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Defines | |
#define | ENERGY_H2_STAR (4100.) |
#define | CR_PRINT false |
#define | CR_X 1 |
#define | CR_VIB 15 |
#define | CR_J 10 |
#define | CR_EXIT 3 |
#define | N_X_COLLIDER 6 |
#define | VIB_COLLID 3 |
#define | nTE_HMINUS 7 |
Functions | |
double | H2_He_coll (int init, int final, double temp) |
long int | H2_He_coll_init (char FILE_NAME_IN[]) |
void | H2_ReadEnergies (long int nelec) |
void | H2_ReadDissprob (long int nelec) |
void | H2_ReadCollRates (long int nColl) |
void | H2_ReadTransprob (long int nelec) |
void | H2_Read_hminus_distribution (void) |
void | mole_H2_form (void) |
void | mole_H2_LTE (void) |
void | H2_Solomon_rate (void) |
void | H2_gs_rates (void) |
void | H2_zero_pops_too_low (void) |
Variables | |
EXTERN long int | nEner_H2_ground |
EXTERN double *** | H2_populations |
EXTERN double *** | H2_rad_rate_out |
EXTERN double ** | pops_per_vib |
EXTERN double | H2_renorm_chemistry |
EXTERN double | H2_sum_excit_elec_den |
EXTERN float ** | H2_X_colden |
EXTERN double ** | H2_X_rate_from_elec_excited |
EXTERN double ** | H2_X_rate_to_elec_excited |
EXTERN float ** | H2_X_coll_rate |
EXTERN float ** | H2_X_colden_LTE |
EXTERN long int | nLevels_per_elec [N_H2_ELEC] |
EXTERN double | pops_per_elec [N_H2_ELEC] |
EXTERN double *** | energy_wn |
EXTERN float ****** | CollRateFit |
EXTERN float *** | H2_dissprob |
EXTERN float *** | H2_disske |
EXTERN float ***** | H2_CollRate |
EXTERN double *** | H2_old_populations |
EXTERN double *** | H2_Boltzmann |
EXTERN double *** | H2_populations_LTE |
EXTERN float *** | H2_stat |
EXTERN int *** | H2_lgOrtho |
EXTERN long int | nzoneAsEval |
EXTERN long int | iterationAsEval |
EXTERN int ** | H2_ipPhoto |
EXTERN double ** | H2_col_rate_in |
EXTERN double ** | H2_col_rate_out |
EXTERN double ** | H2_rad_rate_in |
EXTERN float * | H2_X_source |
EXTERN float * | H2_X_sink |
EXTERN float *** | H2_X_grain_formation_distribution |
EXTERN float ** | H2_X_formation |
EXTERN float ** | H2_X_Hmin_back |
EXTERN float ** | H2_coll_dissoc_rate_coef |
EXTERN float ** | H2_coll_dissoc_rate_coef_H2 |
EXTERN double | H2_den_s |
EXTERN double | H2_den_g |
EXTERN float *** | H2_X_hminus_formation_distribution |
EXTERN float * | H2_Xenergies |
EXTERN long int * | H2_ipX_ener_sort |
EXTERN long int * | ipVib_H2_energy_sort |
EXTERN long int * | ipRot_H2_energy_sort |
EXTERN long int ** | ipEnergySort |
EXTERN long int | nXLevelsMatrix |
EXTERN float ****** | H2_SaveLine |
EXTERN int ****** | lgH2_line_exists |
EXTERN long int | nH2_pops |
EXTERN long int | nH2_zone |
EXTERN long int | nzone_nlevel_set |
EXTERN long int | nCallH2_this_iteration |
int | H2_nRot_add_ortho_para [N_H2_ELEC] |
double | H2_DissocEnergies [N_H2_ELEC] |
float | H2_te_hminus [nTE_HMINUS] |
#define ENERGY_H2_STAR (4100.) |
this is the energy, above which levels are considered to be H2*, and below which they are H2 - it is converted from eV into wavenumbers since energy scale energy_wn[][][] is in these terms
Definition at line 16 of file h2_priv.h.
