t_rfield Struct Reference

#include <rfield.h>

Inheritance diagram for t_rfield:

Collaboration diagram for t_rfield:

Public Member Functions
const char *	chName () const
void	zero ()
void	comment (t_warnings &)
	t_rfield ()
const realnum *	getCoarseTransCoef ()
void	setCoarseTransCoefPtr (size_t size)
void	resetCoarseTransCoef ()
void	setTrimming ()
Public Member Functions inherited from module
	module ()
virtual	~module ()
Public Member Functions inherited from t_mesh
void	InitMesh (bool lgUnitCell)
void	ValidateEdges () const
void	CheckMesh () const
bool	lgMeshSetUp () const
long	ncells () const
double	emm () const
double	egamry () const
double	getResolutionScaleFactor () const
void	setResolutionScaleFactor (double fac)
string	mesh_md5sum () const
const double *	anuptr () const
double	anu (size_t i) const
double	anu2 (size_t i) const
double	anu3 (size_t i) const
double	anuln (size_t i) const
const double *	anulog10ptr () const
double	anulog10 (size_t i) const
double	anusqrt (size_t i) const
double	anumin (size_t i) const
double	anumax (size_t i) const
double	widflx (size_t i) const
size_t	ipointC (double anu) const
size_t	ipointF (double anu) const
size_t	ithreshC (double threshold) const
size_t	ithreshF (double threshold) const
bool	isEnergyBound (Energy en) const
	t_mesh ()

Public Attributes
long int	nflux
long int	nflux_with_check
long int	nPositive
double	FluxFaint
vector< long >	line_count
vector< realnum >	OccNumbContEmitOut
Spectrum	flux
vector< realnum >	flux_isotropic
vector< realnum >	flux_beam_time
vector< realnum >	flux_beam_const
vector< realnum >	flux_accum
vector< realnum >	ExtinguishFactor
realnum	ExtinguishLeakage
realnum	ExtinguishColumnDensity
realnum	ExtinguishLowEnergyLimit
realnum	ExtinguishConvertColDen2OptDepth
realnum	ExtinguishEnergyPowerLow
bool	lgMustBlockHIon
bool	lgBlockHIon
bool	lgDoLineTrans
bool	lgOpacityReevaluate
bool	lgCMB_set
bool	lgIonizReevaluate
vector< realnum >	convoc
vector< realnum >	OccNumbIncidCont
vector< realnum >	OccNumbDiffCont
vector_avx< double >	ContBoltz
vector_avx< double >	ContBoltzHelp1
vector_avx< double >	ContBoltzHelp2
vector_avx< double >	vexp_arg
vector_avx< double >	ContBoltzAvg
multi_arr< realnum, 2 >	ConEmitLocal
multi_arr< realnum, 2 >	ConSourceFcnLocal
Spectrum	ConEmitReflec
Spectrum	ConEmitOut
vector< realnum >	ConInterOut
Spectrum	ConRefIncid
vector< double >	SummedCon
vector< realnum >	SummedDif
vector< realnum >	SummedOcc
vector< realnum >	SummedDifSave
vector< realnum >	ConOTS_local_photons
vector< realnum >	ConOTS_local_OTS_rate
vector< realnum >	DiffuseEscape
vector< realnum >	TotDiff2Pht
vector< realnum >	otslin
vector< realnum >	otscon
multi_arr< realnum, 2 >	otssav
Spectrum	outlin
vector< realnum >	outlin_noplot
vector< realnum >	DiffuseLineEmission
Spectrum	reflin
Spectrum	flux_total_incident
vector< realnum >	flux_beam_const_save
vector< realnum >	flux_time_beam_save
vector< realnum >	flux_isotropic_save
realnum	time_continuum_scale
realnum	DiffPumpOn
vector< string >	chLineLabel
vector< string >	chContLabel
char	chDffTrns [4]
bool	lgOutOnly
long int	ipEnergyBremsThin
realnum	EnergyBremsThin
long int	ipMaxBolt
bool	lgInducProcess
vector< double >	comup
vector< double >	comdn
long int	ipB_filter
long int	ipV_filter
long int	ipG0_TH85_lo
long int	ipG0_TH85_hi
long int	ipG0_DB96_lo
long int	ipG0_DB96_hi
long int	ipG0_spec_lo
long int	ipG0_spec_hi
long int	ip1000A
double	extin_mag_B_point
double	extin_mag_V_point
double	extin_mag_B_extended
double	extin_mag_V_extended
double	opac_mag_B_point
double	opac_mag_V_point
double	opac_mag_B_extended
double	opac_mag_V_extended
vector< realnum >	csigh
vector< realnum >	csigc
vector< realnum >	eeBremsDif
double	comtot
double	cmheat
double	cmcool
double	cinrat
bool	lgComptonOn
bool	lgComUndr
double	totpow [LIMSPC]
double	slope [LIMSPC]
double	cutoff [LIMSPC][3]
double	spfac [LIMSPC]
bool	lgTimeVary [LIMSPC]
bool	lgBeamed [LIMSPC]
realnum	OpticalDepthScaleFactor [LIMSPC]
Illuminate::IlluminationType	Illumination [LIMSPC]
long int	nShape
long int	ipSpec
vector< Energy >	tNu [LIMSPC]
vector< realnum >	tslop [LIMSPC]
vector< realnum >	tFluxLog [LIMSPC]
double	TableRadius [LIMSPC]
bool	lgSphericalDilution [LIMSPC]
long	ncont [LIMSPC]
double	RSFCheck [LIMSPC]
double	range [LIMSPC][2]
char	chSpNorm [LIMSPC][5]
char	chRSpec [LIMSPC][5]
char	chSpType [LIMSPC][6]
char	chCumuType [5]
realnum	qhtot
realnum	qhe
realnum	qheii
realnum	qbal
realnum	qrad
realnum	qtot
realnum	uh
realnum	uheii
bool	lgUSphON
realnum	rstrom
bool	lgHabing
long int	fine_opac_nelem
long int	fine_opac_nresolv
realnum	fine_opac_velocity_width
bool	trans_coef_total_stale
vector< long >	ipnt_coarse_2_fine
realnum	fine_ener_lo
realnum	fine_ener_hi
long	nfine
double	fine_resol
vector< realnum >	fine_opac_zone
vector< realnum >	fine_opt_depth
vector< realnum >	fine_anu
unordered_map< long, vector < int > >	fine_lstack
long int	ipFineConVelShift
bool	lgOpacityFine
bool	lgSaveOpacityFine
bool	lgLyaOTS
bool	lgHeIIOTS
bool	lgKillOutLine
bool	lgKillOutCont
bool	lgKillOTSLine
bool	lgPlasNu
realnum	plsfrq
realnum	plsfrqmax
long int	nZonePlsFrqEval
long int	ipPlasma
long int	ipPlasmax
bool	lgMMok
bool	lgHPhtOK
bool	lgXRayOK
bool	lgGamrOK
realnum	EnerGammaRay
long int	ipEnerGammaRay
bool	lgHionRad
realnum	occmax
realnum	occmnu
realnum	tbrmax
realnum	tbrmnu
realnum	tbr4nu
realnum	occ1nu
bool	lgOcc1Hi
realnum	EnergyIncidCont
realnum	EnergyDiffCont

