.606E-04 [eV.cm-2.s-1] ("shsum").
   2521.1152               2          21
   2655.7627               2          23

 Total Heating :  8.184E-01 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  3.1376953E-08
 entot depart  0.81837547      0.81837547    
 shsum :   11545.690       223808.53       223807.72       223807.72    
 shsum :   12733.941       273515.41       49706.875       273514.59    
 shsum :   13085.541       289479.44       15964.029       289478.63    
 shsum :   16194.756       366700.28       77220.852       366699.47    
 shsum :   16194.756       366700.28      1.40756345E-03   366699.47    
 shsum :   16194.756       366700.28      2.60565517E-04   366699.47    
 fin   366700.28       16194.756       58.919979    
   22.643150    
 -4.08670748E+19   58.919979    
 ezero   0.0000000    
   366700.28    
  6.93602985E+19

Total energy input of :9.542E+05 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 3.667E+05 is absorbed (entot) 
                         through inelastic collisions (shsum =3.667E+05)
                                           + heating (elhsum =8.184E-01)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  58.92 eV (from qtoteV)
                                  or :  22.64 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 : 2.7981E+07 [eV/cm2/s]
                                                             or : 4.4832E-05 [erg/cm2/s]
 That variable "errorgaupin" is:           88

 MAIN : Total energy deposition in [CO2] is 4.737E+06 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 1.467E+06 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 5.095E+05 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 3.040E+06 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 5.157E-02 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 7.053E-03 [eV.cm-2.s-1] ("shsum").
   102491.88               2          21
   107186.53               2          23

 Total Heating :  2.953E+01 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  7.9756643E-07
 entot depart   29.531296       29.531296    
 shsum :   620750.06       4736997.5       4736968.0       4736968.0    
 shsum :   650954.06       6203732.0       1466734.8       6203703.0    
 shsum :   660541.13       6713188.5       509456.50       6713159.5    
 shsum :   774285.25       9753376.0       3040187.0       9753346.0    
 shsum :   774285.25       9753376.0      5.15668243E-02   9753346.0    
 shsum :   774285.25       9753376.0      7.05295522E-03   9753346.0    
 fin   9753376.0       774285.25       36.138130    
   12.596619    
 -8.54765425E+17   36.138130    
 ezero   0.0000000    
   9753376.0    
  2.36527299E+18

Total energy input of :2.798E+07 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 9.753E+06 is absorbed (entot) 
                         through inelastic collisions (shsum =9.753E+06)
                                           + heating (elhsum =2.953E+01)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  36.14 eV (from qtoteV)
                                  or :  12.60 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 : 2.5425E+08 [eV/cm2/s]
                                                             or : 4.0736E-04 [erg/cm2/s]
 That variable "errorgaupin" is:           72

 MAIN : Total energy deposition in [CO2] is 3.410E+07 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 1.369E+07 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 5.205E+06 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 3.289E+07 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 4.833E-01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 4.892E-02 [eV.cm-2.s-1] ("shsum").
   1467330.1               2          21
   1524723.4               2          23

 Total Heating :  3.707E+02 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  6.2238478E-06
 entot depart   370.67963       370.67963    
 shsum :   9100542.0       34102616.       34102244.       34102244.    
 shsum :   9336240.0       47791696.       13689078.       47791320.    
 shsum :   9415726.0       52996564.       5204868.0       52996188.    
 shsum :   10546547.       85883312.       32886750.       85882936.    
 shsum :   10546547.       85883312.      0.48330027       85882936.    
 shsum :   10546547.       85883312.      4.89223152E-02   85882936.    
 fin   85883312.       10546547.       24.107576    
   8.1432638    
 -6.27534579E+16   24.107576    
 ezero   0.0000000    
   85883312.    
  2.60305976E+17

Total energy input of :2.543E+08 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 8.588E+07 is absorbed (entot) 
                         through inelastic collisions (shsum =8.588E+07)
                                           + heating (elhsum =3.707E+02)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  24.11 eV (from qtoteV)
                                  or :   8.14 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 : 9.5412E+06 [eV/cm2/s]
                                                             or : 1.5287E-05 [erg/cm2/s]
 That variable "errorgaupin" is:           88

 MAIN : Total energy deposition in [CO2] is 1.919E+06 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 4.970E+05 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 1.650E+05 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 8.930E+05 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 1.647E-02 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 2.615E-03 [eV.cm-2.s-1] ("shsum").
   29166.600               2          21
   30606.832               2          23

 Total Heating :  8.829E+00 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  2.9292394E-07
 entot depart   8.8288260       8.8288260    
 shsum :   159509.25       1918627.1       1918618.3       1918618.3    
 shsum :   170602.33       2415669.3       497042.03       2415660.3    
 shsum :   174004.13       2580699.0       165029.72       2580690.0    
 shsum :   208795.47       3473651.0       892951.88       3473642.0    
 shsum :   208795.47       3473651.0      1.64668709E-02   3473642.0    
 shsum :   208795.47       3473651.0      2.61508254E-03   3473642.0    
 fin   3473651.0       208795.47       45.696270    
   16.636621    
 -3.16976365E+18   45.696270    
 ezero   0.0000000    
   3473651.0    
  6.93659181E+18

Total energy input of :9.541E+06 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 3.474E+06 is absorbed (entot) 
                         through inelastic collisions (shsum =3.474E+06)
                                           + heating (elhsum =8.829E+00)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  45.70 eV (from qtoteV)
                                  or :  16.64 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 : 7.9512E+07 [eV/cm2/s]
                                                             or : 1.2739E-04 [erg/cm2/s]
 That variable "errorgaupin" is:           78

 MAIN : Total energy deposition in [CO2] is 1.190E+07 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 4.139E+06 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 1.504E+06 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 9.214E+06 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 1.504E-01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 1.763E-02 [eV.cm-2.s-1] ("shsum").
   352510.97               2          21
   367431.56               2          23

 Total Heating :  9.604E+01 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  2.0565840E-06
 entot depart   96.039734       96.039734    
 shsum :   2292967.5       11896421.       11896325.       11896325.    
 shsum :   2370850.8       16035665.       4139244.0       16035569.    
 shsum :   2396378.8       17539716.       1504050.3       17539620.    
 shsum :   2726660.0       26753744.       9214027.0       26753648.    
 shsum :   2726660.0       26753744.      0.15037839       26753648.    
 shsum :   2726660.0       26753744.      1.76322740E-02   26753648.    
 fin   26753744.       2726660.0       29.160826    
   9.8119106    
 -2.42726366E+17   29.160826    
 ezero   0.0000000    
   26753744.    
  8.32371396E+17

Total energy input of :7.951E+07 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 2.675E+07 is absorbed (entot) 
                         through inelastic collisions (shsum =2.675E+07)
                                           + heating (elhsum =9.604E+01)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  29.16 eV (from qtoteV)
                                  or :   9.81 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 : 3.4122E+08 [eV/cm2/s]
                                                             or : 5.4670E-04 [erg/cm2/s]
 That variable "errorgaupin" is:           77

 MAIN : Total energy deposition in [CO2] is 4.614E+07 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 1.859E+07 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 7.126E+06 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 4.459E+07 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 6.493E-01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 6.368E-02 [eV.cm-2.s-1] ("shsum").
   2092307.0               2          21
   2171509.3               2          23

 Total Heating :  5.186E+02 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  8.3009745E-06
 entot depart   518.64758       518.64758    
 shsum :   12754388.       46139520.       46139000.       46139000.    
 shsum :   13068747.       64730888.       18591368.       64730368.    
 shsum :   13175299.       71856616.       7125726.0       71856096.    
 shsum :   14694992.      1.16441632E+08   44585012.      1.16441104E+08
 shsum :   14694992.      1.16441632E+08  0.64931440      1.16441104E+08
 shsum :   14694992.      1.16441632E+08  6.36844784E-02  1.16441104E+08
 fin  1.16441632E+08   14694992.       23.220007    
   7.9238992    
 -4.50379462E+16   23.220007    
 ezero   0.0000000    
  1.16441632E+08
  1.93961805E+17

Total energy input of :3.412E+08 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 1.164E+08 is absorbed (entot) 
                         through inelastic collisions (shsum =1.164E+08)
                                           + heating (elhsum =5.186E+02)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  23.22 eV (from qtoteV)
                                  or :   7.92 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 : 9.3137E+08 [eV/cm2/s]
                                                             or : 1.4922E-03 [erg/cm2/s]
 That variable "errorgaupin" is:           81

 MAIN : Total energy deposition in [CO2] is 1.360E+08 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 5.650E+07 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 2.212E+07 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 1.346E+08 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 1.744E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 1.571E-01 [eV.cm-2.s-1] ("shsum").
   7218029.0               2          21
   7469438.5               2          23

 Total Heating :  1.687E+03 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  2.4174768E-05
 entot depart   1687.3375       1687.3375    
 shsum :   38326416.      1.36008608E+08  1.36006928E+08  1.36006928E+08
 shsum :   39241920.      1.92511424E+08   56502820.      1.92509744E+08
 shsum :   39555376.      2.14629216E+08   22117786.      2.14627536E+08
 shsum :   44024952.      3.49263680E+08  1.34634448E+08  3.49261984E+08
 shsum :   44024952.      3.49263680E+08   1.7444197      3.49261984E+08
 shsum :   44024952.      3.49263680E+08  0.15714830      3.49261984E+08
 fin  3.49263680E+08   44024952.       21.155472    
   7.9333119    
 -1.50331178E+16   21.155472    
 ezero   0.0000000    
  3.49263680E+08
  7.10601867E+16

Total energy input of :9.314E+08 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 3.493E+08 is absorbed (entot) 
                         through inelastic collisions (shsum =3.493E+08)
                                           + heating (elhsum =1.687E+03)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  21.16 eV (from qtoteV)
                                  or :   7.93 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 : 3.3811E+08 [eV/cm2/s]
                                                             or : 5.4171E-04 [erg/cm2/s]
 That variable "errorgaupin" is:           92

 MAIN : Total energy deposition in [CO2] is 4.745E+07 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 1.835E+07 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 7.002E+06 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 4.241E+07 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 6.423E-01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 6.319E-02 [eV.cm-2.s-1] ("shsum").
   2042632.4               2          21
   2119069.8               2          23

 Total Heating :  5.044E+02 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  8.2182178E-06
 entot depart   504.39905       504.39905    
 shsum :   12613847.       47453592.       47453088.       47453088.    
 shsum :   12925072.       65800440.       18346848.       65799936.    
 shsum :   13030371.       72802904.       7002463.0       72802400.    
 shsum :   14477246.      1.15209432E+08   42406528.      1.15208928E+08
 shsum :   14477246.      1.15209432E+08  0.64227772      1.15208928E+08
 shsum :   14477246.      1.15209432E+08  6.31865561E-02  1.15208928E+08
 fin  1.15209432E+08   14477246.       23.354366    
   7.9579659    
 -4.57153441E+16   23.354366    
 ezero   0.0000000    
  1.15209432E+08
  1.95746450E+17

Total energy input of :3.381E+08 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 1.152E+08 is absorbed (entot) 
                         through inelastic collisions (shsum =1.152E+08)
                                           + heating (elhsum =5.044E+02)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  23.35 eV (from qtoteV)
                                  or :   7.96 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 : 7.1726E+08 [eV/cm2/s]
                                                             or : 1.1492E-03 [erg/cm2/s]
 That variable "errorgaupin" is:           90

 MAIN : Total energy deposition in [CO2] is 1.037E+08 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 4.175E+07 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 1.624E+07 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 9.798E+07 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 1.353E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 1.244E-01 [eV.cm-2.s-1] ("shsum").
   5178713.0               2          21
   5357802.0               2          23

 Total Heating :  1.223E+03 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  1.8039618E-05
 entot depart   1223.3486       1223.3486    
 shsum :   28985416.      1.03717472E+08  1.03716248E+08  1.03716248E+08
 shsum :   29668580.      1.45470464E+08   41753000.      1.45469248E+08
 shsum :   29901942.      1.61706624E+08   16236152.      1.61705408E+08
 shsum :   33177608.      2.59691392E+08   97984768.      2.59690176E+08
 shsum :   33177608.      2.59691392E+08   1.3533800      2.59690176E+08
 shsum :   33177608.      2.59691392E+08  0.12440629      2.59690176E+08
 fin  2.59691392E+08   33177608.       21.618736    
   7.8273091    
 -1.99481624E+16   21.618736    
 ezero   0.0000000    
  2.59691392E+08
  9.22725534E+16

Total energy input of :7.173E+08 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 2.597E+08 is absorbed (entot) 
                         through inelastic collisions (shsum =2.597E+08)
                                           + heating (elhsum =1.223E+03)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  21.62 eV (from qtoteV)
                                  or :   7.83 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 : 1.3575E+09 [eV/cm2/s]
                                                             or : 2.1749E-03 [erg/cm2/s]
 That variable "errorgaupin" is:           81

 MAIN : Total energy deposition in [CO2] is 2.175E+08 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 8.737E+07 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 3.436E+07 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 2.014E+08 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 2.501E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 2.194E-01 [eV.cm-2.s-1] ("shsum").
   11456852.               2          21
   11867052.               2          23

 Total Heating :  2.631E+03 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  3.6957375E-05
 entot depart   2630.9927       2630.9927    
 shsum :   57104932.      2.17464256E+08  2.17461632E+08  2.17461632E+08
 shsum :   58504516.      3.04836192E+08   87371928.      3.04833568E+08
 shsum :   58984292.      3.39195200E+08   34359004.      3.39192576E+08
 shsum :   65605784.      5.40616960E+08  2.01421760E+08  5.40614336E+08
 shsum :   65605784.      5.40616960E+08   2.5013890      5.40614336E+08
 shsum :   65605784.      5.40616960E+08  0.21939223      5.40614336E+08
 fin  5.40616960E+08   65605784.       20.691048    
   8.2403860    
 -1.00880170E+16   20.691048    
 ezero   0.0000000    
  5.40616960E+08
  4.87554680E+16

Total energy input of :1.357E+09 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 5.406E+08 is absorbed (entot) 
                         through inelastic collisions (shsum =5.406E+08)
                                           + heating (elhsum =2.631E+03)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  20.69 eV (from qtoteV)
                                  or :   8.24 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 : 2.4010E+09 [eV/cm2/s]
                                                             or : 3.8468E-03 [erg/cm2/s]
 That variable "errorgaupin" is:           89

 MAIN : Total energy deposition in [CO2] is 4.539E+08 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 1.750E+08 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 6.953E+07 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 3.827E+08 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 4.209E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 3.541E-01 [eV.cm-2.s-1] ("shsum").
   23130158.               2          21
   24112718.               2          23

 Total Heating :  5.309E+03 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  7.2536357E-05
 entot depart   5308.7300       5308.7300    
 shsum :  1.03180504E+08  4.53883072E+08  4.53877760E+08  4.53877760E+08
 shsum :  1.05927472E+08  6.28844032E+08  1.74960960E+08  6.28838720E+08
 shsum :  1.06870344E+08  6.98372736E+08   69528688.      6.98367424E+08
 shsum :  1.19216600E+08  1.08107558E+09  3.82702848E+08  1.08107034E+09
 shsum :  1.19216600E+08  1.08107558E+09   4.2094159      1.08107034E+09
 shsum :  1.19216600E+08  1.08107558E+09  0.35409307      1.08107034E+09
 fin  1.08107558E+09  1.19216600E+08   20.139395    
   9.0681629    
 -5.55151098E+15   20.139395    
 ezero   0.0000000    
  1.08107558E+09
  2.75654308E+16

Total energy input of :2.401E+09 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 1.081E+09 is absorbed (entot) 
                         through inelastic collisions (shsum =1.081E+09)
                                           + heating (elhsum =5.309E+03)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  20.14 eV (from qtoteV)
                                  or :   9.07 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 : 1.8223E+09 [eV/cm2/s]
                                                             or : 2.9197E-03 [erg/cm2/s]
 That variable "errorgaupin" is:           92

 MAIN : Total energy deposition in [CO2] is 3.299E+08 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 1.239E+08 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 4.876E+07 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 2.671E+08 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 3.276E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 2.818E-01 [eV.cm-2.s-1] ("shsum").
   16316050.               2          21
   16933404.               2          23

 Total Heating :  3.693E+03 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  5.1989242E-05
 entot depart   3692.7104       3692.7104    
 shsum :   77595944.      3.29855584E+08  3.29851904E+08  3.29851904E+08
 shsum :   79564784.      4.53729824E+08  1.23874240E+08  4.53726144E+08
 shsum :   80239104.      5.02485600E+08   48755776.      5.02481920E+08
 shsum :   88943336.      7.69544000E+08  2.67058384E+08  7.69540288E+08
 shsum :   88943336.      7.69544000E+08   3.2755251      7.69540288E+08
 shsum :   88943336.      7.69544000E+08  0.28175181      7.69540288E+08
 fin  7.69544000E+08   88943336.       20.488520    
   8.6520700    
 -7.44105554E+15   20.488520    
 ezero   0.0000000    
  7.69544000E+08
  3.63181704E+16

Total energy input of :1.822E+09 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 7.695E+08 is absorbed (entot) 
                         through inelastic collisions (shsum =7.695E+08)
                                           + heating (elhsum =3.693E+03)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  20.49 eV (from qtoteV)
                                  or :   8.65 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 : 2.6148E+09 [eV/cm2/s]
                                                             or : 4.1895E-03 [erg/cm2/s]
 That variable "errorgaupin" is:           88

 MAIN : Total energy deposition in [CO2] is 5.253E+08 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 1.930E+08 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 7.668E+07 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 4.061E+08 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 4.530E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 3.785E-01 [eV.cm-2.s-1] ("shsum").
   25413118.               2          21
   26508530.               2          23

 Total Heating :  5.815E+03 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  7.9699537E-05
 entot depart   5814.8804       5814.8804    
 shsum :  1.12785176E+08  5.25349056E+08  5.25343232E+08  5.25343232E+08
 shsum :  1.15803408E+08  7.18343232E+08  1.92994176E+08  7.18337408E+08
 shsum :  1.16838952E+08  7.95019904E+08   76676640.      7.95014016E+08
 shsum :  1.29898336E+08  1.20113638E+09  4.06116416E+08  1.20113050E+09
 shsum :  1.29898336E+08  1.20113638E+09   4.5295558      1.20113050E+09
 shsum :  1.29898336E+08  1.20113638E+09  0.37849128      1.20113050E+09
 fin  1.20113638E+09  1.29898336E+08   20.129698    
   9.2467422    
 -5.09500213E+15   20.129698    
 ezero   0.0000000    
  1.20113638E+09
  2.53108715E+16

Total energy input of :2.615E+09 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 1.201E+09 is absorbed (entot) 
                         through inelastic collisions (shsum =1.201E+09)
                                           + heating (elhsum =5.815E+03)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  20.13 eV (from qtoteV)
                                  or :   9.25 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 : 3.7337E+09 [eV/cm2/s]
                                                             or : 5.9822E-03 [erg/cm2/s]
 That variable "errorgaupin" is:           75

 MAIN : Total energy deposition in [CO2] is 8.512E+08 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 3.014E+08 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 1.212E+08 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 6.089E+08 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 6.122E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 4.952E-01 [eV.cm-2.s-1] ("shsum").
   39015164.               2          21
   40886704.               2          23

