#include <iso.h>
Definition at line 51 of file iso.h.
float*** t_iso::As2nu |
will become array of two photon transition probabilities per energy bin
Definition at line 280 of file iso.h.
Referenced by atmdat_2phot_rate(), ContCreatePointers(), PunchSpecial(), and RT_diffuse().
double**** t_iso::Boltzmann |
Boltzmann factor from lower to upper level, [ISO][nelem][up][lo]
Definition at line 263 of file iso.h.
Referenced by HeCollid(), HeLikeLevel(), HydroCollid(), HydroLevelPop(), iso_cool(), iso_create(), and lines_helium().
float t_iso::CaseBCheck[NISO][LIMELM] |
difference between actual case b photons in rtdiffuse, and correct case b
Definition at line 172 of file iso.h.
Referenced by PrtComment(), RT_diffuse(), and zero().
double t_iso::cBal_cool[NISO][LIMELM] |
net cooling due to collisional excit of balmer lines
Definition at line 235 of file iso.h.
Referenced by iso_cool(), and lines_hydro().
char t_iso::chTypeAtomSet[NISO][10] |
flag to set which type of solution to do for level pops, low T or pops
Definition at line 294 of file iso.h.
Referenced by HeLikeLevel(), HydroLevel(), ParseAtomHeLike(), ParseAtomHLike(), and zero().
char t_iso::chTypeAtomUsed[NISO][LIMELM][10] |
flag to set which type of solution was used for level pops, low T or pops
Definition at line 296 of file iso.h.
Referenced by HeLikeLevel(), HydroLevel(), IonHelium(), radius_increment(), and zero().
double t_iso::cLya_cool[NISO][LIMELM] |
net cooling due to collisional excit of Lya
Definition at line 241 of file iso.h.
Referenced by CoolEvaluate(), iso_cool(), and lines_hydro().
double t_iso::cLyrest_cool[NISO][LIMELM] |
net cooling due to collisional excit of higher lyman lines
Definition at line 238 of file iso.h.
Referenced by iso_cool(), and lines_hydro().
double*** t_iso::ColIoniz |
collisional ionization rate coefficient from each level
Definition at line 210 of file iso.h.
Referenced by HeCollid(), HeLikeLevel(), HydroCollid(), HydroLevel(), iso_cool(), iso_create(), iso_ionize_recombine(), PrtHydroTrace1a(), PrtHydroTrace2(), and PunchDo().
double t_iso::coll_ion[NISO][LIMELM] |
net cooling due to collisional ionization
Definition at line 220 of file iso.h.
Referenced by CoolEvaluate(), iso_cool(), and lines_hydro().
double*** t_iso::ConBoltz |
ConBoltz excit to continuum ipISO][ipZ][n]
Definition at line 79 of file iso.h.
Referenced by HeCollid(), Hion_coll_ioniz_ratecoef(), hydro_vs_ioniz(), HydroCollid(), and iso_create().
float*** t_iso::ConOpacRatio |
continuum to total opacity factors for each level
Definition at line 198 of file iso.h.
Referenced by HeRecom(), HydroRecom(), iso_create(), IterRestart(), IterStart(), and OpacityAddTotal().
double t_iso::cRest_cool[NISO][LIMELM] |
net cooling due to collisional excit of higher lines
Definition at line 223 of file iso.h.
Referenced by iso_cool(), and lines_hydro().
double*** t_iso::DepartCoef |
departure coefficient
Definition at line 201 of file iso.h.
Referenced by HeLikeLevel(), hmole_step(), HydroLevel(), HydroLevelPop(), HydroT2Low(), iso_create(), lgCheckAsserts(), OpacityAdd1Element(), OpacityAddTotal(), prt_H_like_DeparCoef(), prt_He_like_DeparCoef(), PrtZone(), punch_opacity(), and SanityCheckBegin().
double t_iso::dLTot[NISO][LIMELM] |
deriv of net cooling due to total collisional excit of lines
Definition at line 229 of file iso.h.
Referenced by HeatSum(), and iso_cool().
this is the set of extra lines, LymanLines[ipISO][ipZ][n]
Definition at line 68 of file iso.h.
Referenced by ContCreatePointers(), HeCreate(), iso_create(), PunchLineStuff(), RT_line_all(), RT_tau_inc(), RT_tau_init(), RT_tau_reset(), and state_get_put().
double t_iso::FreeBnd_net_Cool_Rate[NISO][LIMELM] |
net free bound cooling for this element
Definition at line 217 of file iso.h.
