t_hydro Struct Reference

#include <hydrogenic.h>

Collaboration diagram for t_hydro:

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Data Fields

bool lgHydEmiss
bool lgHColionImp
bool lgHiPop2
float pop2mx
bool lgReevalRecom
float ** strkar
double ** pestrk
float dstfe2lya
float HLineWidth
float TexcLya
long int nLyaHot
float TLyaMax
float TeLyaMax
long int nZTLaMax
char chHTopType [5]
float H_ion_frac_photo
float HCollIonMax
float H_ion_frac_collis
double HyLife [NHYDRO_MAX_LEVEL]
double cintot
bool lgHInducImp
double D2H_ratio
float DampOnFac
float FracInd
long int ndclev
float fbul
long int nbul
bool lgLymanPumping
float xLymanPumpingScaleFactor

Detailed Description

all of these are initialized in zero

Definition at line 111 of file hydrogenic.h.


Field Documentation

chHTopType is the method.used to top off the H atom

Definition at line 156 of file hydrogenic.h.

Referenced by HydroRecom(), ParseAtomHLike(), PrtFinal(), and zero().

cintot is total induced cooling over model

Definition at line 179 of file hydrogenic.h.

Referenced by IterStart(), lines(), PrtComment(), and zero().

this is the D/H ratio, set with SET D/H command

Definition at line 185 of file hydrogenic.h.

Referenced by CoolEvaluate(), ParseSet(), and zero().

usually 1, set to 0 with hydrogen damping off command, scales rayleigh scat

Definition at line 188 of file hydrogenic.h.

Referenced by ParseAtomHLike(), rayleh(), and zero().

dstfe2lya is destruction probability for Lya onto FeII, net deexcitation of Lya but not ots destruction

Definition at line 136 of file hydrogenic.h.

Referenced by atoms_fe2ovr(), Fe2_cooling(), FeIILevelPops(), lines_hydro(), pfeii(), PrtHydroTrace1(), and RT_line_all().

Definition at line 193 of file hydrogenic.h.

Referenced by IterStart(), and PrtComment().

remember induced fractions for hydrogen

Definition at line 191 of file hydrogenic.h.

Referenced by IterStart(), and PrtComment().

fraction of H ionizations due to ground collisions

Definition at line 165 of file hydrogenic.h.

Referenced by lines_hydro().

relative importance of photo ioniz from n=2 of H

Definition at line 159 of file hydrogenic.h.

Referenced by PrtZone().

largest fraction of ground state H destruction due to collisional ionization

Definition at line 162 of file hydrogenic.h.

Referenced by IterStart(), lines_hydro(), PrtComment(), and zero().

width of Lya

Definition at line 139 of file hydrogenic.h.

Referenced by atoms_fe2ovr(), FeIILyaPump(), iso_zero(), and PresTotCurrent().

array of lifetimes for HI levels, not including Lyman lines lifetime for principal quantum numbers [0] and [1] are set to -1e37, no defined, [2] is lya

this is used for full H iso sequence, so must be defined up through most number of levels needed for any atom on this sequence

Definition at line 176 of file hydrogenic.h.

Referenced by HLineTransOpacSet(), and iso_create().

flag saying whether H atom is photo=false or collis ionized=true

Definition at line 119 of file hydrogenic.h.

Referenced by ConvTempEdenIoniz().

lgHInducImp says whether or not induced recombination is important

Definition at line 182 of file hydrogenic.h.

Referenced by ContSetIntensity(), iso_photo(), OpacityAdd1SubshellInduc(), and PrtFinal().

lgHiPop2 flag set if H n=2 population gets large relative to ground pop2mx is maximum population of n=2 relative to ground

Definition at line 123 of file hydrogenic.h.

Referenced by IterStart(), PrtComment(), and zero().

flag to say (true) to produce emissivity for hydrogenic species, rather than intensity (the default). Set with hydrogen emissivity commmand. default is false

Definition at line 116 of file hydrogenic.h.

Referenced by lines_general(), lines_hydro(), ParseAtomHLike(), and zero().

is continuum pumping of H lyman lines included? yes, but turned off with atom h-like lyman pumping off command

Definition at line 198 of file hydrogenic.h.

Referenced by ParseAtomHLike(), RT_line_all(), and zero().

Flag saying to reeval recom, because continuum lowering may otherwise leave us with zero'd levels.

Definition at line 128 of file hydrogenic.h.

Referenced by HydroRecom(), iso_continuum_lower(), and zero().

long int t_hydro::nbul

Definition at line 194 of file hydrogenic.h.

Referenced by IterStart(), and PrtComment().

long int t_hydro::ndclev

Definition at line 192 of file hydrogenic.h.

Referenced by IterStart(), and PrtComment().

long int t_hydro::nLyaHot

nLyaHot is counts how ofter Lya hotter than gas

Definition at line 145 of file hydrogenic.h.

Referenced by IterStart(), PrtComment(), radius_increment(), and zero().

nZTLaMax is the zone where this happened

Definition at line 153 of file hydrogenic.h.

Referenced by PrtComment(), and radius_increment().

double** t_hydro::pestrk

pestrk[LMHLVL+1][LMHLVL+1]

Definition at line 132 of file hydrogenic.h.

Referenced by iso_create(), lines_hydro(), PrtHydroTrace1(), RT_line_all(), and RT_stark().

Definition at line 124 of file hydrogenic.h.

Referenced by IterStart(), PrtComment(), and zero().

float** t_hydro::strkar

arrays for stark broadening in Puetter formalism strkar[LMHLVL+1][LMHLVL+1]

Definition at line 131 of file hydrogenic.h.

Referenced by iso_create(), and RT_stark().

TeLyaMax is electron temp at point where Lya max

Definition at line 148 of file hydrogenic.h.

Referenced by PrtComment(), and radius_increment().

TexcLya is the excitation temperature of Lya

Definition at line 142 of file hydrogenic.h.

Referenced by PrtZone(), radius_increment(), and zero().

TLyaMax is hottest

Definition at line 148 of file hydrogenic.h.

Referenced by IterStart(), PrtComment(), radius_increment(), and zero().

multiplicative scale factor for HI lyman line pump rate, takes into account possible emission lines - NB test against equal to 1.f in rt_lines_all to see if it has been set

Definition at line 203 of file hydrogenic.h.

Referenced by Hydrogenic(), HydroLevel(), ParseAtomHLike(), and zero().


The documentation for this struct was generated from the following file:

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