Referenced by H2_Create(), H2_LevelPops(), and mole_H2_form().
#define N_X_COLLIDER 6 |
the number of different types of colliders >>chng 05 oct 02, from 5 to 6, to include new He collisions there are now two He collisions, and only one is used at one time old is Meudon and new is Oak Ridge collaboration
Definition at line 83 of file h2_priv.h.
Referenced by H2_collid_rates(), H2_Cooling(), H2_Create(), H2_ReadCollRates(), and H2_X_coll_rate_evaluate().
#define nTE_HMINUS 7 |
the number of temperature points in the data file
Definition at line 89 of file h2_priv.h.
Referenced by H2_Create(), H2_Read_hminus_distribution(), and mole_H2_form().
#define VIB_COLLID 3 |
this is the highest vib state that has collision data
Definition at line 86 of file h2_priv.h.
Referenced by H2_Cooling(), H2_Create(), and H2_ReadCollRates().
void H2_gs_rates | ( | void | ) |
H2_gs_rates evaluate rates between ground and star states of H2 for use in chemistry
Definition at line 153 of file mole_h2_etc.cpp.
References EmLine::Aul, DEBUG_ENTRY, DEBUG_EXIT, h2, H2_den_g, H2_dissprob, t_hmi::H2_H2g_to_H2s_rate_BigH2, H2_ipX_ener_sort, H2_populations, H2_rad_rate_out, H2Lines, hmi, ipRot_H2_energy_sort, ipVib_H2_energy_sort, t_h2::Jlowest, lgH2_line_exists, MAX2, mole, t_mole::n_h2_elec_states, nEner_H2_ground, t_h2::nRot_hi, t_h2::nVib_hi, EmLine::Pdest, EmLine::Pelec_esc, EmLine::Pesc, EmLine::pump, and SDIV().
Referenced by H2_LevelPops().
double H2_He_coll | ( | int | init, | |
int | final, | |||
double | temp | |||
) |
H2_He_coll Interpolate the rate coefficeints The range of the temperature is between 2K - 1e8K
init | ||
final | ||
temp |
Definition at line 739 of file mole_h2_etc.cpp.
References b2, defn, fit_par, and ioQQQ.
Referenced by H2_collid_rates().
long int H2_He_coll_init | ( | char | FILE_NAME_IN[] | ) |
H2_He_coll_init receives the name of the file that contrains the fitting coefficeints of all transitions and read into 3d vectors. It outputs 'test.out' to test the arrays return value is magic number
FILE_NAME_IN[] |
Definition at line 638 of file mole_h2_etc.cpp.
References defn, fit_par, ioQQQ, nl, nu, Num_fit_par, par, and SizeOf_line.
Referenced by H2_ReadCollRates().
void H2_Read_hminus_distribution | ( | void | ) |
H2_Read_hminus_distribution read distribution function for H2 population following formation from H minus
Definition at line 1220 of file mole_h2_io.cpp.
References ASSERT, BadRead(), cdEXIT(), chDataPath, DEBUG_EXIT, FFmtRead(), FILENAME_PATH_LENGTH_2, h2, H2_te_hminus, H2_X_hminus_formation_distribution, H2HMINUS_PRT, INPUT_LINE_LENGTH, ioQQQ, t_h2::Jlowest, lgDataPathSet, t_h2::nRot_hi, nTE_HMINUS, and t_h2::nVib_hi.
Referenced by H2_Create().
void H2_ReadCollRates | ( | long int | nColl | ) |
read collision rates
nColl |
Definition at line 507 of file mole_h2_io.cpp.
References COmole_rate_s::a, ASSERT, BadRead(), cdEXIT(), chDataPath, CollRateFit, DEBUG_ENTRY, DEBUG_EXIT, energy_wn, FFmtRead(), FILENAME_PATH_LENGTH_2, h2, H2_He_coll_init(), INPUT_LINE_LENGTH, ioQQQ, lgDataPathSet, N_X_COLLIDER, t_h2::nRot_hi, path_not_set(), and VIB_COLLID.
