#include <ionbal.h>
Definition at line 108 of file ionbal.h.
double*** t_ionbal::CollIonRate_Ground |
collisional ionization rate for CollidRate[nelem][ion][0], s-1 cooling, erg/s in CollidRate[nelem][ion][1] [LIMELM][LIMELM][2]
Definition at line 156 of file ionbal.h.
Referenced by HeatSum(), HeCollid(), HeLikeLevel(), HydroCollid(), HydroLevel(), ion_collis(), ion_solver(), and zero().
double t_ionbal::CompHeating_Max |
the local heating due to Compton recoil ionization
Definition at line 182 of file ionbal.h.
Referenced by HeatSum(), lines_general(), and PrtZone().
double** t_ionbal::CompRecoilHeatRate |
heating rate due to bound electron ionization by Compton scattering
Definition at line 194 of file ionbal.h.
Referenced by HeatSum(), highen(), ion_photo(), iso_photo(), IterRestart(), IterStart(), and zero().
double** t_ionbal::CompRecoilHeatRateSave |
save heating rate due to bound electron ionization by Compton scattering
Definition at line 197 of file ionbal.h.
Referenced by IterRestart(), IterStart(), and zero().
double** t_ionbal::CompRecoilIonRate |
rate of bound electron ionization by Compton scattering
Definition at line 188 of file ionbal.h.
Referenced by highen(), hmole_step(), ion_photo(), iso_photo(), IterRestart(), IterStart(), and zero().
double** t_ionbal::CompRecoilIonRateSave |
save rate of bound electron ionization by Compton scattering
Definition at line 191 of file ionbal.h.
Referenced by IterRestart(), IterStart(), and zero().
double t_ionbal::CosRayHeatRate |
double t_ionbal::CosRayIonRate |
cosmic ray ionization rate
Definition at line 159 of file ionbal.h.
Referenced by ContSetIntensity(), HeatSum(), highen(), and ParseCosmicRays().
float t_ionbal::CotaRate[LIMELM] |
the actual rates
Definition at line 294 of file ionbal.h.
Referenced by atmdat_3body(), ion_recomb(), PrtHydroTrace1a(), and zero().
float t_ionbal::DielSupprs[2][LIMELM] |
suppression factors for dielectronic recombination 1 is burgess and 2 is Storey
Definition at line 274 of file ionbal.h.
Referenced by atmdat_DielSupres(), ion_recomb(), lines_lv1_li_ne(), and lines_lv1_na_ar().
double ** t_ionbal::DR_Badnell_rate_coef |
Definition at line 230 of file ionbal.h.
Referenced by HeRecom(), ion_recom_calculate(), ion_recomb(), ion_solver(), and zero().
Definition at line 230 of file ionbal.h.
Referenced by ion_recom_calculate(), ion_recomb(), and zero().
double** t_ionbal::DR_old_rate_coef |
rate coefficients [cm3 s-1] for older DR recombination
Definition at line 248 of file ionbal.h.
Referenced by ion_recomb(), ion_solver(), and zero().
double ** t_ionbal::DR_rate_coef_used |
float t_ionbal::DR_S_scale[5] |
double t_ionbal::ExtraHeatRate |
float** t_ionbal::GrainCreat |
float ** t_ionbal::GrainDestr |
float t_ionbal::guess_noise |
log normal noise for guess, zero by default, turned on with noise option
Definition at line 279 of file ionbal.h.
Referenced by ion_recomb(), ParseSet(), and zero().
float t_ionbal::GuessDiel[4] |
this is fudge factor for scaled Nussbaumer and Storey dielectronic recombination, set with dielectronic kludge command, usually 1
Definition at line 287 of file ionbal.h.
Referenced by ion_recomb(), ParseSet(), and zero().
long int t_ionbal::ifail |
long int t_ionbal::ihthn |
long int t_ionbal::ilt |
these are error flags for three-body recombination
Definition at line 297 of file ionbal.h.