 Total Heating :  9.149E+03 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  1.2186877E-04
 entot depart   9149.4023       9149.4023    
 shsum :  1.62757248E+08  8.51195840E+08  8.51186688E+08  8.51186688E+08
 shsum :  1.67372448E+08  1.15263693E+09  3.01441088E+08  1.15262771E+09
 shsum :  1.68958896E+08  1.27380646E+09  1.21169512E+08  1.27379725E+09
 shsum :  1.88213424E+08  1.88270195E+09  6.08895488E+08  1.88269274E+09
 shsum :  1.88213424E+08  1.88270195E+09   6.1218333      1.88269274E+09
 shsum :  1.88213424E+08  1.88270195E+09  0.49520546      1.88269274E+09
 fin  1.88270195E+09  1.88213424E+08   19.837645    
   10.003016    
 -3.51639254E+15   19.837645    
 ezero   0.0000000    
  1.88270195E+09
  1.77258583E+16

Total energy input of :3.734E+09 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 1.883E+09 is absorbed (entot) 
                         through inelastic collisions (shsum =1.883E+09)
                                           + heating (elhsum =9.149E+03)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  19.84 eV (from qtoteV)
                                  or :  10.00 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 : 5.2933E+09 [eV/cm2/s]
                                                             or : 8.4810E-03 [erg/cm2/s]
 That variable "errorgaupin" is:           71

 MAIN : Total energy deposition in [CO2] is 1.388E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 4.677E+08 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 1.908E+08 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 8.912E+08 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 8.052E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 6.275E-01 [eV.cm-2.s-1] ("shsum").
   58760036.               2          21
   61796248.               2          23

 Total Heating :  1.427E+04 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  1.8382995E-04
 entot depart   14270.057       14270.057    
 shsum :  2.33097600E+08  1.38846886E+09  1.38845466E+09  1.38845466E+09
 shsum :  2.40059280E+08  1.85619238E+09  4.67723552E+08  1.85617818E+09
 shsum :  2.42458400E+08  2.04698291E+09  1.90790464E+08  2.04696858E+09
 shsum :  2.70062016E+08  2.93813350E+09  8.91150464E+08  2.93811917E+09
 shsum :  2.70062016E+08  2.93813350E+09   8.0516815      2.93811917E+09
 shsum :  2.70062016E+08  2.93813350E+09  0.62750685      2.93811917E+09
 fin  2.93813350E+09  2.70062016E+08   19.600380    
   10.879478    
 -2.45066781E+15   19.600380    
 ezero   0.0000000    
  2.93813350E+09
  1.25031652E+16

Total energy input of :5.293E+09 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 2.938E+09 is absorbed (entot) 
                         through inelastic collisions (shsum =2.938E+09)
                                           + heating (elhsum =1.427E+04)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  19.60 eV (from qtoteV)
                                  or :  10.88 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 : 5.9022E+09 [eV/cm2/s]
                                                             or : 9.4565E-03 [erg/cm2/s]
 That variable "errorgaupin" is:           72

 MAIN : Total energy deposition in [CO2] is 1.689E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 5.274E+08 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 2.156E+08 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 9.373E+08 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 8.696E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 6.684E-01 [eV.cm-2.s-1] ("shsum").
   65467828.               2          21
   68895576.               2          23

 Total Heating :  1.595E+04 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  2.0464417E-04
 entot depart   15947.085       15947.085    
 shsum :  2.61530928E+08  1.68895744E+09  1.68894144E+09  1.68894144E+09
 shsum :  2.69280832E+08  2.21638451E+09  5.27427200E+08  2.21636864E+09
 shsum :  2.71951840E+08  2.43202739E+09  2.15642960E+08  2.43201152E+09
 shsum :  3.00766016E+08  3.36934093E+09  9.37313472E+08  3.36932506E+09
 shsum :  3.00766016E+08  3.36934093E+09   8.6956873      3.36932506E+09
 shsum :  3.00766016E+08  3.36934093E+09  0.66840351      3.36932506E+09
 fin  3.36934093E+09  3.00766016E+08   19.623957    
   11.202532    
 -2.20048891E+15   19.623957    
 ezero   0.0000000    
  3.36934093E+09
  1.12132791E+16

Total energy input of :5.902E+09 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 3.369E+09 is absorbed (entot) 
                         through inelastic collisions (shsum =3.369E+09)
                                           + heating (elhsum =1.595E+04)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  19.62 eV (from qtoteV)
                                  or :  11.20 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 : 7.1037E+09 [eV/cm2/s]
                                                             or : 1.1382E-02 [erg/cm2/s]
 That variable "errorgaupin" is:           85

 MAIN : Total energy deposition in [CO2] is 2.168E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 6.644E+08 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 2.747E+08 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 1.157E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 9.950E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 7.472E-01 [eV.cm-2.s-1] ("shsum").
   80825328.               2          21
   85174008.               2          23

 Total Heating :  2.026E+04 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  2.5267995E-04
 entot depart   20258.115       20258.115    
 shsum :  3.16588768E+08  2.16834534E+09  2.16832512E+09  2.16832512E+09
 shsum :  3.26157792E+08  2.83273984E+09  6.64394624E+08  2.83271987E+09
 shsum :  3.29464192E+08  3.10743450E+09  2.74694528E+08  3.10741453E+09
 shsum :  3.64561344E+08  4.26447206E+09  1.15703757E+09  4.26445210E+09
 shsum :  3.64561344E+08  4.26447206E+09   9.9504213      4.26445210E+09
 shsum :  3.64561344E+08  4.26447206E+09  0.74724001      4.26445210E+09
 fin  4.26447206E+09  3.64561344E+08   19.485613    
   11.697543    
 -1.81542094E+15   19.485613    
 ezero   0.0000000    
  4.26447206E+09
  9.31672466E+15

Total energy input of :7.104E+09 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 4.264E+09 is absorbed (entot) 
                         through inelastic collisions (shsum =4.264E+09)
                                           + heating (elhsum =2.026E+04)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  19.49 eV (from qtoteV)
                                  or :  11.70 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 : 8.5945E+09 [eV/cm2/s]
                                                             or : 1.3770E-02 [erg/cm2/s]
 That variable "errorgaupin" is:           85

 MAIN : Total energy deposition in [CO2] is 2.808E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 8.411E+08 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 3.519E+08 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 1.424E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 1.134E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 8.306E-01 [eV.cm-2.s-1] ("shsum").
   99936032.               2          21
  1.05432392E+08           2          23

 Total Heating :  2.580E+04 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  3.1276781E-04
 entot depart   25802.416       25802.416    
 shsum :  3.85313376E+08  2.80847078E+09  2.80844493E+09  2.80844493E+09
 shsum :  3.97157952E+08  3.64955085E+09  8.41080000E+08  3.64952499E+09
 shsum :  4.01261248E+08  4.00147123E+09  3.51920448E+08  4.00144538E+09
 shsum :  4.43818080E+08  5.42559949E+09  1.42412800E+09  5.42557338E+09
 shsum :  4.43818080E+08  5.42559949E+09   11.343420      5.42557338E+09
 shsum :  4.43818080E+08  5.42559949E+09  0.83063304      5.42557338E+09
 fin  5.42559949E+09  4.43818080E+08   19.364897    
   12.224828    
 -1.49122419E+15   19.364897    
 ezero   0.0000000    
  5.42559949E+09
  7.70065678E+15

Total energy input of :8.594E+09 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 5.426E+09 is absorbed (entot) 
                         through inelastic collisions (shsum =5.426E+09)
                                           + heating (elhsum =2.580E+04)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  19.36 eV (from qtoteV)
                                  or :  12.22 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 : 1.0420E+10 [eV/cm2/s]
                                                             or : 1.6695E-02 [erg/cm2/s]
 That variable "errorgaupin" is:           68

 MAIN : Total energy deposition in [CO2] is 3.654E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 1.064E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 4.509E+08 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 1.736E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 1.285E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 9.164E-01 [eV.cm-2.s-1] ("shsum").
  1.23123040E+08           2          21
  1.30019720E+08           2          23

 Total Heating :  3.275E+04 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  3.8620067E-04
 entot depart   32753.660       32753.660    
 shsum :  4.70143360E+08  3.65374899E+09  3.65371622E+09  3.65371622E+09
 shsum :  4.84768864E+08  4.71819930E+09  1.06445037E+09  4.71816653E+09
 shsum :  4.89849024E+08  5.16912947E+09  4.50930368E+08  5.16909670E+09
 shsum :  5.40877248E+08  6.90496461E+09  1.73583514E+09  6.90493184E+09
 shsum :  5.40877248E+08  6.90496461E+09   12.854854      6.90493184E+09
 shsum :  5.40877248E+08  6.90496461E+09  0.91641712      6.90493184E+09
 fin  6.90496461E+09  5.40877248E+08   19.265615    
   12.766232    
 -1.22362746E+15   19.265615    
 ezero   0.0000000    
  6.90496461E+09
  6.35135415E+15

Total energy input of :1.042E+10 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 6.905E+09 is absorbed (entot) 
                         through inelastic collisions (shsum =6.905E+09)
                                           + heating (elhsum =3.275E+04)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  19.27 eV (from qtoteV)
                                  or :  12.77 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 : 1.4728E+10 [eV/cm2/s]
                                                             or : 2.3597E-02 [erg/cm2/s]
 That variable "errorgaupin" is:           98

 MAIN : Total energy deposition in [CO2] is 6.066E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 1.559E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 6.741E+08 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 2.232E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 1.579E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 1.066E+00 [eV.cm-2.s-1] ("shsum").
  1.71061728E+08           2          21
  1.80909296E+08           2          23

 Total Heating :  4.780E+04 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  5.3531933E-04
 entot depart   47797.711       47797.711    
 shsum :  6.76261632E+08  6.06640896E+09  6.06636134E+09  6.06636134E+09
 shsum :  6.96534272E+08  7.62516173E+09  1.55875277E+09  7.62511411E+09
 shsum :  7.03608320E+08  8.29928550E+09  6.74123520E+08  8.29923738E+09
 shsum :  7.67127488E+08  1.05311990E+10  2.23191398E+09  1.05311519E+10
 shsum :  7.67127488E+08  1.05311990E+10   15.789934      1.05311519E+10
 shsum :  7.67127488E+08  1.05311990E+10   1.0663455      1.05311519E+10
 fin  1.05311990E+10  7.67127488E+08   19.199110    
   13.728095    
 -8.62740952E+14   19.199110    
 ezero   0.0000000    
  1.05311990E+10
  4.49365114E+15

Total energy input of :1.473E+10 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 1.053E+10 is absorbed (entot) 
                         through inelastic collisions (shsum =1.053E+10)
                                           + heating (elhsum =4.780E+04)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  19.20 eV (from qtoteV)
                                  or :  13.73 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 : 1.5801E+10 [eV/cm2/s]
                                                             or : 2.5317E-02 [erg/cm2/s]
 That variable "errorgaupin" is:           90

 MAIN : Total energy deposition in [CO2] is 6.608E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 1.698E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 7.386E+08 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 2.434E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 1.644E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 1.100E+00 [eV.cm-2.s-1] ("shsum").
  1.83942768E+08           2          21
  1.94540560E+08           2          23

 Total Heating :  5.218E+04 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  5.7777565E-04
 entot depart   52181.996       52181.996    
 shsum :  7.26518144E+08  6.60801997E+09  6.60796774E+09  6.60796774E+09
 shsum :  7.48398592E+08  8.30614426E+09  1.69812403E+09  8.30609203E+09
 shsum :  7.56044864E+08  9.04475648E+09  7.38612288E+08  9.04470426E+09
 shsum :  8.24851200E+08  1.14782566E+10  2.43350016E+09  1.14782044E+10
 shsum :  8.24851200E+08  1.14782566E+10   16.442692      1.14782044E+10
 shsum :  8.24851200E+08  1.14782566E+10   1.0996943      1.14782044E+10
 fin  1.14782566E+10  8.24851200E+08   19.156710    
   13.915548    
 -8.02365658E+14   19.156710    
 ezero   0.0000000    
  1.14782566E+10
  4.18843144E+15

Total energy input of :1.580E+10 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 1.148E+10 is absorbed (entot) 
                         through inelastic collisions (shsum =1.148E+10)
                                           + heating (elhsum =5.218E+04)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  19.16 eV (from qtoteV)
                                  or :  13.92 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 : 1.7027E+10 [eV/cm2/s]
                                                             or : 2.7280E-02 [erg/cm2/s]
 That variable "errorgaupin" is:           93

 MAIN : Total energy deposition in [CO2] is 7.244E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 1.859E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 8.133E+08 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 2.653E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 1.715E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 1.135E+00 [eV.cm-2.s-1] ("shsum").
  1.98568144E+08           2          21
  2.10036064E+08           2          23

 Total Heating :  5.716E+04 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  6.2631944E-04
 entot depart   57162.531       57162.531    
 shsum :  7.84101120E+08  7.24393728E+09  7.24387994E+09  7.24387994E+09
 shsum :  8.07819968E+08  9.10318694E+09  1.85924979E+09  9.10312960E+09
 shsum :  8.16119680E+08  9.91652352E+09  8.13336704E+08  9.91646618E+09
 shsum :  8.90592576E+08  1.25692232E+10  2.65270016E+09  1.25691658E+10
 shsum :  8.90592576E+08  1.25692232E+10   17.145027      1.25691658E+10
 shsum :  8.90592576E+08  1.25692232E+10   1.1347075      1.25691658E+10
 fin  1.25692232E+10  8.90592576E+08   19.118528    
   14.113326    
 -7.43136985E+14   19.118528    
 ezero   0.0000000    
  1.25692232E+10
  3.88699909E+15

Total energy input of :1.703E+10 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 1.257E+10 is absorbed (entot) 
                         through inelastic collisions (shsum =1.257E+10)
                                           + heating (elhsum =5.716E+04)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  19.12 eV (from qtoteV)
                                  or :  14.11 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 : 1.8409E+10 [eV/cm2/s]
                                                             or : 2.9494E-02 [erg/cm2/s]
 That variable "errorgaupin" is:           90

 MAIN : Total energy deposition in [CO2] is 7.989E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 2.042E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 8.983E+08 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 2.879E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 1.789E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 1.171E+00 [eV.cm-2.s-1] ("shsum").
  2.14746304E+08           2          21
  2.27200640E+08           2          23

 Total Heating :  6.269E+04 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  6.8060274E-04
 entot depart   62692.262       62692.262    
 shsum :  8.49460928E+08  7.98897510E+09  7.98891264E+09  7.98891264E+09
 shsum :  8.75235456E+08  1.00310497E+10  2.04207488E+09  1.00309873E+10
 shsum :  8.84265728E+08  1.09293957E+10  8.98346304E+08  1.09293332E+10
 shsum :  9.64472512E+08  1.38083072E+10  2.87891174E+09  1.38082447E+10
 shsum :  9.64472512E+08  1.38083072E+10   17.892670      1.38082447E+10
 shsum :  9.64472512E+08  1.38083072E+10   1.1708870      1.38082447E+10
 fin  1.38083072E+10  9.64472512E+08   19.086739    
   14.316953    
 -6.86211690E+14   19.086739    
 ezero   0.0000000    
  1.38083072E+10
  3.59522747E+15

Total energy input of :1.841E+10 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 1.381E+10 is absorbed (entot) 
                         through inelastic collisions (shsum =1.381E+10)
                                           + heating (elhsum =6.269E+04)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  19.09 eV (from qtoteV)
                                  or :  14.32 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 : 2.9438E+10 [eV/cm2/s]
                                                             or : 4.7165E-02 [erg/cm2/s]
 That variable "errorgaupin" is:           76

 MAIN : Total energy deposition in [CO2] is 1.511E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 3.313E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 1.501E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 3.960E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 2.267E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 1.374E+00 [eV.cm-2.s-1] ("shsum").
  3.16032640E+08           2          21
  3.34836640E+08           2          23

 Total Heating :  9.986E+04 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  1.0186448E-03
 entot depart   99864.031       99864.031    
 shsum :  1.38956070E+09  1.51097201E+10  1.51096197E+10  1.51096197E+10
 shsum :  1.42813696E+09  1.84223969E+10  3.31267661E+09  1.84222966E+10
 shsum :  1.44174502E+09  1.99233208E+10  1.50092480E+09  1.99232205E+10
 shsum :  1.54685363E+09  2.38835405E+10  3.96021914E+09  2.38834401E+10
 shsum :  1.54685363E+09  2.38835405E+10   22.669567      2.38834401E+10
 shsum :  1.54685363E+09  2.38835405E+10   1.3743513      2.38834401E+10
 fin  2.38835405E+10  1.54685363E+09   19.030640    
   15.440078    
 -4.27857092E+14   19.030640    
 ezero   0.0000000    
  2.38835405E+10
  2.24825392E+15

Total energy input of :2.944E+10 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 2.388E+10 is absorbed (entot) 
                         through inelastic collisions (shsum =2.388E+10)
                                           + heating (elhsum =9.986E+04)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  19.03 eV (from qtoteV)
                                  or :  15.44 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 : 2.9399E+10 [eV/cm2/s]
                                                             or : 4.7104E-02 [erg/cm2/s]
 That variable "errorgaupin" is:           97

 MAIN : Total energy deposition in [CO2] is 1.498E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 3.331E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 1.510E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 4.054E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 2.264E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 1.375E+00 [eV.cm-2.s-1] ("shsum").
  3.17261120E+08           2          21
  3.36048672E+08           2          23

 Total Heating :  1.005E+05 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  1.0264770E-03
 entot depart   100451.62       100451.62    
 shsum :  1.38543654E+09  1.49772083E+10  1.49771080E+10  1.49771080E+10
 shsum :  1.42430938E+09  1.83080182E+10  3.33080883E+09  1.83079158E+10
 shsum :  1.43802624E+09  1.98182134E+10  1.51019469E+09  1.98181110E+10
 shsum :  1.54566963E+09  2.38719365E+10  4.05372365E+09  2.38718341E+10
 shsum :  1.54566963E+09  2.38719365E+10   22.641226      2.38718341E+10
 shsum :  1.54566963E+09  2.38719365E+10   1.3751547      2.38718341E+10
 fin  2.38719365E+10  1.54566963E+09   19.020540    
   15.444398    
 -4.28184818E+14   19.020540    
 ezero   0.0000000    
  2.38719365E+10
  2.25117060E+15

Total energy input of :2.940E+10 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 2.387E+10 is absorbed (entot) 
                         through inelastic collisions (shsum =2.387E+10)
                                           + heating (elhsum =1.005E+05)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  19.02 eV (from qtoteV)
                                  or :  15.44 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 : 2.9378E+10 [eV/cm2/s]
                                                             or : 4.7069E-02 [erg/cm2/s]
 That variable "errorgaupin" is:           78

 MAIN : Total energy deposition in [CO2] is 1.486E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 3.353E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 1.521E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 4.139E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 2.263E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 1.376E+00 [eV.cm-2.s-1] ("shsum").
  3.18966016E+08           2          21
  3.37809568E+08           2          23