Referenced by H2_Create().
void H2_ReadDissprob | ( | long int | nelec | ) |
read dissociation probabilities and kinetic energies for all electronic levels
nelec |
Definition at line 1092 of file mole_h2_io.cpp.
References ASSERT, COmole_rate_s::b, BadRead(), cdEXIT(), chDataPath, DEBUG_ENTRY, FFmtRead(), FILENAME_PATH_LENGTH_2, h2, H2_disske, H2_dissprob, INPUT_LINE_LENGTH, ioQQQ, t_h2::Jlowest, lgDataPathSet, N_H2_ELEC, t_h2::nRot_hi, and t_h2::nVib_hi.
Referenced by H2_Create().
void H2_ReadEnergies | ( | long int | nelec | ) |
read energies for all electronic levels
nelec |
Definition at line 963 of file mole_h2_io.cpp.
References ASSERT, BadRead(), cdEXIT(), chDataPath, DEBUG_ENTRY, DEBUG_EXIT, energy_wn, FFmtRead(), FILENAME_PATH_LENGTH_2, h2, INPUT_LINE_LENGTH, ioQQQ, t_h2::Jlowest, lgDataPathSet, N_H2_ELEC, nLevels_per_elec, t_h2::nRot_hi, and t_h2::nVib_hi.
Referenced by H2_Create().
void H2_ReadTransprob | ( | long int | nelec | ) |
read transition probabilities
nelec |
Definition at line 667 of file mole_h2_io.cpp.
References ASSERT, EmLine::Aul, BadRead(), cdEXIT(), chDataPath, DEBUG_ENTRY, DEBUG_EXIT, energy_wn, FFmtRead(), FILENAME_PATH_LENGTH_2, h2, H2Lines, INPUT_LINE_LENGTH, ioQQQ, lgDataPathSet, lgH2_line_exists, N_H2_ELEC, t_h2::nRot_hi, t_h2::nVib_hi, and ShowMe().
Referenced by H2_Create().
void H2_Solomon_rate | ( | void | ) |
H2_Solomon_rate find rates between H2s and H2g and other levels, for use in the chemistry
Definition at line 22 of file mole_h2_etc.cpp.
References EmLine::Aul, DEBUG_ENTRY, DEBUG_EXIT, h2, H2_den_g, H2_den_s, H2_dissprob, t_hmi::H2_H2g_to_H2s_rate_BigH2, H2_ipX_ener_sort, H2_populations, H2_rad_rate_out, t_hmi::H2_Solomon_dissoc_rate_BigH2_H2g, t_hmi::H2_Solomon_dissoc_rate_BigH2_H2s, t_hmi::H2_Solomon_elec_decay_H2g, t_hmi::H2_Solomon_elec_decay_H2s, H2_sum_excit_elec_den, t_hmi::H2_total, H2Lines, hmi, iplo, ipRot_H2_energy_sort, ipVib_H2_energy_sort, t_h2::Jlowest, lgH2_line_exists, mole, t_mole::n_h2_elec_states, nEner_H2_ground, nLevels_per_elec, t_h2::nRot_hi, t_h2::nVib_hi, EmLine::Pdest, EmLine::Pelec_esc, EmLine::Pesc, EmLine::pump, SDIV(), and SMALLFLOAT.
Referenced by H2_LevelPops().
void H2_zero_pops_too_low | ( | void | ) |
H2_zero_pops_too_low - zero out some H2 variables if we decide not to compute the full sim, called by H2_LevelPops
Definition at line 224 of file mole_h2_etc.cpp.
References EmLine::ColOvTot, EmLine::cool, DEBUG_ENTRY, DEBUG_EXIT, t_hmi::deriv_HeatH2Dexc_BigH2, EmLine::gHi, EmLine::gLo, h2, t_hmi::H2_H2g_to_H2s_rate_BigH2, H2_old_populations, t_hmi::H2_photodissoc_BigH2_H2g, t_hmi::H2_photodissoc_BigH2_H2s, H2_populations, H2_populations_LTE, t_hmi::H2_Solomon_dissoc_rate_BigH2_H2g, t_hmi::H2_Solomon_dissoc_rate_BigH2_H2s, t_hmi::H2_total, H2Lines, EmLine::heat, t_hmi::HeatH2Dexc_BigH2, t_hmi::HeatH2Dish_BigH2, hmi, t_h2::Jlowest, lgH2_line_exists, mole, t_mole::n_h2_elec_states, t_h2::nRot_hi, t_h2::nVib_hi, EmLine::ots, EmLine::phots, EmLine::PopHi, EmLine::PopLo, EmLine::PopOpc, pops_per_elec, pops_per_vib, and EmLine::xIntensity.