Referenced by iso_cool(), and lines_general().
double*** t_iso::gamnc |
photoionization rate, gammnc[iso][nelem][level]
Definition at line 244 of file iso.h.
Referenced by HeLikeLevel(), hmole_step(), HydroLevel(), HydroT2Low(), iso_cool(), iso_create(), iso_ionize_recombine(), iso_photo(), PrtComment(), PrtHydroTrace1a(), PrtHydroTrace2(), and PunchDo().
long t_iso::ipHalfTwoPhoE[NISO][LIMELM] |
long int*** t_iso::ipIsoLevNIonCon |
a set of array indices for all atoms on the iso sequences, ipIsoLevNIonCon[ipISO][ipZ][n]
Definition at line 72 of file iso.h.
Referenced by ContCreatePointers(), ContRate(), ContSetIntensity(), GammaBnPL(), GammaPL(), GrainRateDr(), HeRecom(), hmole_reactions(), HydroRecom(), IonMagne(), IonOxyge(), iso_create(), iso_photo(), lines_continuum(), lines_helium(), OpacityAdd1Element(), OpacityAddTotal(), OpacityCreateAll(), PrtAllTau(), PrtComment(), PrtContinuum(), PrtFinal(), PrtHeader(), PrtZone(), punch_opacity(), PunchDo(), radius_increment(), RT_diffuse(), RT_OTS(), RT_tau_init(), and tfidle().
int t_iso::ipLyaRedist[NISO] |
types of redistribution functions for Lya, other resonances, and subordinate lines
Definition at line 288 of file iso.h.
Referenced by iso_create(), ParseAtomHeLike(), ParseAtomHLike(), and zero().
long int*** t_iso::ipOpac |
ipOpac pointers for photoionization cross sections of hydrogen iso.ipOpac[NISO][LIMELM][NHPLPHOT]
Definition at line 192 of file iso.h.
Referenced by iso_create(), iso_photo(), OpacityAdd1Element(), OpacityAddTotal(), OpacityCreateAll(), punch_opacity(), PunchDo(), RT_diffuse(), and SanityCheckBegin().
int t_iso::ipResoRedist[NISO] |
Definition at line 288 of file iso.h.
Referenced by HeCreate(), iso_create(), ParseAtomHeLike(), ParseAtomHLike(), and zero().
int t_iso::ipSubRedist[NISO] |
Definition at line 288 of file iso.h.
Referenced by iso_create(), ParseAtomHeLike(), ParseAtomHLike(), and zero().
long int*** t_iso::ipSym2nu |
will become array of indices for induced two photon, series of symmetric indices ipHy2nu[ipISO][ipZ][energy]
Definition at line 277 of file iso.h.
Referenced by atmdat_2phot_rate(), ContCreatePointers(), and RT_diffuse().
long t_iso::ipTwoPhoE[NISO][LIMELM] |
These are pointers to the energies representing the two-photon gap, and half the gap, respectively.
Definition at line 284 of file iso.h.
Referenced by atmdat_2phot_rate(), ContCreatePointers(), and RT_diffuse().
bool t_iso::lgColl_excite[NISO] |
option to turn off collisional excitation
Definition at line 89 of file iso.h.
Referenced by AtomCSInterp(), HeCSInterp(), HeLikeLevel(), HydroCollid(), HydroLevelPop(), IonCSInterp(), ParseAtomHeLike(), ParseAtomHLike(), and zero().
bool t_iso::lgColl_ionize[NISO] |
option to turn off collisional ionization
Definition at line 92 of file iso.h.
Referenced by HeCollid(), HydroCollid(), ParseAtomHeLike(), ParseAtomHLike(), and zero().
bool t_iso::lgColl_l_mixing[NISO] |
option to turn off l-mixing collisions
Definition at line 86 of file iso.h.
Referenced by AtomCSInterp(), HydroCollid(), IonCSInterp(), ParseAtomHeLike(), ParseAtomHLike(), and zero().
do thermal average of collision strenghts if true, false by default, set true with SET COLLISION STRENGTHS AVERAGE command
Definition at line 102 of file iso.h.
Referenced by CS_VS80(), ParseSet(), and zero().
bool t_iso::lgInd2nu_On |
flag saying whether induced two photon is included in the level pops for H- and He-like
Definition at line 106 of file iso.h.