 Total Heating :  1.011E+05 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  1.0355702E-03
 entot depart   101103.63       101103.63    
 shsum :  1.38232397E+09  1.48597299E+10  1.48596285E+10  1.48596285E+10
 shsum :  1.42154125E+09  1.82128108E+10  3.35308006E+09  1.82127084E+10
 shsum :  1.43538150E+09  1.97338522E+10  1.52104141E+09  1.97337498E+10
 shsum :  1.54532877E+09  2.38728970E+10  4.13904435E+09  2.38727946E+10
 shsum :  1.54532877E+09  2.38728970E+10   22.625542      2.38727946E+10
 shsum :  1.54532877E+09  2.38728970E+10   1.3762796      2.38727946E+10
 fin  2.38728970E+10  1.54532877E+09   19.010859    
   15.448426    
 -4.28279274E+14   19.010859    
 ezero   0.0000000    
  2.38728970E+10
  2.25281396E+15

Total energy input of :2.938E+10 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 2.387E+10 is absorbed (entot) 
                         through inelastic collisions (shsum =2.387E+10)
                                           + heating (elhsum =1.011E+05)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  19.01 eV (from qtoteV)
                                  or :  15.45 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 : 2.9376E+10 [eV/cm2/s]
                                                             or : 4.7066E-02 [erg/cm2/s]
 That variable "errorgaupin" is:           94

 MAIN : Total energy deposition in [CO2] is 1.477E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 3.378E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 1.533E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 4.202E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 2.263E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 1.378E+00 [eV.cm-2.s-1] ("shsum").
  3.20876864E+08           2          21
  3.39834816E+08           2          23

 Total Heating :  1.017E+05 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  1.0450697E-03
 entot depart   101741.10       101741.10    
 shsum :  1.38068531E+09  1.47730627E+10  1.47729613E+10  1.47729613E+10
 shsum :  1.42026227E+09  1.81506355E+10  3.37757286E+09  1.81505352E+10
 shsum :  1.43422976E+09  1.96831990E+10  1.53256294E+09  1.96830986E+10
 shsum :  1.54586778E+09  2.38853796E+10  4.20218112E+09  2.38852792E+10
 shsum :  1.54586778E+09  2.38853796E+10   22.628391      2.38852792E+10
 shsum :  1.54586778E+09  2.38853796E+10   1.3777442      2.38852792E+10
 fin  2.38853796E+10  1.54586778E+09   19.002865    
   15.451115    
 -4.28129957E+14   19.002865    
 ezero   0.0000000    
  2.38853796E+10
  2.25297583E+15

Total energy input of :2.938E+10 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 2.389E+10 is absorbed (entot) 
                         through inelastic collisions (shsum =2.389E+10)
                                           + heating (elhsum =1.017E+05)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  19.00 eV (from qtoteV)
                                  or :  15.45 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 : 4.9123E+10 [eV/cm2/s]
                                                             or : 7.8705E-02 [erg/cm2/s]
 That variable "errorgaupin" is:           95

 MAIN : Total energy deposition in [CO2] is 2.869E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 5.567E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 2.603E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 5.797E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 2.846E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 1.596E+00 [eV.cm-2.s-1] ("shsum").
  4.61444928E+08           2          21
  4.89385344E+08           2          23

 Total Heating :  1.606E+05 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  1.5785693E-03
 entot depart   160550.63       160550.63    
 shsum :  2.36363187E+09  2.86939628E+10  2.86938030E+10  2.86938030E+10
 shsum :  2.42341248E+09  3.42610862E+10  5.56712448E+09  3.42609265E+10
 shsum :  2.44465818E+09  3.68636846E+10  2.60259712E+09  3.68635249E+10
 shsum :  2.59060813E+09  4.26609213E+10  5.79723776E+09  4.26607616E+10
 shsum :  2.59060813E+09  4.26609213E+10   28.458349      4.26607616E+10
 shsum :  2.59060813E+09  4.26609213E+10   1.5960507      4.26607616E+10
 fin  4.26609213E+10  2.59060813E+09   18.962063    
   16.467531    
 -2.55473714E+14   18.962063    
 ezero   0.0000000    
  4.26609213E+10
  1.34728856E+15

Total energy input of :4.912E+10 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 4.266E+10 is absorbed (entot) 
                         through inelastic collisions (shsum =4.266E+10)
                                           + heating (elhsum =1.606E+05)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  18.96 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 : 4.7108E+10 [eV/cm2/s]
                                                             or : 7.5477E-02 [erg/cm2/s]
 That variable "errorgaupin" is:           94

 MAIN : Total energy deposition in [CO2] is 2.710E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 5.379E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 2.510E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 5.760E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 2.793E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 1.579E+00 [eV.cm-2.s-1] ("shsum").
  4.50450656E+08           2          21
  4.77545664E+08           2          23

 Total Heating :  1.557E+05 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  1.5384387E-03
 entot depart   155728.97       155728.97    
 shsum :  2.25968384E+09  2.71003075E+10  2.71001518E+10  2.71001518E+10
 shsum :  2.31794483E+09  3.24791071E+10  5.37879962E+09  3.24789514E+10
 shsum :  2.33864550E+09  3.49893345E+10  2.51022643E+09  3.49891789E+10
 shsum :  2.48433638E+09  4.07491666E+10  5.75983309E+09  4.07490109E+10
 shsum :  2.48433638E+09  4.07491666E+10   27.926308      4.07490109E+10
 shsum :  2.48433638E+09  4.07491666E+10   1.5790393      4.07490109E+10
 fin  4.07491666E+10  2.48433638E+09   18.962194    
   16.402435    
 -2.66402041E+14   18.962194    
 ezero   0.0000000    
  4.07491666E+10
  1.40491145E+15

Total energy input of :4.711E+10 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 4.075E+10 is absorbed (entot) 
                         through inelastic collisions (shsum =4.075E+10)
                                           + heating (elhsum =1.557E+05)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  18.96 eV (from qtoteV)
                                  or :  16.40 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 : 4.4992E+10 [eV/cm2/s]
                                                             or : 7.2086E-02 [erg/cm2/s]
 That variable "errorgaupin" is:          101

 MAIN : Total energy deposition in [CO2] is 2.546E+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 2.411E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 5.689E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 2.737E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 1.561E+00 [eV.cm-2.s-1] ("shsum").
  4.38787968E+08           2          21
  4.65072384E+08           2          23

 Total Heating :  1.505E+05 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  1.4949229E-03
 entot depart   150503.91       150503.91    
 shsum :  2.15135565E+09  2.54587269E+10  2.54585774E+10  2.54585774E+10
 shsum :  2.20796877E+09  3.06366239E+10  5.17789747E+09  3.06364744E+10
 shsum :  2.22807398E+09  3.30477732E+10  2.41114854E+09  3.30476237E+10
 shsum :  2.37270733E+09  3.87370926E+10  5.68932045E+09  3.87369452E+10
 shsum :  2.37270733E+09  3.87370926E+10   27.368195      3.87369452E+10
 shsum :  2.37270733E+09  3.87370926E+10   1.5606329      3.87369452E+10
 fin  3.87370926E+10  2.37270733E+09   18.962189    
   16.326115    
 -2.78935493E+14   18.962189    
 ezero   0.0000000    
  3.87370926E+10
  1.47100885E+15

Total energy input of :4.499E+10 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 3.874E+10 is absorbed (entot) 
                         through inelastic collisions (shsum =3.874E+10)
                                           + heating (elhsum =1.505E+05)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  18.96 eV (from qtoteV)
                                  or :  16.33 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 : 4.2802E+10 [eV/cm2/s]
                                                             or : 6.8578E-02 [erg/cm2/s]
 That variable "errorgaupin" is:           96

 MAIN : Total energy deposition in [CO2] is 2.381E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 4.963E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 2.305E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 5.569E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 2.679E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 1.541E+00 [eV.cm-2.s-1] ("shsum").
  4.26099392E+08           2          21
  4.51583552E+08           2          23

 Total Heating :  1.448E+05 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  1.4470192E-03
 entot depart   144810.78       144810.78    
 shsum :  2.04063501E+09  2.38123930E+10  2.38122476E+10  2.38122476E+10
 shsum :  2.09543386E+09  2.87755756E+10  4.96318208E+09  2.87754301E+10
 shsum :  2.11488154E+09  3.10805135E+10  2.30493747E+09  3.10803681E+10
 shsum :  2.25719962E+09  3.66493286E+10  5.56881510E+09  3.66491812E+10
 shsum :  2.25719962E+09  3.66493286E+10   26.793724      3.66491812E+10
 shsum :  2.25719962E+09  3.66493286E+10   1.5408795      3.66491812E+10
 fin  3.66493286E+10  2.25719962E+09   18.962645    
   16.236635    
 -2.93209465E+14   18.962645    
 ezero   0.0000000    
  3.66493286E+10
  1.54624769E+15

Total energy input of :4.280E+10 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 3.665E+10 is absorbed (entot) 
                         through inelastic collisions (shsum =3.665E+10)
                                           + heating (elhsum =1.448E+05)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  18.96 eV (from qtoteV)
                                  or :  16.24 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 : 7.2128E+10 [eV/cm2/s]
                                                             or : 1.1556E-01 [erg/cm2/s]
 That variable "errorgaupin" is:          100

 MAIN : Total energy deposition in [CO2] is 4.565E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 8.066E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 3.849E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 7.553E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 3.316E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 1.759E+00 [eV.cm-2.s-1] ("shsum").
  5.86561344E+08           2          21
  6.22498304E+08           2          23

 Total Heating :  2.199E+05 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  2.1585645E-03
 entot depart   219924.53       219924.53    
 shsum :  3.51931802E+09  4.56452628E+10  4.56450417E+10  4.56450417E+10
 shsum :  3.60106317E+09  5.37107907E+10  8.06552781E+09  5.37105695E+10
 shsum :  3.63026227E+09  5.75596790E+10  3.84888627E+09  5.75594578E+10
 shsum :  3.81324109E+09  6.51129774E+10  7.55329792E+09  6.51127562E+10
 shsum :  3.81324109E+09  6.51129774E+10   33.156254      6.51127562E+10
 shsum :  3.81324109E+09  6.51129774E+10   1.7586651      6.51127562E+10
 fin  6.51129774E+10  3.81324109E+09   18.915161    
   17.075495    
 -1.73561608E+14   18.915161    
 ezero   0.0000000    
  6.51129774E+10
  9.17579363E+14

Total energy input of :7.213E+10 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 6.511E+10 is absorbed (entot) 
                         through inelastic collisions (shsum =6.511E+10)
                                           + heating (elhsum =2.199E+05)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  18.92 eV (from qtoteV)
                                  or :  17.08 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 : 6.7702E+10 [eV/cm2/s]
                                                             or : 1.0847E-01 [erg/cm2/s]
 That variable "errorgaupin" is:           87

 MAIN : Total energy deposition in [CO2] is 4.212E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 7.647E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 3.640E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 7.404E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 3.231E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 1.733E+00 [eV.cm-2.s-1] ("shsum").
  5.67467648E+08           2          21
  6.01977600E+08           2          23

 Total Heating :  2.104E+05 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  2.0703478E-03
 entot depart   210389.98       210389.98    
 shsum :  3.29108096E+09  4.21191066E+10  4.21188977E+10  4.21188977E+10
 shsum :  3.36948531E+09  4.97664164E+10  7.64730982E+09  4.97662075E+10
 shsum :  3.39747891E+09  5.34063268E+10  3.63991194E+09  5.34061179E+10
 shsum :  3.57805363E+09  6.08107110E+10  7.40438528E+09  6.08105021E+10
 shsum :  3.57805363E+09  6.08107110E+10   32.306244      6.08105021E+10
 shsum :  3.57805363E+09  6.08107110E+10   1.7326592      6.08105021E+10
 fin  6.08107110E+10  3.57805363E+09   18.921379    
   16.995472    
 -1.84969914E+14   18.921379    
 ezero   0.0000000    
  6.08107110E+10
  9.77570930E+14

Total energy input of :6.770E+10 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 6.081E+10 is absorbed (entot) 
                         through inelastic collisions (shsum =6.081E+10)
                                           + heating (elhsum =2.104E+05)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  18.92 eV (from qtoteV)
                                  or :  17.00 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 : 6.3032E+10 [eV/cm2/s]
                                                             or : 1.0099E-01 [erg/cm2/s]
 That variable "errorgaupin" is:           79

 MAIN : Total energy deposition in [CO2] is 3.846E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 7.196E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 3.414E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 7.197E+09 [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 1.704E+00 [eV.cm-2.s-1] ("shsum").
  5.46386176E+08           2          21
  5.79450048E+08           2          23

 Total Heating :  1.999E+05 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  1.9734963E-03
 entot depart   199881.00       199881.00    
 shsum :  3.05189581E+09  3.84642540E+10  3.84640532E+10  3.84640532E+10
 shsum :  3.12663245E+09  4.56603566E+10  7.19610470E+09  4.56601600E+10
 shsum :  3.15329690E+09  4.90743112E+10  3.41395584E+09  4.90741146E+10
 shsum :  3.33012838E+09  5.62713682E+10  7.19705651E+09  5.62711716E+10
 shsum :  3.33012838E+09  5.62713682E+10   31.389851      5.62711716E+10
 shsum :  3.33012838E+09  5.62713682E+10   1.7037506      5.62711716E+10
 fin  5.62713682E+10  3.33012838E+09   18.927660    
   16.897657    
 -1.98740770E+14   18.927660    
 ezero   0.0000000    
  5.62713682E+10
  1.05000186E+15

Total energy input of :6.303E+10 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 5.627E+10 is absorbed (entot) 
                         through inelastic collisions (shsum =5.627E+10)
                                           + heating (elhsum =1.999E+05)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  18.93 eV (from qtoteV)
                                  or :  16.90 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 : 5.8184E+10 [eV/cm2/s]
                                                             or : 9.3223E-02 [erg/cm2/s]
 That variable "errorgaupin" is:           78

 MAIN : Total energy deposition in [CO2] is 3.476E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 6.711E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 3.171E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 6.910E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 3.041E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 1.672E+00 [eV.cm-2.s-1] ("shsum").
  5.22692928E+08           2          21
  5.54246208E+08           2          23

 Total Heating :  1.883E+05 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  1.8666406E-03
 entot depart   188299.98       188299.98    
 shsum :  2.80592666E+09  3.47650171E+10  3.47648287E+10  3.47648287E+10
 shsum :  2.87661670E+09  4.14762721E+10  6.71125606E+09  4.14760837E+10
 shsum :  2.90181171E+09  4.46473667E+10  3.17109402E+09  4.46471782E+10
 shsum :  3.07298765E+09  5.15574211E+10  6.91005542E+09  5.15572326E+10
 shsum :  3.07298765E+09  5.15574211E+10   30.413528      5.15572326E+10
 shsum :  3.07298765E+09  5.15574211E+10   1.6717148      5.15572326E+10
 fin  5.15574211E+10  3.07298765E+09   18.934055    
   16.777620    
 -2.15370951E+14   18.934055    
 ezero   0.0000000    
  5.15574211E+10
  1.13747927E+15

Total energy input of :5.818E+10 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 5.156E+10 is absorbed (entot) 
                         through inelastic collisions (shsum =5.156E+10)
                                           + heating (elhsum =1.883E+05)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  18.93 eV (from qtoteV)
                                  or :  16.78 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 : 9.6680E+10 [eV/cm2/s]
                                                             or : 1.5490E-01 [erg/cm2/s]
 That variable "errorgaupin" is:           93

 MAIN : Total energy deposition in [CO2] is 6.449E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 1.060E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 5.128E+09 [eV.cm-2.s-1] ("shsum").

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

 MAIN : Total energy deposition in [O2]  is 3.693E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 1.881E+00 [eV.cm-2.s-1] ("shsum").
  6.86521280E+08           2          21
  7.28966016E+08           2          23

 Total Heating :  2.729E+05 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  2.7212158E-03
 entot depart   272927.03       272927.03    
 shsum :  4.76680192E+09  6.44899062E+10  6.44896317E+10  6.44896317E+10
 shsum :  4.86985472E+09  7.50897316E+10  1.05998275E+10  7.50894612E+10
 shsum :  4.90679245E+09  8.02179727E+10  5.12823962E+09  8.02177024E+10
 shsum :  5.12193997E+09  8.93521428E+10  9.13417318E+09  8.93518725E+10
 shsum :  5.12193997E+09  8.93521428E+10   36.929909      8.93518725E+10
 shsum :  5.12193997E+09  8.93521428E+10   1.8807857      8.93518725E+10
 fin  8.93521428E+10  5.12193997E+09   18.875597    
   17.444981    
 -1.29215156E+14   18.875597    
 ezero   0.0000000    
  8.93521428E+10
  6.84561952E+14

Total energy input of :9.668E+10 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 8.935E+10 is absorbed (entot) 
                         through inelastic collisions (shsum =8.935E+10)
                                           + heating (elhsum =2.729E+05)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  18.88 eV (from qtoteV)
                                  or :  17.44 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 : 8.9705E+10 [eV/cm2/s]
                                                             or : 1.4373E-01 [erg/cm2/s]
 That variable "errorgaupin" is:           87

 MAIN : Total energy deposition in [CO2] is 5.883E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 9.959E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 4.805E+09 [eV.cm-2.s-1] ("shsum").