Referenced by H2_LevelPops().
void mole_H2_form | ( | void | ) |
mole_H2_form find state specific rates grains and H- form H2
Definition at line 13 of file mole_h2_form.cpp.
References t_phycon::alogte, ASSERT, t_hmi::assoc_detach, t_hmi::bh2h2p, t_gv::bin, DEBUG_ENTRY, DEBUG_EXIT, dense, ENERGY_H2_STAR, energy_wn, gv, h2, t_hmi::H2_forms_grains, t_hmi::H2_forms_hminus, H2_te_hminus, H2_X_formation, H2_X_grain_formation_distribution, H2_X_Hmin_back, H2_X_hminus_formation_distribution, t_hmi::H2star_forms_grains, t_hmi::H2star_forms_hminus, hmi, t_hmi::Hmolec, ipHYDROGEN, ipMH2p, ipMHm, t_h2::Jlowest, GrainBin::matType, t_gv::nBin, t_h2::nRot_hi, nTE_HMINUS, t_h2::nVib_hi, phycon, GrainBin::rate_h2_form_grains_used, t_gv::which_H2distr, and t_dense::xIonDense.
Referenced by H2_LevelPops().
void mole_H2_LTE | ( | void | ) |
mole_H2_LTE sets Boltzmann factors and LTE unit population of large H2 molecular
Definition at line 330 of file mole_h2_etc.cpp.
References ASSERT, DEBUG_ENTRY, DEBUG_EXIT, energy_wn, h2, H2_Boltzmann, H2_populations_LTE, H2_stat, ioQQQ, t_h2::Jlowest, mole, t_mole::n_h2_elec_states, t_mole::nH2_TRACE, t_mole::nH2_trace_full, t_h2::nRot_hi, t_h2::nVib_hi, phycon, sexp(), t_phycon::te, and t_phycon::te_wn.
Referenced by H2_LevelPops().
EXTERN float****** CollRateFit |
this is the actual rate, cm^3 s^-1, for each collider CollRate[coll_type][vib_up][rot_up][vib_lo][rot_lo]
Definition at line 133 of file h2_priv.h.
Referenced by H2_collid_rates(), H2_Create(), and H2_ReadCollRates().
EXTERN double*** energy_wn |
energy in wavenumbers
Definition at line 129 of file h2_priv.h.
Referenced by cdH2_Line(), EH2_eval(), H2_collid_rates(), H2_Cooling(), H2_Create(), H2_Level_low_matrix(), H2_LevelPops(), H2_PunchDo(), H2_ReadCollRates(), H2_ReadEnergies(), H2_ReadTransprob(), H2_vib_dist(), mole_H2_form(), and mole_H2_LTE().
EXTERN double*** H2_Boltzmann |
Definition at line 142 of file h2_priv.h.
Referenced by H2_Cooling(), H2_Create(), H2_Level_low_matrix(), H2_LevelPops(), H2_X_coll_rate_evaluate(), and mole_H2_LTE().
EXTERN double** H2_col_rate_in |
Definition at line 154 of file h2_priv.h.
Referenced by H2_Create(), H2_LevelPops(), and H2_PunchDo().
EXTERN double** H2_col_rate_out |
Definition at line 155 of file h2_priv.h.
Referenced by H2_Create(), H2_LevelPops(), and H2_PunchDo().
EXTERN float** H2_coll_dissoc_rate_coef |
save rate coef (cm3 s-1) for collisional dissociation
Definition at line 172 of file h2_priv.h.
Referenced by H2_collid_rates(), H2_Create(), and H2_X_coll_rate_evaluate().