Referenced by HeCreate(), HeLikeLevel(), HydroLevelPop(), ParseSet(), RT_diffuse(), and zero().
bool t_iso::lgLevelsEverLowered[NISO][LIMELM] |
This variable is set to true if the continuum was lowered at any point in the calculation. Necessary because some models will lowered continuum at intermediate points but not last zone.
Definition at line 114 of file iso.h.
Referenced by iso_continuum_lower(), PrtComment(), and zero().
bool t_iso::lgLevelsLowered[NISO][LIMELM] |
This variable is set to true if the model is full size in the sense that all levels below continuum are considered.
Definition at line 110 of file iso.h.
Referenced by HeCollid(), HeRecom(), HydroRecom(), iso_continuum_lower(), PrtComment(), and zero().
bool t_iso::lgPopLTE_OK[NISO][LIMELM] |
true is all lte populations positive for Hydrogenic atoms
Definition at line 204 of file iso.h.
Referenced by HeCollid(), and HydroCollid().
bool t_iso::lgPrtDepartCoef[NISO][LIMELM] |
option to print departure coefficients
Definition at line 95 of file iso.h.
Referenced by ParsePrint(), PrtZone(), and zero().
bool t_iso::lgPrtLevelPops[NISO][LIMELM] |
option to print level populations
Definition at line 98 of file iso.h.
Referenced by ParsePrint(), PrtZone(), and zero().
long int t_iso::n_HighestResolved_local[NISO][LIMELM] |
Definition at line 143 of file iso.h.
Referenced by HeLikeLevel(), iso_continuum_lower(), prt_He_like_DeparCoef(), prt_He_like_Pops(), and PrtComment().
long int t_iso::n_HighestResolved_max[NISO][LIMELM] |
this is the quantum number n of the highest resolved level, only used for helium the array index of the highest resolved level is numLevels-1 - nCollapsed
Definition at line 142 of file iso.h.
Referenced by cdDefines(), defect(), he_1trans(), he_assign(), HeCollid(), HeCreate(), HeLikeError(), HeLikeLevel(), HelikeRecombSetup(), IonCSInterp(), iso_continuum_lower(), iso_create(), lines_helium(), Opacity_iso_photo_cs(), ParseAtomHeLike(), ParseAtomHLike(), ParseCompile(), and printCustomAs().
long int t_iso::nCollapsed_local[NISO][LIMELM] |
Definition at line 119 of file iso.h.
Referenced by HeLikeLevel(), HeRecom(), iso_continuum_lower(), lgCheckAsserts(), optimize_func(), prt_He_like_DeparCoef(), prt_He_like_Pops(), and PrtComment().
long int t_iso::nCollapsed_max[NISO][LIMELM] |
this is the number of collapsed levels along the iso seq atoms - this has no meaning for H-like (all are collapsed above n=2)
Definition at line 118 of file iso.h.
Referenced by AtomCSInterp(), cdDefines(), he_1trans(), he_assign(), He_cross_section(), He_RRCoef_Te(), HeCollid(), HeCreate(), HeLikeLevel(), HelikeRecombSetup(), HeRecom(), iso_continuum_lower(), iso_create(), lines_helium(), Opacity_iso_photo_cs(), ParseAtomHeLike(), ParseCompile(), printCustomAs(), and SanityCheckBegin().
int t_iso::nLyaLevel[NISO] |
this is the upper level for Lya
Definition at line 291 of file iso.h.
Referenced by ConvIterCheck(), HeLike(), Hydrogenic(), radius_increment(), RT_line_all(), and zero().
long int t_iso::nLyman[NISO] |
number of lyman lines to include only as opacity sources, in each iso seq, all now set to 100 in zero.c
Definition at line 62 of file iso.h.
Referenced by ContCreatePointers(), HeCreate(), iso_continuum_lower(), iso_create(), ParseAtomHeLike(), ParseAtomHLike(), PunchLineStuff(), RT_line_all(), RT_tau_inc(), RT_tau_init(), RT_tau_reset(), and zero().
long int t_iso::nLyman_malloc[NISO] |
number of levels actually malloced - probably greater than above
Definition at line 62 of file iso.h.
Referenced by iso_create(), state_get_put(), and zero().
long int t_iso::nTopOff[NISO][LIMELM] |
how the model atoms are topped off. nHTopOff is the level, H set to 10 in zero, this is only used for the H-like iso sequence, no meaning for the he-like sequence
Definition at line 123 of file iso.h.