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

 MAIN : Total energy deposition in [O2]  is 3.588E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 1.850E+00 [eV.cm-2.s-1] ("shsum").
  6.63208512E+08           2          21
  7.03896256E+08           2          23

 Total Heating :  2.600E+05 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  2.5892607E-03
 entot depart   259951.11       259951.11    
 shsum :  4.40539955E+09  5.88306883E+10  5.88304302E+10  5.88304302E+10
 shsum :  4.50345523E+09  6.87900918E+10  9.95940250E+09  6.87898296E+10
 shsum :  4.53858560E+09  7.35951503E+10  4.80505907E+09  7.35948882E+10
 shsum :  4.74980966E+09  8.24955863E+10  8.90043597E+09  8.24953242E+10
 shsum :  4.74980966E+09  8.24955863E+10   35.884480      8.24953242E+10
 shsum :  4.74980966E+09  8.24955863E+10   1.8502131      8.24953242E+10
 fin  8.24955863E+10  4.74980966E+09   18.886007    
   17.368187    
 -1.39338696E+14   18.886007    
 ezero   0.0000000    
  8.24955863E+10
  7.37788006E+14

Total energy input of :8.970E+10 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 8.250E+10 is absorbed (entot) 
                         through inelastic collisions (shsum =8.250E+10)
                                           + heating (elhsum =2.600E+05)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  18.89 eV (from qtoteV)
                                  or :  17.37 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 : 8.2321E+10 [eV/cm2/s]
                                                             or : 1.3189E-01 [erg/cm2/s]
 That variable "errorgaupin" is:           87

 MAIN : Total energy deposition in [CO2] is 5.294E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 9.263E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 4.453E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 8.585E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 3.474E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 1.816E+00 [eV.cm-2.s-1] ("shsum").
  6.36694592E+08           2          21
  6.75547392E+08           2          23

 Total Heating :  2.454E+05 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  2.4432607E-03
 entot depart   245410.19       245410.19    
 shsum :  4.02516915E+09  5.29378918E+10  5.29376461E+10  5.29376461E+10
 shsum :  4.11769600E+09  6.22009344E+10  9.26304358E+09  6.22006886E+10
 shsum :  4.15081882E+09  6.66540319E+10  4.45309747E+09  6.66537861E+10
 shsum :  4.35630592E+09  7.52387686E+10  8.58473830E+09  7.52385229E+10
 shsum :  4.35630592E+09  7.52387686E+10   34.738907      7.52385229E+10
 shsum :  4.35630592E+09  7.52387686E+10   1.8156614      7.52385229E+10
 fin  7.52387686E+10  4.35630592E+09   18.896990    
   17.271231    
 -1.51925123E+14   18.896990    
 ezero   0.0000000    
  7.52387686E+10
  8.03964593E+14

Total energy input of :8.232E+10 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 7.524E+10 is absorbed (entot) 
                         through inelastic collisions (shsum =7.524E+10)
                                           + heating (elhsum =2.454E+05)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  18.90 eV (from qtoteV)
                                  or :  17.27 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 : 7.4632E+10 [eV/cm2/s]
                                                             or : 1.1957E-01 [erg/cm2/s]
 That variable "errorgaupin" is:           98

 MAIN : Total energy deposition in [CO2] is 4.694E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 8.510E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 4.073E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 8.161E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 3.349E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 1.777E+00 [eV.cm-2.s-1] ("shsum").
  6.06011904E+08           2          21
  6.42881280E+08           2          23

 Total Heating :  2.291E+05 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  2.2812695E-03
 entot depart   229124.30       229124.30    
 shsum :  3.63250893E+09  4.69395948E+10  4.69393654E+10  4.69393654E+10
 shsum :  3.71890099E+09  5.54493911E+10  8.50979686E+09  5.54491617E+10
 shsum :  3.74979251E+09  5.95219005E+10  4.07251046E+09  5.95216712E+10
 shsum :  3.94703539E+09  6.76826890E+10  8.16078950E+09  6.76824596E+10
 shsum :  3.94703539E+09  6.76826890E+10   33.493423      6.76824596E+10
 shsum :  3.94703539E+09  6.76826890E+10   1.7765907      6.76824596E+10
 fin  6.76826890E+10  3.94703539E+09   18.908270    
   17.147728    
 -1.67678325E+14   18.908270    
 ezero   0.0000000    
  6.76826890E+10
  8.86798876E+14

Total energy input of :7.463E+10 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 6.768E+10 is absorbed (entot) 
                         through inelastic collisions (shsum =6.768E+10)
                                           + heating (elhsum =2.291E+05)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  18.91 eV (from qtoteV)
                                  or :  17.15 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 : 1.2177E+11 [eV/cm2/s]
                                                             or : 1.9511E-01 [erg/cm2/s]
 That variable "errorgaupin" is:           78

 MAIN : Total energy deposition in [CO2] is 8.429E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 1.308E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 6.387E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 1.053E+10 [eV.cm-2.s-1] ("shsum").

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

 MAIN : Total energy deposition in [O+]  is 1.976E+00 [eV.cm-2.s-1] ("shsum").
  7.65292608E+08           2          21
  8.12980800E+08           2          23

 Total Heating :  3.189E+05 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  3.2542343E-03
 entot depart   318897.38       318897.38    
 shsum :  6.05270118E+09  8.42880942E+10  8.42877747E+10  8.42877747E+10
 shsum :  6.17593958E+09  9.73634847E+10  1.30753925E+10  9.73631652E+10
 shsum :  6.22022042E+09  1.03750402E+11  6.38691840E+09  1.03750083E+11
 shsum :  6.46309120E+09  1.14281595E+11  1.05311949E+10  1.14281275E+11
 shsum :  6.46309120E+09  1.14281595E+11   40.016209      1.14281275E+11
 shsum :  6.46309120E+09  1.14281595E+11   1.9760699      1.14281275E+11
 fin  1.14281595E+11  6.46309120E+09   18.841467    
   17.682188    
 -1.02401818E+14   18.841467    
 ezero   0.0000000    
  1.14281595E+11
  5.43491738E+14

Total energy input of :1.218E+11 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 1.143E+11 is absorbed (entot) 
                         through inelastic collisions (shsum =1.143E+11)
                                           + heating (elhsum =3.189E+05)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  18.84 eV (from qtoteV)
                                  or :  17.68 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 : 1.1224E+11 [eV/cm2/s]
                                                             or : 1.7983E-01 [erg/cm2/s]
 That variable "errorgaupin" is:           88

 MAIN : Total energy deposition in [CO2] is 7.643E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 1.223E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 5.957E+09 [eV.cm-2.s-1] ("shsum").

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

 MAIN : Total energy deposition in [O2]  is 3.885E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 1.943E+00 [eV.cm-2.s-1] ("shsum").
  7.40191296E+08           2          21
  7.85961344E+08           2          23

 Total Heating :  3.035E+05 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  3.0831099E-03
 entot depart   303521.47       303521.47    
 shsum :  5.55638733E+09  7.64306964E+10  7.64303933E+10  7.64303933E+10
 shsum :  5.67314534E+09  8.86592963E+10  1.22285988E+10  8.86589932E+10
 shsum :  5.71507968E+09  9.46163384E+10  5.95704422E+09  9.46160353E+10
 shsum :  5.95294669E+09  1.04850285E+11  1.02339492E+10  1.04849981E+11
 shsum :  5.95294669E+09  1.04850285E+11   38.845909      1.04849981E+11
 shsum :  5.95294669E+09  1.04850285E+11   1.9430590      1.04849981E+11
 fin  1.04850285E+11  5.95294669E+09   18.854738    
   17.613174    
 -1.11177259E+14   18.854738    
 ezero   0.0000000    
  1.04850285E+11
  5.89651564E+14

Total energy input of :1.122E+11 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 1.049E+11 is absorbed (entot) 
                         through inelastic collisions (shsum =1.048E+11)
                                           + heating (elhsum =3.035E+05)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  18.85 eV (from qtoteV)
                                  or :  17.61 eV (from (entot))
                                  or :******* eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  55.0, longitude 290.0.

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

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

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

 MAIN : The total energy input from the precipitation source is : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]
                                  and from photoelectron source : 1.0212E+11 [eV/cm2/s]
                                                             or : 1.6362E-01 [erg/cm2/s]
 That variable "errorgaupin" is:           88

 MAIN : Total energy deposition in [CO2] is 6.822E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 1.130E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 5.486E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 9.834E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 3.755E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 1.905E+00 [eV.cm-2.s-1] ("shsum").
  7.10925120E+08           2          21
  7.54640448E+08           2          23

 Total Heating :  2.860E+05 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  2.8926888E-03
 entot depart   286046.59       286046.59    
 shsum :  5.03256218E+09  6.82180444E+10  6.82177577E+10  6.82177577E+10
 shsum :  5.14210867E+09  7.95202355E+10  1.13021891E+10  7.95199488E+10
 shsum :  5.18142259E+09  8.50063032E+10  5.48606976E+09  8.50060165E+10
 shsum :  5.41207245E+09  9.48402995E+10  9.83399731E+09  9.48400128E+10
 shsum :  5.41207245E+09  9.48402995E+10   37.548904      9.48400128E+10
 shsum :  5.41207245E+09  9.48402995E+10   1.9053166      9.48400128E+10
 fin  9.48402995E+10  5.41207245E+09   18.869108    
   17.523842    
 -1.22288146E+14   18.869108    
 ezero   0.0000000    
  9.48402995E+10
  6.48086473E+14

Total energy input of :1.021E+11 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 9.484E+10 is absorbed (entot) 
                         through inelastic collisions (shsum =9.484E+10)
                                           + heating (elhsum =2.860E+05)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  18.87 eV (from qtoteV)
                                  or :  17.52 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 : 9.1549E+10 [eV/cm2/s]
                                                             or : 1.4668E-01 [erg/cm2/s]
 That variable "errorgaupin" is:           78

 MAIN : Total energy deposition in [CO2] is 5.982E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 1.029E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 4.974E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 9.300E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 3.612E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 1.862E+00 [eV.cm-2.s-1] ("shsum").
  6.76199680E+08           2          21
  7.17635456E+08           2          23

 Total Heating :  2.662E+05 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  2.6803140E-03
 entot depart   266186.53       266186.53    
 shsum :  4.48963942E+09  5.98188974E+10  5.98186312E+10  5.98186312E+10
 shsum :  4.59114342E+09  7.01128704E+10  1.02939699E+10  7.01126001E+10
 shsum :  4.62752870E+09  7.50865449E+10  4.97367398E+09  7.50862746E+10
 shsum :  4.84794163E+09  8.43865047E+10  9.29996288E+09  8.43862344E+10
 shsum :  4.84794163E+09  8.43865047E+10   36.119251      8.43862344E+10
 shsum :  4.84794163E+09  8.43865047E+10   1.8620584      8.43862344E+10
 fin  8.43865047E+10  4.84794163E+09   18.884195    
   17.406668    
 -1.36518203E+14   18.884195    
 ezero   0.0000000    
  8.43865047E+10
  7.22923057E+14

Total energy input of :9.155E+10 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 8.439E+10 is absorbed (entot) 
                         through inelastic collisions (shsum =8.439E+10)
                                           + heating (elhsum =2.662E+05)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  18.88 eV (from qtoteV)
                                  or :  17.41 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 : 1.4677E+11 [eV/cm2/s]
                                                             or : 2.3515E-01 [erg/cm2/s]
 That variable "errorgaupin" is:           80

 MAIN : Total energy deposition in [CO2] is 1.044E+11 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 1.544E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 7.597E+09 [eV.cm-2.s-1] ("shsum").

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

 MAIN : Total energy deposition in [O2]  is 4.259E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 2.053E+00 [eV.cm-2.s-1] ("shsum").
  8.27571712E+08           2          21
  8.79517376E+08           2          23

 Total Heating :  3.584E+05 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  3.7530691E-03
 entot depart   358445.19       358445.19    
 shsum :  7.34164070E+09  1.04400069E+11  1.04399708E+11  1.04399708E+11
 shsum :  7.48376986E+09  1.19844217E+11  1.54441513E+10  1.19843856E+11
 shsum :  7.53492838E+09  1.27440929E+11  7.59671603E+09  1.27440568E+11
 shsum :  7.80163789E+09  1.39196400E+11  1.17554749E+10  1.39196039E+11
 shsum :  7.80163789E+09  1.39196400E+11   42.590122      1.39196039E+11
 shsum :  7.80163789E+09  1.39196400E+11   2.0527894      1.39196039E+11
 fin  1.39196400E+11  7.80163789E+09   18.812094    
   17.841946    
 -8.48324828E+13   18.812094    
 ezero   0.0000000    
  1.39196400E+11
  4.50946501E+14

Total energy input of :1.468E+11 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 1.392E+11 is absorbed (entot) 
                         through inelastic collisions (shsum =1.392E+11)
                                           + heating (elhsum =3.584E+05)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  18.81 eV (from qtoteV)
                                  or :  17.84 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 : 1.3473E+11 [eV/cm2/s]
                                                             or : 2.1586E-01 [erg/cm2/s]
 That variable "errorgaupin" is:           70

 MAIN : Total energy deposition in [CO2] is 9.435E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 1.441E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 7.069E+09 [eV.cm-2.s-1] ("shsum").

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

 MAIN : Total energy deposition in [O2]  is 4.134E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 2.018E+00 [eV.cm-2.s-1] ("shsum").
  8.02035456E+08           2          21
  8.51997952E+08           2          23

 Total Heating :  3.414E+05 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  3.5468366E-03
 entot depart   341399.53       341399.53    
 shsum :  6.71242445E+09  9.43535718E+10  9.43532278E+10  9.43532278E+10
 shsum :  6.84674355E+09  1.08761784E+11  1.44082135E+10  1.08761440E+11
 shsum :  6.89507328E+09  1.15830612E+11  7.06882458E+09  1.15830268E+11
 shsum :  7.15599002E+09  1.27240782E+11  1.14101688E+10  1.27240438E+11
 shsum :  7.15599002E+09  1.27240782E+11   41.336102      1.27240438E+11
 shsum :  7.15599002E+09  1.27240782E+11   2.0184116      1.27240438E+11
 fin  1.27240782E+11  7.15599002E+09   18.827295    
   17.781017    
 -9.24864752E+13   18.827295    
 ezero   0.0000000    
  1.27240782E+11
  4.91236113E+14

Total energy input of :1.347E+11 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 1.272E+11 is absorbed (entot) 
                         through inelastic collisions (shsum =1.272E+11)
                                           + heating (elhsum =3.414E+05)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  18.83 eV (from qtoteV)
                                  or :  17.78 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 : 1.2192E+11 [eV/cm2/s]
                                                             or : 1.9534E-01 [erg/cm2/s]
 That variable "errorgaupin" is:           87

 MAIN : Total energy deposition in [CO2] is 8.382E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 1.327E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 6.488E+09 [eV.cm-2.s-1] ("shsum").

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

 MAIN : Total energy deposition in [O2]  is 3.993E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 1.979E+00 [eV.cm-2.s-1] ("shsum").
  7.71621312E+08           2          21
  8.19412672E+08           2          23

 Total Heating :  3.218E+05 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  3.3163312E-03
 entot depart   321804.09       321804.09    
 shsum :  6.04664730E+09  8.38209044E+10  8.38205850E+10  8.38205850E+10
 shsum :  6.17223731E+09  9.70901668E+10  1.32692593E+10  9.70898473E+10
 shsum :  6.21739315E+09  1.03577723E+11  6.48755610E+09  1.03577403E+11
 shsum :  6.46997402E+09  1.14522096E+11  1.09443758E+10  1.14521776E+11
 shsum :  6.46997402E+09  1.14522096E+11   39.934544      1.14521776E+11
 shsum :  6.46997402E+09  1.14522096E+11   1.9787662      1.14521776E+11
 fin  1.14522096E+11  6.46997402E+09   18.844048    
   17.700550    
 -1.02292884E+14   18.844048    
 ezero   0.0000000    
  1.14522096E+11
  5.42839239E+14

Total energy input of :1.219E+11 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 1.145E+11 is absorbed (entot) 
                         through inelastic collisions (shsum =1.145E+11)
                                           + heating (elhsum =3.218E+05)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  18.84 eV (from qtoteV)
                                  or :  17.70 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 : 1.0851E+11 [eV/cm2/s]
                                                             or : 1.7385E-01 [erg/cm2/s]
 That variable "errorgaupin" is:           93

 MAIN : Total energy deposition in [CO2] is 7.301E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 1.202E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 5.852E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 1.032E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 3.837E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 1.933E+00 [eV.cm-2.s-1] ("shsum").
  7.34780608E+08           2          21
  7.80112320E+08           2          23

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

Total N I (1200 A to 1744 A) (kR.A):  3.0582184E-03
 entot depart   299269.16       299269.16    
 shsum :  5.35450829E+09  7.30072269E+10  7.30069238E+10  7.30069238E+10
 shsum :  5.47032371E+09  8.50308055E+10  1.20235766E+10  8.50305024E+10
 shsum :  5.51191808E+09  9.08827689E+10  5.85195981E+09  9.08824658E+10
 shsum :  5.75272499E+09  1.01205230E+11  1.03224576E+10  1.01204926E+11
 shsum :  5.75272499E+09  1.01205230E+11   38.374084      1.01204926E+11
 shsum :  5.75272499E+09  1.01205230E+11   1.9328892      1.01204926E+11
 fin  1.01205230E+11  5.75272499E+09   18.861971    
   17.592571    
 -1.15046747E+14   18.861971    
 ezero   0.0000000    
  1.01205230E+11
  6.09940184E+14

Total energy input of :1.085E+11 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 1.012E+11 is absorbed (entot) 
                         through inelastic collisions (shsum =1.012E+11)
                                           + heating (elhsum =2.993E+05)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  18.86 eV (from qtoteV)
                                  or :  17.59 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 : 1.7119E+11 [eV/cm2/s]
                                                             or : 2.7429E-01 [erg/cm2/s]
 That variable "errorgaupin" is:           95

 MAIN : Total energy deposition in [CO2] is 1.244E+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 8.741E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 1.282E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 4.477E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 2.116E+00 [eV.cm-2.s-1] ("shsum").
  8.77230336E+08           2          21
  9.32678464E+08           2          23

 Total Heating :  3.924E+05 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  4.2158300E-03
 entot depart   392434.84       392434.84    
 shsum :  8.60805530E+09  1.24359000E+11  1.24358607E+11  1.24358607E+11
 shsum :  8.76770918E+09  1.42037910E+11  1.76789135E+10  1.42037516E+11
 shsum :  8.82524979E+09  1.50779331E+11  8.74141696E+09  1.50778937E+11
 shsum :  9.11240192E+09  1.63601056E+11  1.28217293E+10  1.63600663E+11
 shsum :  9.11240192E+09  1.63601056E+11   44.772499      1.63600663E+11
 shsum :  9.11240192E+09  1.63601056E+11   2.1160548      1.63600663E+11
 fin  1.63601056E+11  9.11240192E+09   18.786856    
   17.953671    
 -7.26298431E+13   18.786856    
 ezero   0.0000000    
  1.63601056E+11
  3.86599234E+14

Total energy input of :1.712E+11 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 1.636E+11 is absorbed (entot) 
                         through inelastic collisions (shsum =1.636E+11)
                                           + heating (elhsum =3.924E+05)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  18.79 eV (from qtoteV)
                                  or :  17.95 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 : 1.5674E+11 [eV/cm2/s]
                                                             or : 2.5113E-01 [erg/cm2/s]
 That variable "errorgaupin" is:           92

 MAIN : Total energy deposition in [CO2] is 1.122E+11 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 1.647E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 8.124E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 1.244E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 4.346E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 2.081E+00 [eV.cm-2.s-1] ("shsum").
  8.51946496E+08           2          21
  9.05397760E+08           2          23

 Total Heating :  3.742E+05 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  3.9780457E-03
 entot depart   374209.09       374209.09    
 shsum :  7.85020365E+09  1.12177906E+11  1.12177529E+11  1.12177529E+11
 shsum :  8.00085299E+09  1.28648471E+11  1.64705659E+10  1.28648094E+11
 shsum :  8.05513165E+09  1.36772575E+11  8.12410317E+09  1.36772198E+11
 shsum :  8.33589760E+09  1.49211922E+11  1.24393411E+10  1.49211546E+11
 shsum :  8.33589760E+09  1.49211922E+11   43.459488      1.49211546E+11
 shsum :  8.33589760E+09  1.49211922E+11   2.0808704      1.49211546E+11
 fin  1.49211922E+11  8.33589760E+09   18.803350    
   17.899923    
 -7.93954400E+13   18.803350    
 ezero   0.0000000    
  1.49211922E+11
  4.22240919E+14

Total energy input of :1.567E+11 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 1.492E+11 is absorbed (entot) 
                         through inelastic collisions (shsum =1.492E+11)
                                           + heating (elhsum =3.742E+05)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  18.80 eV (from qtoteV)
                                  or :  17.90 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 : 1.4134E+11 [eV/cm2/s]
                                                             or : 2.2646E-01 [erg/cm2/s]
 That variable "errorgaupin" is:           96

 MAIN : Total energy deposition in [CO2] is 9.938E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 1.514E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 7.442E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 1.192E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 4.198E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 2.040E+00 [eV.cm-2.s-1] ("shsum").
  8.21302016E+08           2          21
  8.72525376E+08           2          23

 Total Heating :  3.531E+05 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  3.7113396E-03
 entot depart   353069.75       353069.75    
 shsum :  7.04671949E+09  9.93764966E+10  9.93761444E+10  9.93761444E+10
 shsum :  7.18726861E+09  1.14513248E+11  1.51367516E+10  1.14512896E+11
 shsum :  7.23787520E+09  1.21954877E+11  7.44163021E+09  1.21954525E+11
 shsum :  7.50944870E+09  1.33876703E+11  1.19218278E+10  1.33876351E+11
 shsum :  7.50944870E+09  1.33876703E+11   41.982418      1.33876351E+11
 shsum :  7.50944870E+09  1.33876703E+11   2.0400300      1.33876351E+11
 fin  1.33876703E+11  7.50944870E+09   18.821760    
   17.827766    
 -8.81332742E+13   18.821760    
 ezero   0.0000000    
  1.33876703E+11
  4.68251998E+14

Total energy input of :1.413E+11 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 1.339E+11 is absorbed (entot) 
                         through inelastic collisions (shsum =1.339E+11)
                                           + heating (elhsum =3.531E+05)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  18.82 eV (from qtoteV)
                                  or :  17.83 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 : 1.2518E+11 [eV/cm2/s]
                                                             or : 2.0056E-01 [erg/cm2/s]
 That variable "errorgaupin" is:           83

 MAIN : Total energy deposition in [CO2] is 8.619E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 1.367E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 6.692E+09 [eV.cm-2.s-1] ("shsum").