EXTERN float** H2_coll_dissoc_rate_coef_H2 |
save rate coef (cm3 s-1) for collisional dissociation with H2g and H2s
Definition at line 175 of file h2_priv.h.
Referenced by H2_collid_rates(), H2_Create(), H2_LevelPops(), and H2_X_coll_rate_evaluate().
EXTERN float***** H2_CollRate |
Definition at line 138 of file h2_priv.h.
Referenced by H2_collid_rates(), H2_Cooling(), H2_Create(), H2_LevelPops(), and H2_X_coll_rate_evaluate().
EXTERN double H2_den_g |
Definition at line 178 of file h2_priv.h.
Referenced by H2_gs_rates(), H2_LevelPops(), and H2_Solomon_rate().
EXTERN double H2_den_s |
density of H2s and H2g during current iteration
Definition at line 178 of file h2_priv.h.
Referenced by H2_LevelPops(), and H2_Solomon_rate().
EXTERN float*** H2_disske |
Definition at line 137 of file h2_priv.h.
Referenced by H2_Cooling(), H2_Create(), and H2_ReadDissprob().
double H2_DissocEnergies[N_H2_ELEC] |
Definition at line 79 of file mole_h2.cpp.
Referenced by EH2_eval(), H2_collid_rates(), H2_Create(), H2_vib_dist(), and H2_X_coll_rate_evaluate().
EXTERN float*** H2_dissprob |
these will mostly become xxx[elec][vib][rot]
Definition at line 136 of file h2_priv.h.
Referenced by H2_Cooling(), H2_Create(), H2_gs_rates(), H2_LevelPops(), H2_ReadDissprob(), and H2_Solomon_rate().
EXTERN int** H2_ipPhoto |
EXTERN long int* H2_ipX_ener_sort |
Definition at line 185 of file h2_priv.h.
Referenced by H2_collid_rates(), H2_Cooling(), H2_Create(), H2_gs_rates(), H2_Level_low_matrix(), H2_LevelPops(), H2_PunchDo(), H2_Solomon_rate(), and H2_X_coll_rate_evaluate().
EXTERN int*** H2_lgOrtho |
this is true if state is para, false if ortho
Definition at line 147 of file h2_priv.h.
Referenced by cdH2_Line(), H2_collid_rates(), H2_Create(), H2_Level_low_matrix(), H2_LevelPops(), and H2_PunchDo().
int H2_nRot_add_ortho_para[N_H2_ELEC] |
the remainder can't be EXTERN since init to values in h2.c
Definition at line 71 of file mole_h2.cpp.
Referenced by H2_Create().
EXTERN double*** H2_old_populations |
these will mostly become xxx[elec][vib][rot]
Definition at line 141 of file h2_priv.h.
Referenced by H2_Create(), H2_LevelPops(), H2_PunchDo(), and H2_zero_pops_too_low().
EXTERN double*** H2_populations |
Definition at line 97 of file h2_priv.h.
Referenced by H2_Colden(), H2_Cooling(), H2_Create(), H2_gs_rates(), H2_Level_low_matrix(), H2_LevelPops(), H2_Prt_Zone(), H2_PunchDo(), H2_Solomon_rate(), and H2_zero_pops_too_low().
EXTERN double*** H2_populations_LTE |
Definition at line 143 of file h2_priv.h.
Referenced by H2_Colden(), H2_Create(), H2_LevelPops(), H2_PunchDo(), H2_zero_pops_too_low(), and mole_H2_LTE().
EXTERN double** H2_rad_rate_in |
Definition at line 156 of file h2_priv.h.
Referenced by H2_Create(), H2_LevelPops(), and H2_PunchDo().
EXTERN double*** H2_rad_rate_out |
Definition at line 98 of file h2_priv.h.
Referenced by H2_Create(), H2_gs_rates(), H2_LevelPops(), H2_PunchDo(), and H2_Solomon_rate().
EXTERN double H2_renorm_chemistry |
the renorm factor for this H2 to the chemistry - should be unity
Definition at line 104 of file h2_priv.h.