Referenced by cdDefines(), HydroLevel(), HydroRecom(), ParseAtomHLike(), ParseCompile(), PrtComment(), and PrtFinal().
long int t_iso::numLevels_local[NISO][LIMELM] |
Definition at line 137 of file iso.h.
Referenced by chkCaHeps(), HeLikeLevel(), HeRecom(), HLineTransOpacSet(), Hydrogenic(), HydroLevel(), HydroLevelPop(), HydroRecom(), HydroRenorm(), HydroT2Low(), iso_continuum_lower(), iso_cool(), iso_create(), iso_ionize_recombine(), iso_photo(), iso_zero(), lgCheckAsserts(), OpacityAdd1Element(), OpacityAddTotal(), optimize_func(), PresTotCurrent(), prt_He_like_DeparCoef(), prt_He_like_Pops(), PrtAllTau(), PrtComment(), PrtFinal(), PrtHeader(), PrtHydroTrace1(), PrtHydroTrace2(), PrtLinePres(), prtmet(), PunchDo(), PunchLineStuff(), RT_diffuse(), RT_line_all(), RT_line_driving(), RT_OTS(), RT_stark(), and RT_tau_inc().
long int t_iso::numLevels_max[NISO][LIMELM] |
iso.numLevels_max[ipISO][nelem] is the number of levels in iso atoms, including both resolved levels for lower n in He-like, and collapsed levels n ranges from 0 to n = iso.numLevels_max[ipISO]-1 iso.numLevels_max[ipISO] is set on the fly with atom xx-like levels command it is initialized in zero.c the total number of levels in each atom in the iso sequences Max is the maximum number of levels ever to be used in this core load. local is the number of levels corresponding to local conditions, which, of course, must be less than or equal to the max.
Definition at line 136 of file iso.h.
Referenced by AtomCSInterp(), cdDefines(), ContCreatePointers(), ContSetIntensity(), he_1trans(), he_assign(), He_cross_section(), He_RRCoef_Te(), HeCollid(), HeCreate(), HeLike(), HeLikeError(), HeLikeLevel(), HelikeRecombSetup(), HeRecom(), HydroCollid(), Hydrogenic(), HydroLevel(), HydroLevelPop(), HydroRecom(), iso_continuum_lower(), iso_cool(), iso_create(), iso_photo(), iso_zero(), IterRestart(), IterStart(), lines_helium(), lines_hydro(), Opacity_iso_photo_cs(), OpacityCreateAll(), ParseAtomHeLike(), ParseAtomHLike(), ParseCompile(), ParseElement(), ParsePrint(), printCustomAs(), PunchLineData(), putError(), RT_line_all(), RT_stark(), RT_tau_inc(), RT_tau_init(), RT_tau_reset(), SanityCheckBegin(), and state_get_put().
long int t_iso::numPrintLevels[NISO][LIMELM] |
the total number of levels to print in each atom in the iso sequences
Definition at line 146 of file iso.h.
Referenced by cdDefines(), iso_continuum_lower(), iso_create(), lgCheckAsserts(), lines_helium(), ParseAtomHLike(), ParsePrint(), prt_H_like_DeparCoef(), prt_H_like_Pops(), and PrtZone().
double*** t_iso::PhotoHeat |
photoelectric heating rate
Definition at line 266 of file iso.h.
Referenced by iso_cool(), iso_create(), and iso_photo().
double*** t_iso::Pop2Ion |
population of level relative to ion
Definition at line 195 of file iso.h.
Referenced by atom_oi_calc(), atoms_fe2ovr(), ChargTranSumHeat(), ContSetIntensity(), ConvBase(), CoolEvaluate(), Fe2_cooling(), H21_cm_pops(), HeatSum(), HeCreate(), HeLike(), HeLikeLevel(), hmole_step(), Hydrogenic(), HydroLevel(), HydroLevelPop(), HydroRenorm(), HydroT2Low(), ion_recomb(), ion_solver(), ion_trim(), iso_cool(), iso_create(), iso_ionize_recombine(), IterRestart(), IterStart(), lines_helium(), lines_hydro(), OpacityAdd1Element(), OpacityAddTotal(), pfeii(), prt_H_like_Pops(), prt_He_like_Pops(), PrtZone(), punch_opacity(), PunchDo(), PunchSpecial(), radius_increment(), RT_diffuse(), and SanityCheckBegin().
double t_iso::pop_ion_ov_neut[NISO][LIMELM] |
the ratio of ion to recombined species, for H-like and He-like ions of the heavy elements
Definition at line 214 of file iso.h.