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

 MAIN : Total energy deposition in [O2]  is 4.033E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 1.992E+00 [eV.cm-2.s-1] ("shsum").
  7.83557376E+08           2          21
  8.32216512E+08           2          23

 Total Heating :  3.285E+05 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  3.4118062E-03
 entot depart   328533.47       328533.47    
 shsum :  6.20934400E+09  8.61914481E+10  8.61911204E+10  8.61911204E+10
 shsum :  6.33854976E+09  9.98636913E+10  1.36722412E+10  9.98633636E+10
 shsum :  6.38502246E+09  1.06555998E+11  6.69230643E+09  1.06555671E+11
 shsum :  6.64363520E+09  1.17786051E+11  1.12300544E+10  1.17785723E+11
 shsum :  6.64363520E+09  1.17786051E+11   40.325317      1.17785723E+11
 shsum :  6.64363520E+09  1.17786051E+11   1.9924366      1.17785723E+11
 fin  1.17786051E+11  6.64363520E+09   18.841770    
   17.729156    
 -9.96189982E+13   18.841770    
 ezero   0.0000000    
  1.17786051E+11
  5.28713561E+14

Total energy input of :1.252E+11 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 1.178E+11 is absorbed (entot) 
                         through inelastic collisions (shsum =1.178E+11)
                                           + heating (elhsum =3.285E+05)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  18.84 eV (from qtoteV)
                                  or :  17.73 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 : 1.9470E+11 [eV/cm2/s]
                                                             or : 3.1196E-01 [erg/cm2/s]
 That variable "errorgaupin" is:           84

 MAIN : Total energy deposition in [CO2] is 1.438E+11 [eV.cm-2.s-1] ("shsum").

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

 MAIN : Total energy deposition in [CO]  is 9.811E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 1.374E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 4.665E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 2.169E+00 [eV.cm-2.s-1] ("shsum").
  9.17233216E+08           2          21
  9.75609216E+08           2          23

 Total Heating :  4.217E+05 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  4.6416684E-03
 entot depart   421682.63       421682.63    
 shsum :  9.83204250E+09  1.43800893E+11  1.43800467E+11  1.43800467E+11
 shsum :  1.00078234E+10  1.63563667E+11  1.97627699E+10  1.63563241E+11
 shsum :  1.00712366E+10  1.73374570E+11  9.81090304E+09  1.73374145E+11
 shsum :  1.03758449E+10  1.87119075E+11  1.37445007E+10  1.87118649E+11
 shsum :  1.03758449E+10  1.87119075E+11   46.646629      1.87118649E+11
 shsum :  1.03758449E+10  1.87119075E+11   2.1691551      1.87118649E+11
 fin  1.87119075E+11  1.03758449E+10   18.765171    
   18.034105    
 -6.37858679E+13   18.765171    
 ezero   0.0000000    
  1.87119075E+11
  3.39916261E+14

Total energy input of :1.947E+11 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 1.871E+11 is absorbed (entot) 
                         through inelastic collisions (shsum =1.871E+11)
                                           + heating (elhsum =4.217E+05)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  18.77 eV (from qtoteV)
                                  or :  18.03 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 : 1.7796E+11 [eV/cm2/s]
                                                             or : 2.8512E-01 [erg/cm2/s]
 That variable "errorgaupin" is:           88

 MAIN : Total energy deposition in [CO2] is 1.296E+11 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 1.840E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 9.112E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 1.333E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 4.529E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 2.133E+00 [eV.cm-2.s-1] ("shsum").
  8.92526208E+08           2          21
  9.48916096E+08           2          23

 Total Heating :  4.026E+05 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  4.3754904E-03
 entot depart   402605.72       402605.72    
 shsum :  8.95140864E+09  1.29571242E+11  1.29570841E+11  1.29570841E+11
 shsum :  9.11710925E+09  1.47969147E+11  1.83979110E+10  1.47968754E+11
 shsum :  9.17687194E+09  1.57081551E+11  9.11239987E+09  1.57081158E+11
 shsum :  9.47463680E+09  1.70414621E+11  1.33330647E+10  1.70414227E+11
 shsum :  9.47463680E+09  1.70414621E+11   45.290081      1.70414227E+11
 shsum :  9.47463680E+09  1.70414621E+11   2.1334679      1.70414227E+11
 fin  1.70414621E+11  9.47463680E+09   18.782541    
   17.986401    
 -6.98530503E+13   18.782541    
 ezero   0.0000000    
  1.70414621E+11
  3.71904171E+14

Total energy input of :1.780E+11 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 1.704E+11 is absorbed (entot) 
                         through inelastic collisions (shsum =1.704E+11)
                                           + heating (elhsum =4.026E+05)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  18.78 eV (from qtoteV)
                                  or :  17.99 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 : 1.6008E+11 [eV/cm2/s]
                                                             or : 2.5649E-01 [erg/cm2/s]
 That variable "errorgaupin" is:           85

 MAIN : Total energy deposition in [CO2] is 1.146E+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 8.338E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 1.277E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 4.376E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 2.092E+00 [eV.cm-2.s-1] ("shsum").
  8.62151552E+08           2          21
  9.16291392E+08           2          23

 Total Heating :  3.803E+05 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  4.0761232E-03
 entot depart   380327.00       380327.00    
 shsum :  8.01627955E+09  1.14588115E+11  1.14587738E+11  1.14587738E+11
 shsum :  8.17064294E+09  1.31474653E+11  1.68865403E+10  1.31474276E+11
 shsum :  8.22628403E+09  1.39812356E+11  8.33769882E+09  1.39811979E+11
 shsum :  8.51419699E+09  1.52587207E+11  1.27748454E+10  1.52586830E+11
 shsum :  8.51419699E+09  1.52587207E+11   43.756042      1.52586830E+11
 shsum :  8.51419699E+09  1.52587207E+11   2.0918360      1.52586830E+11
 fin  1.52587207E+11  8.51419699E+09   18.802094    
   17.921503    
 -7.77327928E+13   18.802094    
 ezero   0.0000000    
  1.52587207E+11
  4.13426237E+14

Total energy input of :1.601E+11 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 1.526E+11 is absorbed (entot) 
                         through inelastic collisions (shsum =1.526E+11)
                                           + heating (elhsum =3.803E+05)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  18.80 eV (from qtoteV)
                                  or :  17.92 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 : 1.4130E+11 [eV/cm2/s]
                                                             or : 2.2639E-01 [erg/cm2/s]
 That variable "errorgaupin" is:           96

 MAIN : Total energy deposition in [CO2] is 9.911E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 1.522E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 7.484E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 1.203E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 4.202E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 2.043E+00 [eV.cm-2.s-1] ("shsum").
  8.24233216E+08           2          21
  8.75749184E+08           2          23

 Total Heating :  3.543E+05 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  3.7392082E-03
 entot depart   354283.56       354283.56    
 shsum :  7.03973581E+09  9.91151800E+10  9.91148278E+10  9.91148278E+10
 shsum :  7.18134016E+09  1.14337243E+11  1.52220641E+10  1.14336891E+11
 shsum :  7.23233126E+09  1.21821651E+11  7.48441088E+09  1.21821299E+11
 shsum :  7.50637414E+09  1.33849588E+11  1.20279357E+10  1.33849235E+11
 shsum :  7.50637414E+09  1.33849588E+11   42.024620      1.33849235E+11
 shsum :  7.50637414E+09  1.33849588E+11   2.0430613      1.33849235E+11
 fin  1.33849588E+11  7.50637414E+09   18.823610    
   17.831457    
 -8.81693704E+13   18.823610    
 ezero   0.0000000    
  1.33849588E+11
  4.68397792E+14

Total energy input of :1.413E+11 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 1.338E+11 is absorbed (entot) 
                         through inelastic collisions (shsum =1.338E+11)
                                           + heating (elhsum =3.543E+05)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  18.82 eV (from qtoteV)
                                  or :  17.83 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 : 2.1701E+11 [eV/cm2/s]
                                                             or : 3.4769E-01 [erg/cm2/s]
 That variable "errorgaupin" is:           95

 MAIN : Total energy deposition in [CO2] is 1.624E+11 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 2.168E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 1.080E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 1.454E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 4.827E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 2.214E+00 [eV.cm-2.s-1] ("shsum").
  9.49785536E+08           2          21
  1.01064909E+09           2          23

 Total Heating :  4.469E+05 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  5.0301054E-03
 entot depart   446878.41       446878.41    
 shsum :  1.09973299E+10  1.62428338E+11  1.62427896E+11  1.62427896E+11
 shsum :  1.11878205E+10  1.84112497E+11  2.16841605E+10  1.84112054E+11
 shsum :  1.12565883E+10  1.94910781E+11  1.07982889E+10  1.94910339E+11
 shsum :  1.15760046E+10  2.09447748E+11  1.45369702E+10  2.09447305E+11
 shsum :  1.15760046E+10  2.09447748E+11   48.270782      2.09447305E+11
 shsum :  1.15760046E+10  2.09447748E+11   2.2142894      2.09447305E+11
 fin  2.09447748E+11  1.15760046E+10   18.746550    
   18.093267    
 -5.71727717E+13   18.746550    
 ezero   0.0000000    
  2.09447748E+11
  3.04977575E+14

Total energy input of :2.170E+11 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 2.094E+11 is absorbed (entot) 
                         through inelastic collisions (shsum =2.094E+11)
                                           + heating (elhsum =4.469E+05)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  18.75 eV (from qtoteV)
                                  or :  18.09 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 : 1.9810E+11 [eV/cm2/s]
                                                             or : 3.1740E-01 [erg/cm2/s]
 That variable "errorgaupin" is:           87

 MAIN : Total energy deposition in [CO2] is 1.463E+11 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 2.018E+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 1.410E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 4.688E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 2.178E+00 [eV.cm-2.s-1] ("shsum").
  9.25770560E+08           2          21
  9.84669696E+08           2          23

 Total Heating :  4.272E+05 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  4.7384161E-03
 entot depart   427170.97       427170.97    
 shsum :  1.00009871E+10  1.46260394E+11  1.46259968E+11  1.46259968E+11
 shsum :  1.01804319E+10  1.66438339E+11  2.01779364E+10  1.66437913E+11
 shsum :  1.02451999E+10  1.76464806E+11  1.00264724E+10  1.76464380E+11
 shsum :  1.05574103E+10  1.90567219E+11  1.41024133E+10  1.90566793E+11
 shsum :  1.05574103E+10  1.90567219E+11   46.880608      1.90566793E+11
 shsum :  1.05574103E+10  1.90567219E+11   2.1782651      1.90566793E+11
 fin  1.90567219E+11  1.05574103E+10   18.764494    
   18.050566    
 -6.26888855E+13   18.764494    
 ezero   0.0000000    
  1.90567219E+11
  3.34082488E+14

Total energy input of :1.981E+11 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 1.906E+11 is absorbed (entot) 
                         through inelastic collisions (shsum =1.906E+11)
                                           + heating (elhsum =4.272E+05)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  18.76 eV (from qtoteV)
                                  or :  18.05 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 : 1.7791E+11 [eV/cm2/s]
                                                             or : 2.8504E-01 [erg/cm2/s]
 That variable "errorgaupin" is:           94

 MAIN : Total energy deposition in [CO2] is 1.292E+11 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 1.851E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 9.168E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 1.351E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 4.530E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 2.136E+00 [eV.cm-2.s-1] ("shsum").
  8.95909888E+08           2          21
  9.52553216E+08           2          23

 Total Heating :  4.040E+05 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  4.4096764E-03
 entot depart   404036.53       404036.53    
 shsum :  8.94166630E+09  1.29209541E+11  1.29209139E+11  1.29209139E+11
 shsum :  9.10866125E+09  1.47715342E+11  1.85058017E+10  1.47714933E+11
 shsum :  9.16890522E+09  1.56883649E+11  9.16831437E+09  1.56883255E+11
 shsum :  9.47075686E+09  1.70395812E+11  1.35121674E+10  1.70395419E+11
 shsum :  9.47075686E+09  1.70395812E+11   45.301727      1.70395419E+11
 shsum :  9.47075686E+09  1.70395812E+11   2.1360729      1.70395419E+11
 fin  1.70395812E+11  9.47075686E+09   18.784836    
   17.991783    
 -6.98816680E+13   18.784836    
 ezero   0.0000000    
  1.70395812E+11
  3.72011075E+14

Total energy input of :1.779E+11 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 1.704E+11 is absorbed (entot) 
                         through inelastic collisions (shsum =1.704E+11)
                                           + heating (elhsum =4.040E+05)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  18.78 eV (from qtoteV)
                                  or :  17.99 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 : 1.5665E+11 [eV/cm2/s]
                                                             or : 2.5098E-01 [erg/cm2/s]
 That variable "errorgaupin" is:          110

 MAIN : Total energy deposition in [CO2] is 1.116E+11 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 1.666E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 8.221E+09 [eV.cm-2.s-1] ("shsum").

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

 MAIN : Total energy deposition in [O2]  is 4.351E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 2.086E+00 [eV.cm-2.s-1] ("shsum").
  8.58226432E+08           2          21
  9.12211968E+08           2          23

 Total Heating :  3.768E+05 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  4.0391884E-03
 entot depart   376844.84       376844.84    
 shsum :  7.83361843E+09  1.11563014E+11  1.11562637E+11  1.11562637E+11
 shsum :  7.98658304E+09  1.28223109E+11  1.66600929E+10  1.28222732E+11
 shsum :  8.04171469E+09  1.36443912E+11  8.22080256E+09  1.36443535E+11
 shsum :  8.32900608E+09  1.49166064E+11  1.27221494E+10  1.49165687E+11
 shsum :  8.32900608E+09  1.49166064E+11   43.510914      1.49165687E+11
 shsum :  8.32900608E+09  1.49166064E+11   2.0864377      1.49165687E+11
 fin  1.49166064E+11  8.32900608E+09   18.807432    
   17.909227    
 -7.94611396E+13   18.807432    
 ezero   0.0000000    
  1.49166064E+11
  4.22498617E+14

Total energy input of :1.566E+11 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 1.492E+11 is absorbed (entot) 
                         through inelastic collisions (shsum =1.492E+11)
                                           + heating (elhsum =3.768E+05)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  18.81 eV (from qtoteV)
                                  or :  17.91 eV (from (entot))
                                  or :******* eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  45.0, longitude 315.0.

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

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

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

 MAIN : The total energy input from the precipitation source is : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]
                                  and from photoelectron source : 2.3787E+11 [eV/cm2/s]
                                                             or : 3.8111E-01 [erg/cm2/s]
 That variable "errorgaupin" is:           75

 MAIN : Total energy deposition in [CO2] is 1.800E+11 [eV.cm-2.s-1] ("shsum").

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

 MAIN : Total energy deposition in [CO]  is 1.170E+10 [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 4.969E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 2.253E+00 [eV.cm-2.s-1] ("shsum").
  9.76512064E+08           2          21
  1.03952109E+09           2          23

 Total Heating :  4.686E+05 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  5.3807609E-03
 entot depart   468576.81       468576.81    
 shsum :  1.20901622E+10  1.79991134E+11  1.79990659E+11  1.79990659E+11
 shsum :  1.22939331E+10  2.03425595E+11  2.34344591E+10  2.03425120E+11
 shsum :  1.23675331E+10  2.15124132E+11  1.16985416E+10  2.15123657E+11
 shsum :  1.26993807E+10  2.30334431E+11  1.52103055E+10  2.30333956E+11
 shsum :  1.26993807E+10  2.30334431E+11   49.686329      2.30333956E+11
 shsum :  1.26993807E+10  2.30334431E+11   2.2529705      2.30333956E+11
 fin  2.30334431E+11  1.26993807E+10   18.730558    
   18.137453    
 -5.21153177E+13   18.730558    
 ezero   0.0000000    
  2.30334431E+11
  2.78236857E+14

Total energy input of :2.379E+11 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 2.303E+11 is absorbed (entot) 
                         through inelastic collisions (shsum =2.303E+11)
                                           + heating (elhsum =4.686E+05)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  18.73 eV (from qtoteV)
                                  or :  18.14 eV (from (entot))
                                  or :******* eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  50.0, longitude 315.0.

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

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

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

 MAIN : The total energy input from the precipitation source is : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]
                                  and from photoelectron source : 2.1696E+11 [eV/cm2/s]
                                                             or : 3.4761E-01 [erg/cm2/s]
 That variable "errorgaupin" is:           92

 MAIN : Total energy deposition in [CO2] is 1.620E+11 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 2.180E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 1.086E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 1.476E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 4.827E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 2.217E+00 [eV.cm-2.s-1] ("shsum").
  9.53186176E+08           2          21
  1.01425222E+09           2          23

 Total Heating :  4.484E+05 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  5.0662672E-03
 entot depart   448390.13       448390.13    
 shsum :  1.09862195E+10  1.62014904E+11  1.62014462E+11  1.62014462E+11
 shsum :  1.11780803E+10  1.83816372E+11  2.18014638E+10  1.83815930E+11
 shsum :  1.12473692E+10  1.94677359E+11  1.08609833E+10  1.94676916E+11
 shsum :  1.15717202E+10  2.09434460E+11  1.47570995E+10  2.09434018E+11
 shsum :  1.15717202E+10  2.09434460E+11   48.269192      2.09434018E+11
 shsum :  1.15717202E+10  2.09434460E+11   2.2167001      2.09434018E+11
 fin  2.09434460E+11  1.15717202E+10   18.748871    
   18.098818    
 -5.71939404E+13   18.748871    
 ezero   0.0000000    
  2.09434460E+11
  3.05052737E+14

Total energy input of :2.170E+11 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 2.094E+11 is absorbed (entot) 
                         through inelastic collisions (shsum =2.094E+11)
                                           + heating (elhsum =4.484E+05)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  18.75 eV (from qtoteV)
                                  or :  18.10 eV (from (entot))
                                  or :******* eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  55.0, longitude 315.0.