Referenced by H2_Cooling(), H2_LevelPops(), H2_PunchDo(), and H2_RT_tau_inc().
EXTERN float****** H2_SaveLine |
this is array of accumulated line intensities, used for punch he lines command
Definition at line 195 of file h2_priv.h.
Referenced by cdH2_Line(), H2_Create(), H2_LinesAdd(), and H2_PunchDo().
EXTERN float*** H2_stat |
this is total statistical weight, including nuclear spin
Definition at line 145 of file h2_priv.h.
Referenced by H2_Cooling(), H2_Create(), H2_Level_low_matrix(), H2_LevelPops(), H2_PunchDo(), H2_X_coll_rate_evaluate(), and mole_H2_LTE().
EXTERN double H2_sum_excit_elec_den |
float H2_te_hminus[nTE_HMINUS] |
temperature where H- distribution are set
Definition at line 61 of file mole_h2.cpp.
Referenced by H2_Read_hminus_distribution(), and mole_H2_form().
EXTERN float** H2_X_colden |
column density within X only vib and rot
Definition at line 108 of file h2_priv.h.
Referenced by cdH2_colden(), H2_Colden(), H2_Create(), H2_Prt_column_density(), and H2_PunchDo().
EXTERN float** H2_X_colden_LTE |
LTE column density within X only vib and rot
Definition at line 120 of file h2_priv.h.
Referenced by H2_Colden(), H2_Create(), and H2_PunchDo().
EXTERN float** H2_X_coll_rate |
rate [s-1} for collisions from ihi to ilo
Definition at line 117 of file h2_priv.h.
Referenced by H2_Create(), H2_Level_low_matrix(), H2_LevelPops(), and H2_X_coll_rate_evaluate().
EXTERN float** H2_X_formation |
formation into specific states witin X only vib and rot, includes both H- and H2 routes
Definition at line 166 of file h2_priv.h.
Referenced by H2_Create(), H2_X_coll_rate_evaluate(), and mole_H2_form().
EXTERN float*** H2_X_grain_formation_distribution |
distribution function for formation on grain surfaces, vib, rot, last dim is grain type
Definition at line 162 of file h2_priv.h.
Referenced by H2_Create(), and mole_H2_form().
EXTERN float** H2_X_Hmin_back |
backwards destructoin of v,J levels due to the H- route
Definition at line 169 of file h2_priv.h.
Referenced by H2_Create(), H2_X_coll_rate_evaluate(), and mole_H2_form().
EXTERN float*** H2_X_hminus_formation_distribution |
vib, rot, last dim is temperature
Definition at line 181 of file h2_priv.h.
Referenced by H2_Create(), H2_Read_hminus_distribution(), and mole_H2_form().
EXTERN double** H2_X_rate_from_elec_excited |
rates [cm-3 s-1] from elec excited states into X only vib and rot
Definition at line 111 of file h2_priv.h.
Referenced by H2_Create(), H2_Level_low_matrix(), and H2_LevelPops().
EXTERN double** H2_X_rate_to_elec_excited |
rates [s-1] to elec excited states from X only vib and rot
Definition at line 114 of file h2_priv.h.
Referenced by H2_Create(), H2_Level_low_matrix(), and H2_LevelPops().
EXTERN float* H2_X_sink |
Definition at line 158 of file h2_priv.h.
Referenced by H2_Create(), H2_Level_low_matrix(), H2_LevelPops(), and H2_X_coll_rate_evaluate().
EXTERN float* H2_X_source |
Definition at line 157 of file h2_priv.h.
Referenced by H2_Create(), H2_Level_low_matrix(), H2_LevelPops(), and H2_X_coll_rate_evaluate().
EXTERN float* H2_Xenergies |
these are energies and indices for levels within X
Definition at line 184 of file h2_priv.h.
Referenced by H2_Create(), H2_Level_low_matrix(), and H2_LevelPops().
EXTERN long int** ipEnergySort |
EXTERN long int* ipRot_H2_energy_sort |
Definition at line 187 of file h2_priv.h.