Referenced by HeLike(), HeLikeLevel(), Hydrogenic(), HydroLevel(), HydroT2Low(), ion_solver(), IonHelium(), and radius_increment().
double*** t_iso::PopLTE |
hlte is lte population of each level
Definition at line 207 of file iso.h.
Referenced by HeCollid(), HeLikeLevel(), HydroCollid(), HydroLevel(), HydroLevelPop(), HydroT2Low(), iso_cool(), iso_create(), iso_ionize_recombine(), and IterStart().
An array of structures each containing for a given element, n,l, and s s=0 for singlets, s=1 for triplets - iso.quant_desig[ipISO][ipZ][level], elements are .s for spin, .l for ang mo, .n for prin quan num, collapsed levels l and s are -LONG_MAX
Definition at line 58 of file iso.h.
Referenced by AtomCSInterp(), CS_l_mixing_PS64(), defect(), DoFSMixing(), he_1trans(), he_assign(), HeCollid(), HeCreate(), HeCSInterp(), HeLikeLevel(), Hion_coll_ioniz_ratecoef(), hydro_vs_coll_str(), hydro_vs_deexcit(), hydro_vs_excit(), IonCSInterp(), iso_cool(), iso_create(), lgCheckAsserts(), lines(), lines_helium(), optimize_func(), prt_He_like_DeparCoef(), prt_He_like_Pops(), PunchLineStuff(), RT_line_all(), RT_tau_inc(), RT_tau_init(), RT_tau_reset(), SanityCheckBegin(), and WaveFunction().
double t_iso::RadRec_caseB[NISO][LIMELM] |
case b recombination rate coefficient
Definition at line 175 of file iso.h.
Referenced by HeRecom(), HydroRecom(), HydroT2Low(), lines_helium(), lines_hydro(), PunchDo(), radius_first(), RT_diffuse(), and zero().
double t_iso::RadRec_effec[NISO][LIMELM] |
the total effective radiative recombination rate coefficient (cm3 s-1), radiative rate with correction for absorption and ionization
Definition at line 179 of file iso.h.
Referenced by HeRecom(), HydroLevel(), HydroRecom(), and PrtHydroTrace1a().
double t_iso::RadRecCool[NISO][LIMELM] |
net cooling due to rad rec
Definition at line 232 of file iso.h.
Referenced by iso_cool(), and lines_general().
double**** t_iso::RadRecomb |
radiative recombination rate coefficient, RadRecomb[ipISO][ipZ][n][fcn] iso.RadRecomb[ipISO][ipZ][ipLo][ipRecEsc] escape prob iso.RadRecomb[ipISO][ipZ][n][ipRecNetEsc] net escape prob, accounting for absorption iso.RadRecomb[ipISO][ipZ][ipLo][ipRecRad] rate coef, cm^3 s^-1
Definition at line 169 of file iso.h.
Referenced by HeRecom(), HydroRecCool(), HydroRecom(), iso_cool(), iso_create(), iso_ionize_recombine(), IterStart(), lines_continuum(), PunchDo(), RT_diffuse(), and RT_OTS().
double*** t_iso::RateCont2Level |
all processes from the continuum to level n, units s-1
Definition at line 185 of file iso.h.
Referenced by HeLikeLevel(), HydroLevel(), HydroLevelPop(), HydroT2Low(), iso_create(), and iso_ionize_recombine().
double*** t_iso::RateLevel2Cont |
all processes from level n to the continuum, units s-1
Definition at line 182 of file iso.h.
Referenced by HeatSum(), HeLikeLevel(), HydroLevel(), HydroLevelPop(), HydroT2Low(), IonHelium(), iso_create(), iso_ionize_recombine(), and PrtHydroTrace2().
float t_iso::RecomCollisFrac[NISO][LIMELM] |
ratio of collisional recombination rate to recom from all processes
Definition at line 188 of file iso.h.