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

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

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

 MAIN : The total energy input from the precipitation source is : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]
                                  and from photoelectron source : 1.9460E+11 [eV/cm2/s]
                                                             or : 3.1179E-01 [erg/cm2/s]
 That variable "errorgaupin" is:           74

 MAIN : Total energy deposition in [CO2] is 1.430E+11 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 1.999E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 9.928E+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 4.665E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 2.174E+00 [eV.cm-2.s-1] ("shsum").
  9.23921728E+08           2          21
  9.82733056E+08           2          23

 Total Heating :  4.246E+05 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  4.7112862E-03
 entot depart   424598.69       424598.69    
 shsum :  9.81131264E+09  1.43032451E+11  1.43032025E+11  1.43032025E+11
 shsum :  9.98973030E+09  1.63017474E+11  1.99850209E+10  1.63017048E+11
 shsum :  1.00541348E+10  1.72945424E+11  9.92794931E+09  1.72944998E+11
 shsum :  1.03677358E+10  1.87087176E+11  1.41417441E+10  1.87086750E+11
 shsum :  1.03677358E+10  1.87087176E+11   46.653587      1.87086750E+11
 shsum :  1.03677358E+10  1.87087176E+11   2.1740808      1.87086750E+11
 fin  1.87087176E+11  1.03677358E+10   18.769749    
   18.045134    
 -6.38357592E+13   18.769749    
 ezero   0.0000000    
  1.87087176E+11
  3.40099166E+14

Total energy input of :1.946E+11 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 1.871E+11 is absorbed (entot) 
                         through inelastic collisions (shsum =1.871E+11)
                                           + heating (elhsum =4.246E+05)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  18.77 eV (from qtoteV)
                                  or :  18.05 eV (from (entot))
                                  or :******* eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  60.0, longitude 315.0.

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

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

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

 MAIN : The total energy input from the precipitation source is : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]
                                  and from photoelectron source : 1.7104E+11 [eV/cm2/s]
                                                             or : 2.7405E-01 [erg/cm2/s]
 That variable "errorgaupin" is:           76

 MAIN : Total energy deposition in [CO2] is 1.234E+11 [eV.cm-2.s-1] ("shsum").

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

 MAIN : Total energy deposition in [CO]  is 8.896E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 1.332E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 4.481E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 2.124E+00 [eV.cm-2.s-1] ("shsum").
  8.86670080E+08           2          21
  9.42802624E+08           2          23

 Total Heating :  3.965E+05 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  4.3108696E-03
 entot depart   396519.06       396519.06    
 shsum :  8.58071450E+09  1.23351122E+11  1.23350729E+11  1.23350729E+11
 shsum :  8.74396774E+09  1.41327712E+11  1.79765903E+10  1.41327319E+11
 shsum :  8.80284877E+09  1.50223602E+11  8.89588736E+09  1.50223208E+11
 shsum :  9.10137446E+09  1.63542073E+11  1.33184666E+10  1.63541680E+11
 shsum :  9.10137446E+09  1.63542073E+11   44.813614      1.63541680E+11
 shsum :  9.10137446E+09  1.63542073E+11   2.1237786      1.63541680E+11
 fin  1.63542073E+11  9.10137446E+09   18.793121    
   17.968943    
 -7.27178396E+13   18.793121    
 ezero   0.0000000    
  1.63542073E+11
  3.86938570E+14

Total energy input of :1.710E+11 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 1.635E+11 is absorbed (entot) 
                         through inelastic collisions (shsum =1.635E+11)
                                           + heating (elhsum =3.965E+05)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  18.79 eV (from qtoteV)
                                  or :  17.97 eV (from (entot))
                                  or :******* eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  45.0, longitude 320.0.

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

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

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

 MAIN : The total energy input from the precipitation source is : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]
                                  and from photoelectron source : 2.5706E+11 [eV/cm2/s]
                                                             or : 4.1187E-01 [erg/cm2/s]
 That variable "errorgaupin" is:          108

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

 MAIN : Total energy deposition in [N2]  is 2.501E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 1.251E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 1.577E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 5.092E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 2.286E+00 [eV.cm-2.s-1] ("shsum").
  9.98590208E+08           2          21
  1.06347219E+09           2          23

 Total Heating :  4.872E+05 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  5.6932564E-03
 entot depart   487214.41       487214.41    
 shsum :  1.30986947E+10  1.96274422E+11  1.96273930E+11  1.96273930E+11
 shsum :  1.33142989E+10  2.21281157E+11  2.50067292E+10  2.21280666E+11
 shsum :  1.33922017E+10  2.33788867E+11  1.25077094E+10  2.33788375E+11
 shsum :  1.37343222E+10  2.49562661E+11  1.57737871E+10  2.49562169E+11
 shsum :  1.37343222E+10  2.49562661E+11   50.923145      2.49562169E+11
 shsum :  1.37343222E+10  2.49562661E+11   2.2862670      2.49562169E+11
 fin  2.49562661E+11  1.37343222E+10   18.716837    
   18.170731    
 -4.81882035E+13   18.716837    
 ezero   0.0000000    
  2.49562661E+11
  2.57459097E+14

Total energy input of :2.571E+11 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 2.496E+11 is absorbed (entot) 
                         through inelastic collisions (shsum =2.496E+11)
                                           + heating (elhsum =4.872E+05)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  18.72 eV (from qtoteV)
                                  or :  18.17 eV (from (entot))
                                  or :******* eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  50.0, longitude 320.0.

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

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

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

 MAIN : The total energy input from the precipitation source is : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]
                                  and from photoelectron source : 2.3432E+11 [eV/cm2/s]
                                                             or : 3.7543E-01 [erg/cm2/s]
 That variable "errorgaupin" is:           74

 MAIN : Total energy deposition in [CO2] is 1.766E+11 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 2.326E+10 [eV.cm-2.s-1] ("shsum").

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

 MAIN : Total energy deposition in [O]   is 1.531E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 4.948E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 2.250E+00 [eV.cm-2.s-1] ("shsum").
  9.75887680E+08           2          21
  1.03884480E+09           2          23

 Total Heating :  4.667E+05 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  5.3585689E-03
 entot depart   466651.44       466651.44    
 shsum :  1.18961388E+10  1.76636641E+11  1.76636183E+11  1.76636183E+11
 shsum :  1.20990689E+10  1.99897874E+11  2.32612311E+10  1.99897416E+11
 shsum :  1.21723853E+10  2.11509690E+11  1.16118190E+10  2.11509232E+11
 shsum :  1.25067684E+10  2.26815082E+11  1.53053952E+10  2.26814624E+11
 shsum :  1.25067684E+10  2.26815082E+11   49.483555      2.26814624E+11
 shsum :  1.25067684E+10  2.26815082E+11   2.2497964      2.26814624E+11
 fin  2.26815082E+11  1.25067684E+10   18.735405    
   18.135387    
 -5.29179271E+13   18.735405    
 ezero   0.0000000    
  2.26815082E+11
  2.82448793E+14

Total energy input of :2.343E+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 =4.667E+05)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  18.74 eV (from qtoteV)
                                  or :  18.14 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 : 2.0999E+11 [eV/cm2/s]
                                                             or : 3.3644E-01 [erg/cm2/s]
 That variable "errorgaupin" is:          100

 MAIN : Total energy deposition in [CO2] is 1.559E+11 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 2.132E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 1.061E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 1.467E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 4.784E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 2.207E+00 [eV.cm-2.s-1] ("shsum").
  9.47213312E+08           2          21
  1.00791642E+09           2          23

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

Total N I (1200 A to 1744 A) (kR.A):  4.9803834E-03
 entot depart   442347.50       442347.50    
 shsum :  1.06152274E+10  1.55877065E+11  1.55876622E+11  1.55876622E+11
 shsum :  1.08038359E+10  1.77193796E+11  2.13167268E+10  1.77193353E+11
 shsum :  1.08719514E+10  1.87806155E+11  1.06123540E+10  1.87805712E+11
 shsum :  1.11952876E+10  2.02476765E+11  1.46706043E+10  2.02476323E+11
 shsum :  1.11952876E+10  2.02476765E+11   47.836998      2.02476323E+11
 shsum :  1.11952876E+10  2.02476765E+11   2.2068286      2.02476323E+11
 fin  2.02476765E+11  1.11952876E+10   18.756649    
   18.085892    
 -5.91170414E+13   18.756649    
 ezero   0.0000000    
  2.02476765E+11
  3.15179129E+14

Total energy input of :2.100E+11 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 2.025E+11 is absorbed (entot) 
                         through inelastic collisions (shsum =2.025E+11)
                                           + heating (elhsum =4.423E+05)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  18.76 eV (from qtoteV)
                                  or :  18.09 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 : 1.8433E+11 [eV/cm2/s]
                                                             or : 2.9533E-01 [erg/cm2/s]
 That variable "errorgaupin" is:           90

 MAIN : Total energy deposition in [CO2] is 1.343E+11 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 1.916E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 9.505E+09 [eV.cm-2.s-1] ("shsum").

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

 MAIN : Total energy deposition in [O2]  is 4.596E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 2.156E+00 [eV.cm-2.s-1] ("shsum").
  9.10461696E+08           2          21
  9.68468416E+08           2          23

 Total Heating :  4.136E+05 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  4.5535718E-03
 entot depart   413569.34       413569.34    
 shsum :  9.27214285E+09  1.34320865E+11  1.34320456E+11  1.34320456E+11
 shsum :  9.44458752E+09  1.53484804E+11  1.91639429E+10  1.53484394E+11
 shsum :  9.50681702E+09  1.62990162E+11  9.50535066E+09  1.62989752E+11
 shsum :  9.81470618E+09  1.76812425E+11  1.38222551E+10  1.76811999E+11
 shsum :  9.81470618E+09  1.76812425E+11   45.955044      1.76811999E+11
 shsum :  9.81470618E+09  1.76812425E+11   2.1559739      1.76811999E+11
 fin  1.76812425E+11  9.81470618E+09   18.780582    
   18.015051    
 -6.74327146E+13   18.780582    
 ezero   0.0000000    
  1.76812425E+11
  3.59055508E+14

Total energy input of :1.843E+11 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 1.768E+11 is absorbed (entot) 
                         through inelastic collisions (shsum =1.768E+11)
                                           + heating (elhsum =4.136E+05)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  18.78 eV (from qtoteV)
                                  or :  18.02 eV (from (entot))
                                  or :******* eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  45.0, longitude 325.0.

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

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

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

 MAIN : The total energy input from the precipitation source is : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]
                                  and from photoelectron source : 2.7441E+11 [eV/cm2/s]
                                                             or : 4.3966E-01 [erg/cm2/s]
 That variable "errorgaupin" is:           98

 MAIN : Total energy deposition in [CO2] is 2.111E+11 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 2.640E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 1.322E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 1.624E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 5.200E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 2.315E+00 [eV.cm-2.s-1] ("shsum").
  1.01688032E+09           2          21
  1.08341325E+09           2          23

 Total Heating :  5.031E+05 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  5.9671425E-03
 entot depart   503132.16       503132.16    
 shsum :  1.40124908E+10  2.11086442E+11  2.11085935E+11  2.11085935E+11
 shsum :  1.42384671E+10  2.37481525E+11  2.63950868E+10  2.37481017E+11
 shsum :  1.43201393E+10  2.50704069E+11  1.32225362E+10  2.50703561E+11
 shsum :  1.46705459E+10  2.66939171E+11  1.62351043E+10  2.66938663E+11
 shsum :  1.46705459E+10  2.66939171E+11   52.003059      2.66938663E+11
 shsum :  1.46705459E+10  2.66939171E+11   2.3149452      2.66938663E+11
 fin  2.66939171E+11  1.46705459E+10   18.704916    
   18.195585    
 -4.51129943E+13   18.704916    
 ezero   0.0000000    
  2.66939171E+11
  2.41182580E+14

Total energy input of :2.744E+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 =5.031E+05)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  18.70 eV (from qtoteV)
                                  or :  18.20 eV (from (entot))
                                  or :******* eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  50.0, longitude 325.0.

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

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

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

 MAIN : The total energy input from the precipitation source is : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]
                                  and from photoelectron source : 2.5002E+11 [eV/cm2/s]
                                                             or : 4.0059E-01 [erg/cm2/s]
 That variable "errorgaupin" is:           96

 MAIN : Total energy deposition in [CO2] is 1.900E+11 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 2.455E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 1.228E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 1.575E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 5.054E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 2.278E+00 [eV.cm-2.s-1] ("shsum").
  9.94703680E+08           2          21
  1.05932237E+09           2          23

 Total Heating :  4.823E+05 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  5.6149065E-03
 entot depart   482263.50       482263.50    
 shsum :  1.27212554E+10  1.89954458E+11  1.89953982E+11  1.89953982E+11
 shsum :  1.29338931E+10  2.14505882E+11  2.45514220E+10  2.14505406E+11
 shsum :  1.30107392E+10  2.26781577E+11  1.22756915E+10  2.26781102E+11
 shsum :  1.33532109E+10  2.42535940E+11  1.57543700E+10  2.42535465E+11
 shsum :  1.33532109E+10  2.42535940E+11   50.544041      2.42535465E+11
 shsum :  1.33532109E+10  2.42535940E+11   2.2782910      2.42535465E+11
 fin  2.42535940E+11  1.33532109E+10   18.723846    
   18.163118    
 -4.95635325E+13   18.723846    
 ezero   0.0000000    
  2.42535940E+11
  2.64708062E+14

Total energy input of :2.500E+11 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 2.425E+11 is absorbed (entot) 
                         through inelastic collisions (shsum =2.425E+11)
                                           + heating (elhsum =4.823E+05)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  18.72 eV (from qtoteV)
                                  or :  18.16 eV (from (entot))
                                  or :******* eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  55.0, longitude 325.0.

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

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

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

 MAIN : The total energy input from the precipitation source is : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]
                                  and from photoelectron source : 2.2391E+11 [eV/cm2/s]
                                                             or : 3.5875E-01 [erg/cm2/s]
 That variable "errorgaupin" is:           86

 MAIN : Total energy deposition in [CO2] is 1.676E+11 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 2.249E+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 1.510E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 4.887E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 2.235E+00 [eV.cm-2.s-1] ("shsum").
  9.66555904E+08           2          21
  1.02891776E+09           2          23

 Total Heating :  4.576E+05 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  5.2164951E-03
 entot depart   457551.44       457551.44    
 shsum :  1.13447895E+10  1.67588430E+11  1.67587971E+11  1.67587971E+11
 shsum :  1.15423396E+10  1.90083383E+11  2.24949473E+10  1.90082925E+11
 shsum :  1.16137083E+10  2.01301574E+11  1.12181852E+10  2.01301115E+11
 shsum :  1.19449139E+10  2.16406442E+11  1.51048622E+10  2.16405983E+11
 shsum :  1.19449139E+10  2.16406442E+11   48.870728      2.16405983E+11
 shsum :  1.19449139E+10  2.16406442E+11   2.2350204      2.16405983E+11
 fin  2.16406442E+11  1.19449139E+10   18.745329    
   18.117037    
 -5.54070369E+13   18.745329    
 ezero   0.0000000    
  2.16406442E+11
  2.95577837E+14

Total energy input of :2.239E+11 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 2.164E+11 is absorbed (entot) 
                         through inelastic collisions (shsum =2.164E+11)
                                           + heating (elhsum =4.576E+05)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  18.75 eV (from qtoteV)
                                  or :  18.12 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 : 1.9636E+11 [eV/cm2/s]
                                                             or : 3.1460E-01 [erg/cm2/s]
 That variable "errorgaupin" is:           85

 MAIN : Total energy deposition in [CO2] is 1.443E+11 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 2.022E+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 1.424E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 4.695E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 2.184E+00 [eV.cm-2.s-1] ("shsum").
  9.30292672E+08           2          21
  9.89939776E+08           2          23

 Total Heating :  4.282E+05 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  4.7667651E-03
 entot depart   428216.22       428216.22    
 shsum :  9.90021734E+09  1.44334750E+11  1.44334324E+11  1.44334324E+11
 shsum :  1.00807352E+10  1.64550869E+11  2.02161275E+10  1.64550443E+11
 shsum :  1.01459046E+10  1.74596637E+11  1.00457656E+10  1.74596211E+11
 shsum :  1.04614083E+10  1.88835004E+11  1.42383739E+10  1.88834578E+11
 shsum :  1.04614083E+10  1.88835004E+11   46.952095      1.88834578E+11
 shsum :  1.04614083E+10  1.88835004E+11   2.1836848      1.88834578E+11
 fin  1.88835004E+11  1.04614083E+10   18.769688    
   18.050629    
 -6.32641678E+13   18.769688    
 ezero   0.0000000    
  1.88835004E+11
  3.37055008E+14

Total energy input of :1.964E+11 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 1.888E+11 is absorbed (entot) 
                         through inelastic collisions (shsum =1.888E+11)
                                           + heating (elhsum =4.282E+05)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  18.77 eV (from qtoteV)
                                  or :  18.05 eV (from (entot))
                                  or :******* eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  45.0, longitude 330.0.

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

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

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

 MAIN : The total energy input from the precipitation source is : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]
                                  and from photoelectron source : 2.8973E+11 [eV/cm2/s]
                                                             or : 4.6420E-01 [erg/cm2/s]
 That variable "errorgaupin" is:           95

 MAIN : Total energy deposition in [CO2] is 2.242E+11 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 2.759E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 1.384E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 1.660E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 5.294E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 2.340E+00 [eV.cm-2.s-1] ("shsum").
  1.03200710E+09           2          21
  1.10000307E+09           2          23

 Total Heating :  5.166E+05 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  6.2017012E-03
 entot depart   516595.09       516595.09    
 shsum :  1.48219494E+10  2.24242401E+11  2.24241877E+11  2.24241877E+11
 shsum :  1.50568090E+10  2.51836219E+11  2.75938202E+10  2.51835695E+11
 shsum :  1.51417088E+10  2.65676227E+11  1.38400031E+10  2.65675702E+11
 shsum :  1.54985544E+10  2.82276758E+11  1.66005350E+10  2.82276233E+11
 shsum :  1.54985544E+10  2.82276758E+11   52.942009      2.82276233E+11
 shsum :  1.54985544E+10  2.82276758E+11   2.3395591      2.82276233E+11
 fin  2.82276758E+11  1.54985544E+10   18.693819    
   18.213102    
 -4.27028382E+13   18.693819    
 ezero   0.0000000    
  2.82276758E+11
  2.28432936E+14

Total energy input of :2.897E+11 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 2.823E+11 is absorbed (entot) 
                         through inelastic collisions (shsum =2.823E+11)
                                           + heating (elhsum =5.166E+05)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  18.69 eV (from qtoteV)
                                  or :  18.21 eV (from (entot))
                                  or :******* eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  50.0, longitude 330.0.

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

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

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

 MAIN : The total energy input from the precipitation source is : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]
                                  and from photoelectron source : 2.6392E+11 [eV/cm2/s]
                                                             or : 4.2286E-01 [erg/cm2/s]
 That variable "errorgaupin" is:           70

 MAIN : Total energy deposition in [CO2] is 2.018E+11 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 2.567E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 1.285E+10 [eV.cm-2.s-1] ("shsum").