Referenced by H2_collid_rates(), H2_Cooling(), H2_Create(), H2_gs_rates(), H2_Level_low_matrix(), H2_LevelPops(), H2_PunchDo(), H2_Solomon_rate(), and H2_X_coll_rate_evaluate().
EXTERN long int* ipVib_H2_energy_sort |
Definition at line 186 of file h2_priv.h.
Referenced by H2_collid_rates(), H2_Cooling(), H2_Create(), H2_gs_rates(), H2_Level_low_matrix(), H2_LevelPops(), H2_PunchDo(), H2_Solomon_rate(), and H2_X_coll_rate_evaluate().
EXTERN long int iterationAsEval |
Definition at line 149 of file h2_priv.h.
Referenced by H2_Level_low_matrix(), H2_Reset(), and H2_Zero().
EXTERN int****** lgH2_line_exists |
fully defined array saying whether (true) or not (false) a radiative decay is defined by the standard emission line structure
Definition at line 199 of file h2_priv.h.
Referenced by cdH2_Line(), H2_Accel(), H2_ContPoint(), H2_Create(), H2_gs_rates(), H2_InterEnergy(), H2_Level_low_matrix(), H2_LevelPops(), H2_LinesAdd(), H2_LineZero(), H2_RadPress(), H2_ReadTransprob(), H2_RT_diffuse(), H2_RT_OTS(), H2_RT_tau_inc(), H2_RT_tau_reset(), H2_RTMake(), H2_Solomon_rate(), and H2_zero_pops_too_low().
EXTERN long int nCallH2_this_iteration |
the number of times the H2 molecules has been called in this iteration. For the very first call we will use lte for the level H2_populations, for later calls use the last solution
Definition at line 211 of file h2_priv.h.
Referenced by H2_Cooling(), H2_LevelPops(), H2_Reset(), H2_RT_tau_inc(), and H2_Zero().
EXTERN long int nEner_H2_ground |
number of levels in H2g
Definition at line 95 of file h2_priv.h.
Referenced by H2_Create(), H2_gs_rates(), and H2_Solomon_rate().
EXTERN long int nH2_pops |
counters used by H2_itrzn to find number of calls of h2 per zone
Definition at line 202 of file h2_priv.h.
Referenced by H2_itrzn(), H2_LevelPops(), H2_Reset(), and H2_Zero().
EXTERN long int nH2_zone |
Definition at line 203 of file h2_priv.h.
Referenced by H2_itrzn(), H2_LevelPops(), H2_Reset(), and H2_Zero().
EXTERN long int nLevels_per_elec[N_H2_ELEC] |
the number of ro-vib levels in each elec state
Definition at line 123 of file h2_priv.h.
Referenced by H2_collid_rates(), H2_Cooling(), H2_Create(), H2_Level_low_matrix(), H2_LevelPops(), H2_PunchDo(), H2_ReadEnergies(), H2_Solomon_rate(), and H2_X_coll_rate_evaluate().
EXTERN long int nXLevelsMatrix |
number of levels within X which are done with matrix solver, set with atom h2 matrix command
Definition at line 192 of file h2_priv.h.
Referenced by H2_Create(), H2_Level_low_matrix(), H2_LevelPops(), H2_Zero(), and ParseAtomH2().
EXTERN long int nzone_nlevel_set |
this is used to establish zone number for evaluation of number of levels in matrix
Definition at line 206 of file h2_priv.h.
Referenced by H2_LevelPops(), H2_Reset(), and H2_Zero().
EXTERN long int nzoneAsEval |
Definition at line 149 of file h2_priv.h.
Referenced by H2_Level_low_matrix(), H2_Reset(), and H2_Zero().
EXTERN double pops_per_elec[N_H2_ELEC] |
the total population in each elec state
Definition at line 126 of file h2_priv.h.
Referenced by H2_LevelPops(), H2_PunchDo(), and H2_zero_pops_too_low().
EXTERN double** pops_per_vib |
total population in each vib state
Definition at line 101 of file h2_priv.h.
Referenced by H2_Create(), H2_LevelPops(), H2_Prt_column_density(), H2_Prt_Zone(), and H2_zero_pops_too_low().