Referenced by ConvTempEdenIoniz(), iso_ionize_recombine(), and radius_next().
double*** t_iso::RecomInducCool_Coef |
RecomInducCool_Coef becomes rate coef for incuded recombination cooling, when multipled by lte population. this times hnu-hnuo0 to get cooling, evaluated in gamma routine and saved
Definition at line 257 of file iso.h.
Referenced by iso_cool(), iso_create(), and iso_photo().
double t_iso::RecomInducCool_Rate[NISO][LIMELM] |
the actual induced recom cooling rate, erg cm-3 s-1
Definition at line 260 of file iso.h.
Referenced by iso_cool(), lines(), and lines_general().
double*** t_iso::RecomInducRate |
RecomInducRate will become induced recombination rate coefficient when multipled by lte population. integral of photorate times exp(-hu/kt) for ind rec, produced by gamma routine needs to be mult by lte pop to become real rate
Definition at line 251 of file iso.h.
Referenced by HydroLevel(), iso_cool(), iso_create(), iso_ionize_recombine(), iso_photo(), and IterStart().
float t_iso::SmallA |
this is the rate for the Aul given to bogus transitions, set to 1e-30 in zero >>chng 04 may 17, esd 1e-20, changed to 1e-30 to allow rydberg levels to be treated with their small As
Definition at line 272 of file iso.h.
Referenced by ContCreatePointers(), ForbiddenAuls(), he_1trans(), HeCreate(), and zero().
float*** t_iso::stat |
the statistical weights of the levels, stat[ipISO][nelem][n]
Definition at line 149 of file iso.h.
Referenced by collision_strength_VF01(), CS_l_mixing_PS64(), CS_l_mixing_S62(), HeCollid(), HeCreate(), HeLikeLevel(), HLineTransOpacSet(), hydro_vs_coll_str(), hydro_vs_deexcit(), HydroCollid(), HydroLevel(), HydroLevelPop(), iso_cool(), iso_create(), PresTotCurrent(), PrtHydroTrace1(), PrtLinePres(), radrecomb(), RT_diffuse(), and RT_tau_init().
float t_iso::stat_ion[NISO] |
the statistical weights of the ions for each species, used for Milne relation and recombination
Definition at line 153 of file iso.h.
Referenced by HeCollid(), HydroCollid(), iso_create(), lines_helium(), and RT_diffuse().
double t_iso::TwoNu_induc_dn[NISO][LIMELM] |
the induced downward two-photon rate
Definition at line 159 of file iso.h.
Referenced by atmdat_2phot_rate(), HeLikeLevel(), HydroLevelPop(), lines_helium(), and lines_hydro().
double t_iso::TwoNu_induc_dn_max[NISO][LIMELM] |
the largest induced downward two photon rate
Definition at line 162 of file iso.h.
Referenced by atmdat_2phot_rate(), IterStart(), PrtComment(), and zero().
double t_iso::TwoNu_induc_up[NISO][LIMELM] |
the induced upward two-photon rate
Definition at line 156 of file iso.h.
Referenced by atmdat_2phot_rate(), HeLikeLevel(), and HydroLevelPop().
double t_iso::xIonSimple[NISO][LIMELM] |
the ratio fully stripped ion to atom for all hydrogenic species HIonSimple is simple estimate, should agree at low density
Definition at line 83 of file iso.h.
Referenced by HeLike(), HeLikeLevel(), HydroLevel(), HydroT2Low(), IonHelium(), iso_ionize_recombine(), PrtHydroTrace1a(), and radius_increment().
double*** t_iso::xIsoLevNIonRyd |
>>chng 01 dec 23, from float to double ionization potential of level N in Ryd
Definition at line 76 of file iso.h.
Referenced by collision_strength_VF01(), ContCreatePointers(), CS_l_mixing_S62(), GammaBnPL(), he_1trans(), He_cross_section(), HeCollid(), HeCreate(), HelikeCheckRecomb(), HelikeRecombSetup(), HeRecom(), Hion_coll_ioniz_ratecoef(), hydro_vs_coll_str(), hydro_vs_deexcit(), hydro_vs_excit(), hydro_vs_ioniz(), HydroCollid(), ipShells(), iso_cool(), iso_create(), iso_photo(), Opacity_iso_photo_cs(), OpacityCreateAll(), RT_diffuse(), and SanityCheckBegin().
double t_iso::xLineTotCool[NISO][LIMELM] |
net cooling due to total collisional excit of lines
Definition at line 226 of file iso.h.
Referenced by iso_cool(), and lines_hydro().