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

 MAIN : Total energy deposition in [O2]  is 5.147E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 2.303E+00 [eV.cm-2.s-1] ("shsum").
  1.01024608E+09           2          21
  1.07633139E+09           2          23

 Total Heating :  4.955E+05 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  5.8349073E-03
 entot depart   495470.97       495470.97    
 shsum :  1.34533325E+10  2.01819554E+11  2.01819062E+11  2.01819062E+11
 shsum :  1.36743014E+10  2.27486826E+11  2.56672748E+10  2.27486335E+11
 shsum :  1.37541745E+10  2.40336847E+11  1.28500142E+10  2.40336355E+11
 shsum :  1.41029294E+10  2.56446956E+11  1.61101138E+10  2.56446464E+11
 shsum :  1.41029294E+10  2.56446956E+11   51.465813      2.56446464E+11
 shsum :  1.41029294E+10  2.56446956E+11   2.3027298      2.56446464E+11
 fin  2.56446956E+11  1.41029294E+10   18.713974    
   18.183949    
 -4.69287085E+13   18.713974    
 ezero   0.0000000    
  2.56446956E+11
  2.50768259E+14

Total energy input of :2.639E+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 =4.955E+05)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  18.71 eV (from qtoteV)
                                  or :  18.18 eV (from (entot))
                                  or :******* eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  55.0, longitude 330.0.

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

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

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

 MAIN : The total energy input from the precipitation source is : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]
                                  and from photoelectron source : 2.3624E+11 [eV/cm2/s]
                                                             or : 3.7851E-01 [erg/cm2/s]
 That variable "errorgaupin" is:           86

 MAIN : Total energy deposition in [CO2] is 1.780E+11 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 2.351E+10 [eV.cm-2.s-1] ("shsum").

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

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

 MAIN : Total energy deposition in [O2]  is 4.977E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 2.259E+00 [eV.cm-2.s-1] ("shsum").
  9.82533376E+08           2          21
  1.04635264E+09           2          23

 Total Heating :  4.704E+05 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  5.4192441E-03
 entot depart   470426.13       470426.13    
 shsum :  1.19925187E+10  1.78032116E+11  1.78031641E+11  1.78031641E+11
 shsum :  1.21977467E+10  2.01547055E+11  2.35149435E+10  2.01546580E+11
 shsum :  1.22719078E+10  2.13289845E+11  1.17427937E+10  2.13289370E+11
 shsum :  1.26092411E+10  2.28739727E+11  1.54498785E+10  2.28739252E+11
 shsum :  1.26092411E+10  2.28739727E+11   49.768780      2.28739252E+11
 shsum :  1.26092411E+10  2.28739727E+11   2.2591777      2.28739252E+11
 fin  2.28739727E+11  1.26092411E+10   18.735643    
   18.140642    
 -5.24878768E+13   18.735643    
 ezero   0.0000000    
  2.28739727E+11
  2.80149828E+14

Total energy input of :2.362E+11 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 2.287E+11 is absorbed (entot) 
                         through inelastic collisions (shsum =2.287E+11)
                                           + heating (elhsum =4.704E+05)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  18.74 eV (from qtoteV)
                                  or :  18.14 eV (from (entot))
                                  or :******* eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  60.0, longitude 330.0.

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

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

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

 MAIN : The total energy input from the precipitation source is : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]
                                  and from photoelectron source : 2.0702E+11 [eV/cm2/s]
                                                             or : 3.3168E-01 [erg/cm2/s]
 That variable "errorgaupin" is:           94

 MAIN : Total energy deposition in [CO2] is 1.533E+11 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 2.113E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 1.051E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 1.457E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 4.782E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 2.207E+00 [eV.cm-2.s-1] ("shsum").
  9.46698304E+08           2          21
  1.00778022E+09           2          23

 Total Heating :  4.406E+05 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  4.9500093E-03
 entot depart   440638.47       440638.47    
 shsum :  1.04582912E+10  1.53273762E+11  1.53273319E+11  1.53273319E+11
 shsum :  1.06457487E+10  1.74402028E+11  2.11282719E+10  1.74401585E+11
 shsum :  1.07134433E+10  1.84916476E+11  1.05144525E+10  1.84916034E+11
 shsum :  1.10349199E+10  1.99487619E+11  1.45711473E+10  1.99487177E+11
 shsum :  1.10349199E+10  1.99487619E+11   47.817371      1.99487177E+11
 shsum :  1.10349199E+10  1.99487619E+11   2.2073996      1.99487177E+11
 fin  1.99487619E+11  1.10349199E+10   18.760303    
   18.077848    
 -5.99761732E+13   18.760303    
 ezero   0.0000000    
  1.99487619E+11
  3.19697266E+14

Total energy input of :2.070E+11 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 1.995E+11 is absorbed (entot) 
                         through inelastic collisions (shsum =1.995E+11)
                                           + heating (elhsum =4.406E+05)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  18.76 eV (from qtoteV)
                                  or :  18.08 eV (from (entot))
                                  or :******* eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  45.0, longitude 335.0.

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

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

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

 MAIN : The total energy input from the precipitation source is : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]
                                  and from photoelectron source : 3.0290E+11 [eV/cm2/s]
                                                             or : 4.8530E-01 [erg/cm2/s]
 That variable "errorgaupin" is:           98

 MAIN : Total energy deposition in [CO2] is 2.356E+11 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 2.860E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 1.436E+10 [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 5.375E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 2.361E+00 [eV.cm-2.s-1] ("shsum").
  1.04441965E+09           2          21
  1.11371187E+09           2          23

 Total Heating :  5.278E+05 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  6.3969516E-03
 entot depart   527801.56       527801.56    
 shsum :  1.55200430E+10  2.35627856E+11  2.35627332E+11  2.35627332E+11
 shsum :  1.57622968E+10  2.64227815E+11  2.85999616E+10  2.64227291E+11
 shsum :  1.58498806E+10  2.78586229E+11  1.43584113E+10  2.78585704E+11
 shsum :  1.62114365E+10  2.95461782E+11  1.68755507E+10  2.95461257E+11
 shsum :  1.62114365E+10  2.95461782E+11   53.751511      2.95461257E+11
 shsum :  1.62114365E+10  2.95461782E+11   2.3605099      2.95461257E+11
 fin  2.95461782E+11  1.62114365E+10   18.684252    
   18.225515    
 -4.08250231E+13   18.684252    
 ezero   0.0000000    
  2.95461782E+11
  2.18499633E+14

Total energy input of :3.029E+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 =5.278E+05)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  18.68 eV (from qtoteV)
                                  or :  18.23 eV (from (entot))
                                  or :******* eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  50.0, longitude 335.0.

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

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

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

 MAIN : The total energy input from the precipitation source is : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]
                                  and from photoelectron source : 2.7588E+11 [eV/cm2/s]
                                                             or : 4.4202E-01 [erg/cm2/s]
 That variable "errorgaupin" is:           89

 MAIN : Total energy deposition in [CO2] is 2.121E+11 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 2.660E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 1.333E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 1.638E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 5.226E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 2.324E+00 [eV.cm-2.s-1] ("shsum").
  1.02296621E+09           2          21
  1.09034368E+09           2          23

 Total Heating :  5.065E+05 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  6.0182032E-03
 entot depart   506463.09       506463.09    
 shsum :  1.40851896E+10  2.12100547E+11  2.12100039E+11  2.12100039E+11
 shsum :  1.43131003E+10  2.38705345E+11  2.66047918E+10  2.38704837E+11
 shsum :  1.43954934E+10  2.52037956E+11  1.33326080E+10  2.52037448E+11
 shsum :  1.47488379E+10  2.68415713E+11  1.63777638E+10  2.68415205E+11
 shsum :  1.47488379E+10  2.68415713E+11   52.259903      2.68415205E+11
 shsum :  1.47488379E+10  2.68415713E+11   2.3235078      2.68415205E+11
 fin  2.68415713E+11  1.47488379E+10   18.705492    
   18.199110    
 -4.48735205E+13   18.705492    
 ezero   0.0000000    
  2.68415713E+11
  2.39894895E+14

Total energy input of :2.759E+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 =5.065E+05)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  18.71 eV (from qtoteV)
                                  or :  18.20 eV (from (entot))
                                  or :******* eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  55.0, longitude 335.0.

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

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

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

 MAIN : The total energy input from the precipitation source is : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]
                                  and from photoelectron source : 2.4686E+11 [eV/cm2/s]
                                                             or : 3.9553E-01 [erg/cm2/s]
 That variable "errorgaupin" is:           81

 MAIN : Total energy deposition in [CO2] is 1.871E+11 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 2.437E+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 1.571E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 5.054E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 2.280E+00 [eV.cm-2.s-1] ("shsum").
  9.95582016E+08           2          21
  1.06067789E+09           2          23

 Total Heating :  4.811E+05 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  5.5883056E-03
 entot depart   481139.06       481139.06    
 shsum :  1.25520128E+10  1.87093008E+11  1.87092533E+11  1.87092533E+11
 shsum :  1.27636429E+10  2.11465847E+11  2.43728404E+10  2.11465372E+11
 shsum :  1.28401295E+10  2.23649923E+11  1.21840712E+10  2.23649448E+11
 shsum :  1.31819530E+10  2.39360213E+11  1.57102838E+10  2.39359738E+11
 shsum :  1.31819530E+10  2.39360213E+11   50.541328      2.39359738E+11
 shsum :  1.31819530E+10  2.39360213E+11   2.2796788      2.39359738E+11
 fin  2.39360213E+11  1.31819530E+10   18.727474    
   18.158175    
 -5.02074547E+13   18.727474    
 ezero   0.0000000    
  2.39360213E+11
  2.68095164E+14

Total energy input of :2.469E+11 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 2.394E+11 is absorbed (entot) 
                         through inelastic collisions (shsum =2.394E+11)
                                           + heating (elhsum =4.811E+05)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  18.73 eV (from qtoteV)
                                  or :  18.16 eV (from (entot))
                                  or :******* eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  60.0, longitude 335.0.

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

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

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

 MAIN : The total energy input from the precipitation source is : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]
                                  and from photoelectron source : 2.1621E+11 [eV/cm2/s]
                                                             or : 3.4641E-01 [erg/cm2/s]
 That variable "errorgaupin" is:           89

 MAIN : Total energy deposition in [CO2] is 1.610E+11 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 2.190E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 1.091E+10 [eV.cm-2.s-1] ("shsum").

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

 MAIN : Total energy deposition in [O2]  is 4.856E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 2.227E+00 [eV.cm-2.s-1] ("shsum").
  9.60086016E+08           2          21
  1.02241613E+09           2          23

 Total Heating :  4.510E+05 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  5.1029678E-03
 entot depart   450979.22       450979.22    
 shsum :  1.09406628E+10  1.61035911E+11  1.61035452E+11  1.61035452E+11
 shsum :  1.11339131E+10  1.82932455E+11  2.18965422E+10  1.82931997E+11
 shsum :  1.12037140E+10  1.93841725E+11  1.09092782E+10  1.93841267E+11
 shsum :  1.15296113E+10  2.08666149E+11  1.48244173E+10  2.08665690E+11
 shsum :  1.15296113E+10  2.08666149E+11   48.560249      2.08665690E+11
 shsum :  1.15296113E+10  2.08666149E+11   2.2274814      2.08665690E+11
 fin  2.08666149E+11  1.15296113E+10   18.752356    
   18.098282    
 -5.74028293E+13   18.752356    
 ezero   0.0000000    
  2.08666149E+11
  3.06109970E+14

Total energy input of :2.162E+11 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 2.087E+11 is absorbed (entot) 
                         through inelastic collisions (shsum =2.087E+11)
                                           + heating (elhsum =4.510E+05)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  18.75 eV (from qtoteV)
                                  or :  18.10 eV (from (entot))
                                  or :******* eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  45.0, longitude 340.0.

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

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

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

 MAIN : The total energy input from the precipitation source is : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]
                                  and from photoelectron source : 3.1381E+11 [eV/cm2/s]
                                                             or : 5.0279E-01 [erg/cm2/s]
 That variable "errorgaupin" is:          101

 MAIN : Total energy deposition in [CO2] is 2.451E+11 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 2.941E+10 [eV.cm-2.s-1] ("shsum").

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

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

 MAIN : Total energy deposition in [O2]  is 5.444E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 2.378E+00 [eV.cm-2.s-1] ("shsum").
  1.05442931E+09           2          21
  1.12486464E+09           2          23

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

Total N I (1200 A to 1744 A) (kR.A):  6.5526464E-03
 entot depart   536897.81       536897.81    
 shsum :  1.61001902E+10  2.45126414E+11  2.45125874E+11  2.45125874E+11
 shsum :  1.63483402E+10  2.74536727E+11  2.94103101E+10  2.74536186E+11
 shsum :  1.64380631E+10  2.89312801E+11  1.47760804E+10  2.89312276E+11
 shsum :  1.68026952E+10  3.06377458E+11  1.70646600E+10  3.06376933E+11
 shsum :  1.68026952E+10  3.06377458E+11   54.439415      3.06376933E+11
 shsum :  1.68026952E+10  3.06377458E+11   2.3780739      3.06376933E+11
 fin  3.06377458E+11  1.68026952E+10   18.676180    
   18.233828    
 -3.93884614E+13   18.676180    
 ezero   0.0000000    
  3.06377458E+11
  2.10902121E+14

Total energy input of :3.138E+11 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 3.064E+11 is absorbed (entot) 
                         through inelastic collisions (shsum =3.064E+11)
                                           + heating (elhsum =5.369E+05)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  18.68 eV (from qtoteV)
                                  or :  18.23 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 : 2.8580E+11 [eV/cm2/s]
                                                             or : 4.5790E-01 [erg/cm2/s]
 That variable "errorgaupin" is:           81

 MAIN : Total energy deposition in [CO2] is 2.207E+11 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 2.736E+10 [eV.cm-2.s-1] ("shsum").

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

 MAIN : Total energy deposition in [O]   is 1.656E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 5.293E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 2.341E+00 [eV.cm-2.s-1] ("shsum").
  1.03317978E+09           2          21
  1.10168960E+09           2          23

 Total Heating :  5.154E+05 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  6.1644157E-03
 entot depart   515378.47       515378.47    
 shsum :  1.46106296E+10  2.20680913E+11  2.20680405E+11  2.20680405E+11
 shsum :  1.48440771E+10  2.48041554E+11  2.73606390E+10  2.48041046E+11
 shsum :  1.49284792E+10  2.61763285E+11  1.37217290E+10  2.61762777E+11
 shsum :  1.52848118E+10  2.78324838E+11  1.65615616E+10  2.78324347E+11
 shsum :  1.52848118E+10  2.78324838E+11   52.934097      2.78324347E+11
 shsum :  1.52848118E+10  2.78324838E+11   2.3409076      2.78324347E+11
 fin  2.78324838E+11  1.52848118E+10   18.697989    
   18.209242    
 -4.32999938E+13   18.697989    
 ezero   0.0000000    
  2.78324838E+11
  2.31575711E+14

Total energy input of :2.858E+11 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 2.783E+11 is absorbed (entot) 
                         through inelastic collisions (shsum =2.783E+11)
                                           + heating (elhsum =5.154E+05)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  18.70 eV (from qtoteV)
                                  or :  18.21 eV (from (entot))
                                  or :******* eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  55.0, longitude 340.0.

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

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

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

 MAIN : The total energy input from the precipitation source is : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]
                                  and from photoelectron source : 2.5568E+11 [eV/cm2/s]
                                                             or : 4.0966E-01 [erg/cm2/s]
 That variable "errorgaupin" is:           97

 MAIN : Total energy deposition in [CO2] is 1.947E+11 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 2.507E+10 [eV.cm-2.s-1] ("shsum").

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

 MAIN : Total energy deposition in [O]   is 1.589E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 5.120E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 2.297E+00 [eV.cm-2.s-1] ("shsum").
  1.00602176E+09           2          21
  1.07222810E+09           2          23

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

Total N I (1200 A to 1744 A) (kR.A):  5.7234592E-03
 entot depart   489819.19       489819.19    
 shsum :  1.30178970E+10  1.94674262E+11  1.94673770E+11  1.94673770E+11
 shsum :  1.32346450E+10  2.19740013E+11  2.50657485E+10  2.19739521E+11
 shsum :  1.33129892E+10  2.32280490E+11  1.25404733E+10  2.32279998E+11
 shsum :  1.36577556E+10  2.48170676E+11  1.58901801E+10  2.48170185E+11
 shsum :  1.36577556E+10  2.48170676E+11   51.195797      2.48170185E+11
 shsum :  1.36577556E+10  2.48170676E+11   2.2968020      2.48170185E+11
 fin  2.48170676E+11  1.36577556E+10   18.720709    
   18.170677    
 -4.84583502E+13   18.720709    
 ezero   0.0000000    
  2.48170676E+11
  2.58848904E+14

Total energy input of :2.557E+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 =4.898E+05)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  18.72 eV (from qtoteV)
                                  or :  18.17 eV (from (entot))
                                  or :******* eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  60.0, longitude 340.0.

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

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

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

 MAIN : The total energy input from the precipitation source is : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]
                                  and from photoelectron source : 2.2384E+11 [eV/cm2/s]
                                                             or : 3.5863E-01 [erg/cm2/s]
 That variable "errorgaupin" is:           85

 MAIN : Total energy deposition in [CO2] is 1.675E+11 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 2.252E+10 [eV.cm-2.s-1] ("shsum").

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

 MAIN : Total energy deposition in [O]   is 1.500E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 4.919E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 2.244E+00 [eV.cm-2.s-1] ("shsum").
  9.70758912E+08           2          21
  1.03416518E+09           2          23

 Total Heating :  4.593E+05 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  5.2253813E-03
 entot depart   459349.75       459349.75    
 shsum :  1.13425654E+10  1.67535559E+11  1.67535100E+11  1.67535100E+11
 shsum :  1.15404513E+10  1.90053499E+11  2.25179443E+10  1.90053040E+11
 shsum :  1.16119357E+10  2.01282109E+11  1.12286106E+10  2.01281651E+11
 shsum :  1.19407790E+10  2.16283693E+11  1.50015898E+10  2.16283234E+11
 shsum :  1.19407790E+10  2.16283693E+11   49.187569      2.16283234E+11
 shsum :  1.19407790E+10  2.16283693E+11   2.2441955      2.16283234E+11
 fin  2.16283693E+11  1.19407790E+10   18.745750    
   18.113029    
 -5.54262216E+13   18.745750    
 ezero   0.0000000    
  2.16283693E+11
  2.95673535E+14

Total energy input of :2.238E+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 =4.593E+05)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  18.75 eV (from qtoteV)
                                  or :  18.11 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 : 3.2240E+11 [eV/cm2/s]
                                                             or : 5.1654E-01 [erg/cm2/s]
 That variable "errorgaupin" is:          121

 MAIN : Total energy deposition in [CO2] is 2.527E+11 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 3.002E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 1.509E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 1.717E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 5.501E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 2.392E+00 [eV.cm-2.s-1] ("shsum").
  1.06224723E+09           2          21
  1.13367770E+09           2          23

 Total Heating :  5.440E+05 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  6.6690897E-03
 entot depart   543992.38       543992.38    
 shsum :  1.65580022E+10  2.52668756E+11  2.52668215E+11  2.52668215E+11
 shsum :  1.68105615E+10  2.82692911E+11  3.00241592E+10  2.82692387E+11
 shsum :  1.69018819E+10  2.97785426E+11  1.50925076E+10  2.97784902E+11
 shsum :  1.72680458E+10  3.14957464E+11  1.71720315E+10  3.14956939E+11
 shsum :  1.72680458E+10  3.14957464E+11   55.011200      3.14956939E+11
 shsum :  1.72680458E+10  3.14957464E+11   2.3924570      3.14956939E+11
 fin  3.14957464E+11  1.72680458E+10   18.670094    
   18.239323    
 -3.83269921E+13   18.670094    
 ezero   0.0000000    
  3.14957464E+11
  2.05285495E+14

Total energy input of :3.224E+11 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 3.150E+11 is absorbed (entot) 
                         through inelastic collisions (shsum =3.150E+11)
                                           + heating (elhsum =5.440E+05)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  18.67 eV (from qtoteV)
                                  or :  18.24 eV (from (entot))
                                  or :******* eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  50.0, longitude 345.0.