Referenced by da(), IterStart(), and zero().
long int t_ionbal::ilthn |
long int t_ionbal::iltln |
long int** t_ionbal::ipCompRecoil |
array indices for continuum offset of Compton recoil ionization threshold
Definition at line 185 of file ionbal.h.
Referenced by ContCreatePointers(), ContSetIntensity(), highen(), OpacityAddTotal(), and zero().
float t_ionbal::lg_guess_coef |
flag for guess of entire range of dr - false by default, true with kludge steve
Definition at line 277 of file ionbal.h.
Referenced by ion_recomb(), ParseSet(), and zero().
use the mean Badnell rates in place of existing hacks?
Definition at line 239 of file ionbal.h.
Referenced by ion_recomb(), ParseSet(), and zero().
flag saying that Compton recoil ionization of bound electrons is enabled, set false with no recoil ionization command
Definition at line 179 of file ionbal.h.
Referenced by ContSetIntensity(), highen(), ParseDont(), and zero().
do these rate coefficients exist?
Definition at line 235 of file ionbal.h.
Referenced by ion_recom_calculate(), ion_recomb(), and zero().
do we use new Badnell rates?
Definition at line 242 of file ionbal.h.
Referenced by ion_recomb(), ParseSet(), and zero().
grecon usually true, set to 0 with no grain neutralization command
Definition at line 270 of file ionbal.h.
Referenced by GrainChargeTemp(), ion_solver(), ParseDont(), and zero().
should H - O charge transfer be done in ionization or chemistry? default is chemistry, true
Definition at line 152 of file ionbal.h.
Referenced by ChargeTransferUpdate(), hmole_step(), ParseSet(), and zero().
this says whether to replace the Behar 01 data with the Bu et al. 06 data - default is true, to do so, set false with SET UTA BEHAR command
Definition at line 210 of file ionbal.h.
Referenced by atmdat_readin(), ParseSet(), and zero().
says whether to include the new Romas data set
Definition at line 207 of file ionbal.h.
Referenced by atmdat_readin(), ParseSet(), and zero().
this says whether to include inner shell absorption lines
Definition at line 205 of file ionbal.h.
Referenced by ConvBase(), ParseDont(), and zero().
bool t_ionbal::lgNoCota |
following all for 3-body recombination lgNoCota flag set with no three body recombination
Definition at line 291 of file ionbal.h.
Referenced by atmdat_3body(), ParseDont(), and zero().
bool t_ionbal::lgNoDec |
flag saying not to decrement this range
Definition at line 111 of file ionbal.h.
Referenced by ConvInitSolution(), and ion_trim().
set to 1 in zero, so have no effect, set to 0 with 'no photoionization' command, kills photoionization of everything
Definition at line 148 of file ionbal.h.
Referenced by GammaPrtShells(), hmole_step(), ion_photo(), iso_photo(), ParseDont(), and zero().
option to print rates then exit
Definition at line 242 of file ionbal.h.
Referenced by ion_recom_calculate(), ParseSet(), and zero().
Definition at line 235 of file ionbal.h.
Referenced by ion_recom_calculate(), ion_recomb(), and zero().
bool t_ionbal::lgSupDie[2] |
logical flag for suppression of dielectronic recombination 1 is burgess, 2 is Nussbaumer and Storey
Definition at line 283 of file ionbal.h.
Referenced by atmdat_DielSupres(), ParseSet(), and zero().
bool t_ionbal::lgTrimhiOn |
option to turn off upward ionization trimming, with set trim upper off
Definition at line 127 of file ionbal.h.
Referenced by ion_trim(), ParseSet(), and zero().
long int t_ionbal::nCompRecoilElec[LIMELM] |
number of valence electrons that can participate - multiplies since electron rate
Definition at line 217 of file ionbal.h.
Referenced by cdDefines(), highen(), and OpacityAddTotal().
three cases for S DR - 0, default larger of guess and Badnell 1, pure Badnell 3, scaled oxygen
Definition at line 261 of file ionbal.h.
