#include <atmdat.h>
Data Fields | |
double | HCharExcIonOf [LIMELM][LIMELM+1] |
double | HCharExcRecTo [LIMELM][LIMELM+1] |
double | HCharHeatMax |
double | HCharCoolMax |
double | HCharHeatOn |
double | HCharExcRecTo_N0_2D |
double | HCharExcIonTotal |
double | HCharExcRecTotal |
double | HeCharExcIonTotal |
double | HeCharExcRecTotal |
double | HIonFrac |
double | HIonFracMax |
double | HeCharExcIonOf [LIMELM][LIMELM] |
double | HeCharExcRecTo [LIMELM][LIMELM] |
double | HCTAlex |
bool | lgCTOn |
double | Density [2][HS_NZ][NHSDIM] |
double | ElecTemp [2][HS_NZ][NHSDIM] |
double | Emiss [2][HS_NZ][NHSDIM][NHSDIM][NLINEHS] |
long int | nDensity [2][HS_NZ] |
long int | ntemp [2][HS_NZ] |
long int | ncut [2][HS_NZ] |
bool | lgHCaseBOK [2][HS_NZ] |
long int | nsbig |
bool | lgCollIonOn |
Definition at line 107 of file atmdat.h.
double t_atmdat::Density[2][HS_NZ][NHSDIM] |
these are the density and temperature mesh points on the original Hummer & Storey data, for H[0] and He[1],
Definition at line 170 of file atmdat.h.
Referenced by atmdat_HS_caseB(), and atmdat_readin().
double t_atmdat::ElecTemp[2][HS_NZ][NHSDIM] |
double t_atmdat::Emiss[2][HS_NZ][NHSDIM][NHSDIM][NLINEHS] |
emiss[ipTemp][ipDens][ipLevel]
Definition at line 170 of file atmdat.h.
Referenced by atmdat_HS_caseB(), and atmdat_readin().
double t_atmdat::HCharCoolMax |
Definition at line 128 of file atmdat.h.
Referenced by ChargTranSumHeat(), IterStart(), PrtComment(), and zero().
double t_atmdat::HCharExcIonOf[LIMELM][LIMELM+1] |
ion, nelem these arrays save the charge transfer ionization and recom rates for the heavy elements onto hydrogen. ionization is of the heavy element, and so is a recom for hydrogen
HCharExcIonOf( ion , nelem ), HCharExcRecTo( ion , nelem ) charge transfer ionization of atomic oxygen = HCharExcIonOf[ipOXYGEN][0]*hii charge transfer recombination of ionized oxygen = HCharExcRecTo[ipOXYGEN][0]*hi HCharHeatMax, HCharCoolMax are largest fractions of local heating or cooling due to ct HCharHeatOn usually 1, set to 0 with no CTHeat command CharExcIon is ionization, [0] is Atom^0 + H+ => Atom+1 + H0 [n] is Atom^+n + H+ => Atom^+n-1 + H0 CharExcRec is recombination [0] is Atom^+1 + H0 => Atom^0 + H^+ [n] is Atom^+n+1 + H0 => Atom^+n + H^+
Definition at line 128 of file atmdat.h.
Referenced by ChargeTransferUpdate(), ChargTranEval(), ChargTranPun(), ChargTranSumHeat(), hmole_step(), ion_solver(), IonOxyge(), iso_ionize_recombine(), and zero().
double t_atmdat::HCharExcIonTotal |
this is total rate (s-1) for ct ionization and recombination of H
Definition at line 138 of file atmdat.h.
Referenced by ChargeTransferUpdate(), ion_solver(), iso_ionize_recombine(), PrtHydroTrace2(), and zero().
double t_atmdat::HCharExcRecTo[LIMELM][LIMELM+1] |
Definition at line 128 of file atmdat.h.
Referenced by ChargeTransferUpdate(), ChargTranEval(), ChargTranPun(), ChargTranSumHeat(), HeLikeLevel(), hmole_step(), ion_recomb(), ion_solver(), IonChlor(), iso_ionize_recombine(), and zero().
double t_atmdat::HCharExcRecTotal |
Definition at line 138 of file atmdat.h.
Referenced by ChargeTransferUpdate(), ion_solver(), iso_ionize_recombine(), and zero().
double t_atmdat::HCharHeatMax |
Definition at line 128 of file atmdat.h.
Referenced by ChargTranSumHeat(), IterStart(), PrtComment(), and zero().
double t_atmdat::HCharHeatOn |
double t_atmdat::HCTAlex |
Dalgarno H charge transfer rate coef for high stages of ionization default is 1.92e-9 in zero, reset with 'set charge transfer' command
Definition at line 162 of file atmdat.h.
Referenced by HCTRecom(), ParseSet(), and zero().
double t_atmdat::HeCharExcIonOf[LIMELM][LIMELM] |
this is the charge ionization, recom array that goes into the ionization balance Ion[ion] is ionization, Rec[ion] is recombination it has all He charge transfer rates
Definition at line 157 of file atmdat.h.
Referenced by ChargeTransferUpdate(), ChargTranEval(), ChargTranPun(), ion_solver(), and iso_ionize_recombine().
double t_atmdat::HeCharExcIonTotal |
this is total rate (s-1) for ct ionization and recombination of He
Definition at line 142 of file atmdat.h.
Referenced by ChargeTransferUpdate(), ion_solver(), and iso_ionize_recombine().
double t_atmdat::HeCharExcRecTo[LIMELM][LIMELM] |
Definition at line 157 of file atmdat.h.
Referenced by ChargeTransferUpdate(), ChargTranEval(), ChargTranPun(), HeLikeLevel(), ion_recomb(), ion_solver(), and iso_ionize_recombine().
double t_atmdat::HeCharExcRecTotal |
Definition at line 142 of file atmdat.h.
Referenced by ChargeTransferUpdate(), HeLikeLevel(), ion_solver(), and iso_ionize_recombine().
double t_atmdat::HIonFrac |
this is the current ratio of ct ionization of H, relative to total dest rate
Definition at line 146 of file atmdat.h.
Referenced by lines_hydro(), and zero().
double t_atmdat::HIonFracMax |
this is the largest ratio of ct ionization of H, relative to total dest rate
Definition at line 149 of file atmdat.h.
Referenced by IterStart(), lines_hydro(), PrtComment(), and zero().
by default, include collisional ionization, option to not include it, with "no collisional ionization" command
Definition at line 188 of file atmdat.h.
Referenced by ParseDont(), and zero().
bool t_atmdat::lgCTOn |
variable to turn on or off ct ionization-recombiantion of all elements - set off with no charge trasnfer command
Definition at line 166 of file atmdat.h.
Referenced by ChargTranEval(), ion_recomb(), ParseDont(), and zero().
bool t_atmdat::lgHCaseBOK[2][HS_NZ] |
following will be set false if we ever stop over bounds of HS table for any element. first index is case A [0] or case B [1] - second is element number
Definition at line 181 of file atmdat.h.
Referenced by lines_hydro(), PrtComment(), and PrtFinal().
long int t_atmdat::ncut[2][HS_NZ] |
long int t_atmdat::nDensity[2][HS_NZ] |
saves the number of density temperature mesh points for the two cases for the HS_NZ elements
Definition at line 176 of file atmdat.h.
Referenced by atmdat_HS_caseB(), and atmdat_readin().
long int t_atmdat::nsbig |
related to highest stage of ionization needed for cota recom
Definition at line 184 of file atmdat.h.
Referenced by atmdat_3body(), ion_recomb(), and zero().
long int t_atmdat::ntemp[2][HS_NZ] |