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

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

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

 MAIN : The total energy input from the precipitation source is : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]
                                  and from photoelectron source : 2.9357E+11 [eV/cm2/s]
                                                             or : 4.7035E-01 [erg/cm2/s]
 That variable "errorgaupin" is:           86

 MAIN : Total energy deposition in [CO2] is 2.275E+11 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 2.793E+10 [eV.cm-2.s-1] ("shsum").

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

 MAIN : Total energy deposition in [O]   is 1.667E+10 [eV.cm-2.s-1] ("shsum").

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

 MAIN : Total energy deposition in [O+]  is 2.355E+00 [eV.cm-2.s-1] ("shsum").
  1.04111168E+09           2          21
  1.11060096E+09           2          23

 Total Heating :  5.223E+05 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  6.2733656E-03
 entot depart   522319.59       522319.59    
 shsum :  1.50247526E+10  2.27472048E+11  2.27471524E+11  2.27471524E+11
 shsum :  1.52623258E+10  2.55404589E+11  2.79325348E+10  2.55404065E+11
 shsum :  1.53482230E+10  2.69420790E+11  1.40161966E+10  2.69420265E+11
 shsum :  1.57060198E+10  2.86086070E+11  1.66652662E+10  2.86085546E+11
 shsum :  1.57060198E+10  2.86086070E+11   53.493549      2.86085546E+11
 shsum :  1.57060198E+10  2.86086070E+11   2.3551190      2.86085546E+11
 fin  2.86086070E+11  1.57060198E+10   18.691385    
   18.215059    
 -4.21387672E+13   18.691385    
 ezero   0.0000000    
  2.86086070E+11
  2.25444863E+14

Total energy input of :2.936E+11 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 2.861E+11 is absorbed (entot) 
                         through inelastic collisions (shsum =2.861E+11)
                                           + heating (elhsum =5.223E+05)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  18.69 eV (from qtoteV)
                                  or :  18.22 eV (from (entot))
                                  or :******* eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  55.0, longitude 345.0.

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

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

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

 MAIN : The total energy input from the precipitation source is : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]
                                  and from photoelectron source : 2.6262E+11 [eV/cm2/s]
                                                             or : 4.2077E-01 [erg/cm2/s]
 That variable "errorgaupin" is:           84

 MAIN : Total energy deposition in [CO2] is 2.007E+11 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 2.559E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 1.281E+10 [eV.cm-2.s-1] ("shsum").

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

 MAIN : Total energy deposition in [O2]  is 5.174E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 2.311E+00 [eV.cm-2.s-1] ("shsum").
  1.01406822E+09           2          21
  1.08122611E+09           2          23

 Total Heating :  4.966E+05 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  5.8245524E-03
 entot depart   496557.44       496557.44    
 shsum :  1.33857628E+10  2.00696185E+11  2.00695693E+11  2.00695693E+11
 shsum :  1.36063396E+10  2.26287698E+11  2.55915110E+10  2.26287206E+11
 shsum :  1.36860703E+10  2.39098528E+11  1.28108278E+10  2.39098036E+11
 shsum :  1.40323062E+10  2.55091491E+11  1.59929590E+10  2.55090999E+11
 shsum :  1.40323062E+10  2.55091491E+11   51.737011      2.55090999E+11
 shsum :  1.40323062E+10  2.55091491E+11   2.3107362      2.55090999E+11
 fin  2.55091491E+11  1.40323062E+10   18.715258    
   18.178871    
 -4.71648981E+13   18.715258    
 ezero   0.0000000    
  2.55091491E+11
  2.52013078E+14

Total energy input of :2.626E+11 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 2.551E+11 is absorbed (entot) 
                         through inelastic collisions (shsum =2.551E+11)
                                           + heating (elhsum =4.966E+05)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  18.72 eV (from qtoteV)
                                  or :  18.18 eV (from (entot))
                                  or :******* eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  60.0, longitude 345.0.

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

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

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

 MAIN : The total energy input from the precipitation source is : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]
                                  and from photoelectron source : 2.2984E+11 [eV/cm2/s]
                                                             or : 3.6826E-01 [erg/cm2/s]
 That variable "errorgaupin" is:           92

 MAIN : Total energy deposition in [CO2] is 1.727E+11 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 2.299E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 1.147E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 1.511E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 4.970E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 2.258E+00 [eV.cm-2.s-1] ("shsum").
  9.78937280E+08           2          21
  1.04325530E+09           2          23

 Total Heating :  4.658E+05 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  5.3170854E-03
 entot depart   465835.53       465835.53    
 shsum :  1.16600904E+10  1.72702220E+11  1.72701762E+11  1.72701762E+11
 shsum :  1.18614497E+10  1.95692528E+11  2.29903032E+10  1.95692069E+11
 shsum :  1.19341937E+10  2.07163818E+11  1.14712945E+10  2.07163359E+11
 shsum :  1.22645760E+10  2.22269587E+11  1.51057715E+10  2.22269129E+11
 shsum :  1.22645760E+10  2.22269587E+11   49.704094      2.22269129E+11
 shsum :  1.22645760E+10  2.22269587E+11   2.2577343      2.22269129E+11
 fin  2.22269587E+11  1.22645760E+10   18.740427    
   18.122892    
 -5.39629170E+13   18.740427    
 ezero   0.0000000    
  2.22269587E+11
  2.87949204E+14

Total energy input of :2.298E+11 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 2.223E+11 is absorbed (entot) 
                         through inelastic collisions (shsum =2.223E+11)
                                           + heating (elhsum =4.658E+05)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  18.74 eV (from qtoteV)
                                  or :  18.12 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 : 3.2856E+11 [eV/cm2/s]
                                                             or : 5.2642E-01 [erg/cm2/s]
 That variable "errorgaupin" is:           90

 MAIN : Total energy deposition in [CO2] is 2.582E+11 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 3.044E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 1.531E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 1.720E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 5.547E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 2.404E+00 [eV.cm-2.s-1] ("shsum").
  1.06799034E+09           2          21
  1.14026893E+09           2          23

 Total Heating :  5.492E+05 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  6.7458800E-03
 entot depart   549153.94       549153.94    
 shsum :  1.68886886E+10  2.58160148E+11  2.58159591E+11  2.58159591E+11
 shsum :  1.71441562E+10  2.88599212E+11  3.04390636E+10  2.88598655E+11
 shsum :  1.72365271E+10  3.03905735E+11  1.53065114E+10  3.03905178E+11
 shsum :  1.76027341E+10  3.21106280E+11  1.72005581E+10  3.21105723E+11
 shsum :  1.76027341E+10  3.21106280E+11   55.470009      3.21105723E+11
 shsum :  1.76027341E+10  3.21106280E+11   2.4037752      3.21105723E+11
 fin  3.21106280E+11  1.76027341E+10   18.665386    
   18.241840    
 -3.75982653E+13   18.665386    
 ezero   0.0000000    
  3.21106280E+11
  2.01433094E+14

Total energy input of :3.286E+11 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 3.211E+11 is absorbed (entot) 
                         through inelastic collisions (shsum =3.211E+11)
                                           + heating (elhsum =5.492E+05)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  18.67 eV (from qtoteV)
                                  or :  18.24 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 : 2.9916E+11 [eV/cm2/s]
                                                             or : 4.7932E-01 [erg/cm2/s]
 That variable "errorgaupin" is:          102

 MAIN : Total energy deposition in [CO2] is 2.324E+11 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 2.832E+10 [eV.cm-2.s-1] ("shsum").

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

 MAIN : Total energy deposition in [O]   is 1.669E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 5.394E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 2.366E+00 [eV.cm-2.s-1] ("shsum").
  1.04688826E+09           2          21
  1.11720563E+09           2          23

 Total Heating :  5.273E+05 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  6.3454667E-03
 entot depart   527348.88       527348.88    
 shsum :  1.53246044E+10  2.32434172E+11  2.32433648E+11  2.32433648E+11
 shsum :  1.55649085E+10  2.60754620E+11  2.83204526E+10  2.60754096E+11
 shsum :  1.56517919E+10  2.74970509E+11  1.42158981E+10  2.74969985E+11
 shsum :  1.60096031E+10  2.91662823E+11  1.66923172E+10  2.91662299E+11
 shsum :  1.60096031E+10  2.91662823E+11   53.941124      2.91662299E+11
 shsum :  1.60096031E+10  2.91662823E+11   2.3662639      2.91662299E+11
 fin  2.91662823E+11  1.60096031E+10   18.686543    
   18.217993    
 -4.13397061E+13   18.686543    
 ezero   0.0000000    
  2.91662823E+11
  2.21227155E+14

Total energy input of :2.992E+11 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 2.917E+11 is absorbed (entot) 
                         through inelastic collisions (shsum =2.917E+11)
                                           + heating (elhsum =5.273E+05)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  18.69 eV (from qtoteV)
                                  or :  18.22 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 : 2.6761E+11 [eV/cm2/s]
                                                             or : 4.2876E-01 [erg/cm2/s]
 That variable "errorgaupin" is:           85

 MAIN : Total energy deposition in [CO2] is 2.051E+11 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 2.595E+10 [eV.cm-2.s-1] ("shsum").

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

 MAIN : Total energy deposition in [O]   is 1.602E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 5.217E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 2.322E+00 [eV.cm-2.s-1] ("shsum").
  1.01987603E+09           2          21
  1.08782925E+09           2          23

 Total Heating :  5.014E+05 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  5.8914907E-03
 entot depart   501420.44       501420.44    
 shsum :  1.36521492E+10  2.05094748E+11  2.05094240E+11  2.05094240E+11
 shsum :  1.38752614E+10  2.31043416E+11  2.59486618E+10  2.31042908E+11
 shsum :  1.39559076E+10  2.44037779E+11  1.29943685E+10  2.44037272E+11
 shsum :  1.43022019E+10  2.60059398E+11  1.60216207E+10  2.60058890E+11
 shsum :  1.43022019E+10  2.60059398E+11   52.168152      2.60058890E+11
 shsum :  1.43022019E+10  2.60059398E+11   2.3216105      2.60058890E+11
 fin  2.60059398E+11  1.43022019E+10   18.710987    
   18.183172    
 -4.62748543E+13   18.710987    
 ezero   0.0000000    
  2.60059398E+11
  2.47313813E+14

Total energy input of :2.676E+11 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 2.601E+11 is absorbed (entot) 
                         through inelastic collisions (shsum =2.601E+11)
                                           + heating (elhsum =5.014E+05)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  18.71 eV (from qtoteV)
                                  or :  18.18 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 : 2.3417E+11 [eV/cm2/s]
                                                             or : 3.7518E-01 [erg/cm2/s]
 That variable "errorgaupin" is:           77

 MAIN : Total energy deposition in [CO2] is 1.765E+11 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 2.331E+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 1.514E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 5.011E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 2.268E+00 [eV.cm-2.s-1] ("shsum").
  9.84768896E+08           2          21
  1.04983674E+09           2          23

 Total Heating :  4.705E+05 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  5.3779953E-03
 entot depart   470490.63       470490.63    
 shsum :  1.18902026E+10  1.76481042E+11  1.76480567E+11  1.76480567E+11
 shsum :  1.20938680E+10  1.99793213E+11  2.33121649E+10  1.99792738E+11
 shsum :  1.21674455E+10  2.11429736E+11  1.16365189E+10  2.11429261E+11
 shsum :  1.24980163E+10  2.26569224E+11  1.51394898E+10  2.26568749E+11
 shsum :  1.24980163E+10  2.26569224E+11   50.112587      2.26568749E+11
 shsum :  1.24980163E+10  2.26569224E+11   2.2682171      2.26568749E+11
 fin  2.26569224E+11  1.24980163E+10   18.736341    
   18.128414    
 -5.29549880E+13   18.736341    
 ezero   0.0000000    
  2.26569224E+11
  2.82632504E+14

Total energy input of :2.342E+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 =4.705E+05)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  18.74 eV (from qtoteV)
                                  or :  18.13 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 : 3.3226E+11 [eV/cm2/s]
                                                             or : 5.3234E-01 [erg/cm2/s]
 That variable "errorgaupin" is:           85

 MAIN : Total energy deposition in [CO2] is 2.615E+11 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 3.065E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 1.542E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 1.715E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 5.582E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 2.412E+00 [eV.cm-2.s-1] ("shsum").
  1.07171770E+09           2          21
  1.14469427E+09           2          23

 Total Heating :  5.524E+05 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  6.7830230E-03
 entot depart   552425.63       552425.63    
 shsum :  1.70893169E+10  2.61548360E+11  2.61547803E+11  2.61547803E+11
 shsum :  1.73461914E+10  2.92202676E+11  3.06543084E+10  2.92202119E+11
 shsum :  1.74390682E+10  3.07620381E+11  1.54176963E+10  3.07619824E+11
 shsum :  1.78038764E+10  3.24772987E+11  1.71525949E+10  3.24772430E+11
 shsum :  1.78038764E+10  3.24772987E+11   55.817684      3.24772430E+11
 shsum :  1.78038764E+10  3.24772987E+11   2.4121099      3.24772430E+11
 fin  3.24772987E+11  1.78038764E+10   18.662046    
   18.241701    
 -3.71734956E+13   18.662046    
 ezero   0.0000000    
  3.24772987E+11
  1.99193017E+14

Total energy input of :3.323E+11 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 3.248E+11 is absorbed (entot) 
                         through inelastic collisions (shsum =3.248E+11)
                                           + heating (elhsum =5.524E+05)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  18.66 eV (from qtoteV)
                                  or :  18.24 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 : 3.0255E+11 [eV/cm2/s]
                                                             or : 4.8474E-01 [erg/cm2/s]
 That variable "errorgaupin" is:           89

 MAIN : Total energy deposition in [CO2] is 2.355E+11 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 2.852E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 1.432E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 1.665E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 5.428E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 2.374E+00 [eV.cm-2.s-1] ("shsum").
  1.05058170E+09           2          21
  1.12157299E+09           2          23

 Total Heating :  5.305E+05 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  6.3809021E-03
 entot depart   530506.75       530506.75    
 shsum :  1.55077315E+10  2.35523965E+11  2.35523441E+11  2.35523441E+11
 shsum :  1.57493770E+10  2.64048247E+11  2.85242778E+10  2.64047722E+11
 shsum :  1.58367416E+10  2.78368977E+11  1.43207322E+10  2.78368453E+11
 shsum :  1.61931745E+10  2.95014531E+11  1.66455603E+10  2.95014007E+11
 shsum :  1.61931745E+10  2.95014531E+11   54.278149      2.95014007E+11
 shsum :  1.61931745E+10  2.95014531E+11   2.3744106      2.95014007E+11
 fin  2.95014531E+11  1.61931745E+10   18.683506    
   18.218449    
 -4.08710640E+13   18.683506    
 ezero   0.0000000    
  2.95014531E+11
  2.18754798E+14

Total energy input of :3.025E+11 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 2.950E+11 is absorbed (entot) 
                         through inelastic collisions (shsum =2.950E+11)
                                           + heating (elhsum =5.305E+05)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  18.68 eV (from qtoteV)
                                  or :  18.22 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 : 2.7061E+11 [eV/cm2/s]
                                                             or : 4.3358E-01 [erg/cm2/s]
 That variable "errorgaupin" is:          107

 MAIN : Total energy deposition in [CO2] is 2.078E+11 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 2.614E+10 [eV.cm-2.s-1] ("shsum").

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

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

 MAIN : Total energy deposition in [O2]  is 5.249E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 2.329E+00 [eV.cm-2.s-1] ("shsum").
  1.02351200E+09           2          21
  1.09210304E+09           2          23

 Total Heating :  5.044E+05 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  5.9243524E-03
 entot depart   504445.09       504445.09    
 shsum :  1.38147133E+10  2.07829156E+11  2.07828648E+11  2.07828648E+11
 shsum :  1.40390697E+10  2.33965863E+11  2.61367112E+10  2.33965355E+11
 shsum :  1.41201613E+10  2.47056712E+11  1.30908436E+10  2.47056204E+11
 shsum :  1.44651551E+10  2.63035404E+11  1.59786926E+10  2.63034896E+11
 shsum :  1.44651551E+10  2.63035404E+11   52.490601      2.63034896E+11
 shsum :  1.44651551E+10  2.63035404E+11   2.3294935      2.63034896E+11
 fin  2.63035404E+11  1.44651551E+10   18.708017    
   18.184071    
 -4.57535568E+13   18.708017    
 ezero   0.0000000    
  2.63035404E+11
  2.44566561E+14

Total energy input of :2.706E+11 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 2.630E+11 is absorbed (entot) 
                         through inelastic collisions (shsum =2.630E+11)
                                           + heating (elhsum =5.044E+05)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  18.71 eV (from qtoteV)
                                  or :  18.18 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 : 2.3677E+11 [eV/cm2/s]
                                                             or : 3.7936E-01 [erg/cm2/s]
 That variable "errorgaupin" is:           96

 MAIN : Total energy deposition in [CO2] is 1.788E+11 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 2.348E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 1.172E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 1.511E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 5.041E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 2.276E+00 [eV.cm-2.s-1] ("shsum").
  9.88341248E+08           2          21
  1.05399731E+09           2          23

 Total Heating :  4.733E+05 eV cm-2 sec-1

Total N I (1200 A to 1744 A) (kR.A):  5.4081166E-03
 entot depart   473348.69       473348.69    
 shsum :  1.20307343E+10  1.78832097E+11  1.78831622E+11  1.78831622E+11
 shsum :  1.22355405E+10  2.02314908E+11  2.34828124E+10  2.02314433E+11
 shsum :  1.23095276E+10  2.14038856E+11  1.17239511E+10  2.14038381E+11
 shsum :  1.26389842E+10  2.29143904E+11  1.51050527E+10  2.29143429E+11
 shsum :  1.26389842E+10  2.29143904E+11   50.414383      2.29143429E+11
 shsum :  1.26389842E+10  2.29143904E+11   2.2757154      2.29143429E+11
 fin  2.29143904E+11  1.26389842E+10   18.733444    
   18.129930    
 -5.23643587E+13   18.733444    
 ezero   0.0000000    
  2.29143904E+11
  2.79523384E+14

Total energy input of :2.368E+11 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 2.291E+11 is absorbed (entot) 
                         through inelastic collisions (shsum =2.291E+11)
                                           + heating (elhsum =4.733E+05)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  18.73 eV (from qtoteV)
                                  or :  18.13 eV (from (entot))
                                  or :******* eV (from (qtoteV-qsump))