Referenced by ion_recom_calculate(), ParseSet(), and zero().
double t_ionbal::PairProducPhotoRate[3] |
ionization and heating due to pair production
Definition at line 171 of file ionbal.h.
Referenced by HeatSum(), highen(), and lines_general().
double**** t_ionbal::PhotoRate_Shell |
store photoionization rates for all shells of all elements first dim is nelem, the atomic number of element on the c scale, H is 0. second dim is stage of ionization, on the c scale, atom is 0. third dim is shell number, K shell is 0, valence shell depends on ion, up to 7 last dim: 0 is photo rate (s-1) 1 is low energy heating 2 is high energy (secondary-capable) total heating both will be multiplied by ion abundance to get vol rates some special last pairs - [x][0][10][0] pair production in highen
Definition at line 143 of file ionbal.h.
Referenced by co_lnu_c_o_lnu(), GammaPrtRate(), GammaPrtShells(), HeatSum(), ion_photo(), ion_solver(), IonCalci(), IonCarbo(), IonIron(), IonMagne(), IonNitro(), IonOxyge(), IonSilic(), iso_photo(), lines(), PunchDo(), and zero().
double** t_ionbal::RateIonizTot |
total ionization rate (s-1) all processes
Definition at line 213 of file ionbal.h.
Referenced by CO_solve(), ele_ion_ladder(), HeLikeLevel(), hmole(), HydroLevel(), ion_solver(), IonNitro(), IonOxyge(), IonSilic(), IonSulph(), iso_ionize_recombine(), PunchDo(), and zero().
double** t_ionbal::RateRecomTot |
total recombination rate (s-1) all processes
Definition at line 227 of file ionbal.h.
Referenced by CO_solve(), ele_ion_ladder(), HeLikeLevel(), hmole(), HydroLevel(), HydroT2Low(), ion_recomb(), ion_recombAGN(), ion_solver(), IonCalci(), IonCarbo(), IonHelium(), IonNitro(), IonOxyge(), IonPotas(), IonSilic(), IonSulph(), iso_ionize_recombine(), PunchDo(), and zero().
double** t_ionbal::RR_Badnell_rate_coef |
rate coefficients [cm3 s-1] for Badnell DR recombination
Definition at line 230 of file ionbal.h.
Referenced by ion_recom_calculate(), ion_recomb(), and zero().
double** t_ionbal::RR_rate_coef_used |
radiative recombination rate coefficient (cm3 s-1) used by code
Definition at line 251 of file ionbal.h.
Referenced by CoolEvaluate(), HeRecom(), HydroRecom(), ion_recomb(), ion_solver(), IonHelium(), iso_ionize_recombine(), and zero().
double** t_ionbal::RR_Verner_rate_coef |
radiative recombination rate coefficient returned from Dima Verner's routine
Definition at line 255 of file ionbal.h.
Referenced by ion_recom_calculate(), ion_recomb(), and zero().
double t_ionbal::trimhi |
limits for highest and lowest stages of ionization in ion_trim, these are set with command "set trim xx" where xx is log of upper and lower ionization fractions. if only one number then both are set to it. These variables are used in trimStages to adjust the range of ionization.
limit to fractional abundance of high stage of ionization, set to 1e-6 in zero.c
Definition at line 120 of file ionbal.h.
Referenced by ion_trim(), ParseSet(), and zero().
double t_ionbal::trimlo |
limit to fractional abundance of low stage of ionization, set to 1e-10 in zero.c
Definition at line 120 of file ionbal.h.
Referenced by ion_trim(), ParseSet(), and zero().
double** t_ionbal::UTA_heat_rate |
inner shell UTA heating rate
Definition at line 202 of file ionbal.h.
Referenced by ConvBase(), HeatSum(), and zero().
double** t_ionbal::UTA_ionize_rate |
inner shell UTA ionization rate, includes autoionization probability
Definition at line 200 of file ionbal.h.
Referenced by ConvBase(), ion_solver(), and zero().
double t_ionbal::xNeutronHeatRate |