Private Attributes
vector< realnum >	trans_coef_total

Constructor & Destructor Documentation

t_rfield::t_rfield ( )

inline

References ExtinguishConvertColDen2OptDepth, ExtinguishEnergyPowerLow, and nZonePlsFrqEval.

Member Function Documentation

const char* t_rfield::chName ( ) const

inlinevirtual

Implements module.

void t_rfield::comment ( t_warnings &  )

inlinevirtual

Implements module.

const realnum * t_rfield::getCoarseTransCoef

(

)

References fine_opt_depth, ipnt_coarse_2_fine, t_opac::lgScatON, nflux, opac, sexp(), trans_coef_total, and trans_coef_total_stale.

Referenced by cdSPEC2(), SaveDo(), and sum_radiation().

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void t_rfield::resetCoarseTransCoef ( )

inline

References nflux_with_check, trans_coef_total, and trans_coef_total_stale.

Referenced by ContCreateMesh(), IterRestart(), and RT_OTS_Zero().

void t_rfield::setCoarseTransCoefPtr ( size_t  size )

inline

References trans_coef_total.

Referenced by rfield_opac_alloc().

void t_rfield::setTrimming

(

)

References t_mesh::anu(), DEBUG_ENTRY, FluxFaint, max(), nflux, nPositive, SummedCon, and t_mesh::widflx().

Referenced by RT_continuum(), RT_OTS_Update(), RT_OTS_Zero(), and ZoneEnd().

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void t_rfield::zero ( void  )

virtual

Implements module.

References chCumuType, DEBUG_ENTRY, DiffPumpOn, fine_opac_nelem, fine_opac_nresolv, ipIRON, lgBlockHIon, lgDoLineTrans, lgHabing, lgHeIIOTS, lgIonizReevaluate, lgKillOTSLine, lgKillOutCont, lgKillOutLine, lgLyaOTS, lgMustBlockHIon, lgOpacityReevaluate, lgSaveOpacityFine, and time_continuum_scale.

Member Data Documentation

vector<string> t_rfield::chContLabel

string identifying the first continuum edge that occurred at this energy

Referenced by AGN_Hemis(), ContCreatePointers(), ContNegative(), ContSetIntensity(), GammaPrt(), ipContEnergy(), rfield_opac_alloc(), RT_continuum(), RT_OTS_ChkSum(), RT_OTS_PrtRate(), save_opacity(), and SaveDo().

char t_rfield::chCumuType[5]

Referenced by IterEnd(), ParseSet(), PrintSpectrum(), and zero().

char t_rfield::chDffTrns[4]

method for transferring diffuse continuum either 'ots' or 'oux' where x is n for which

Referenced by InitDefaultsPreparse(), ParseCosmology(), ParseDiffuse(), and RT_recom_effic().

vector<string> t_rfield::chLineLabel

string identifying the first line that occurred at this energy

Referenced by ContCreatePointers(), ContNegative(), ContSetIntensity(), FindStrongestLineLabels(), GammaPrt(), ipLineEnergy(), rfield_opac_alloc(), RT_continuum(), RT_OTS_ChkSum(), RT_OTS_PrtRate(), and SaveDo().

char t_rfield::chRSpec[LIMSPC][5]

Referenced by conorm(), ParseAbsMag(), ParseBackgrd(), ParseBlackbody(), ParseCMB(), ParseCommands(), ParseEnergy(), ParseF_nu(), ParseIntensity(), ParseIonPar(), ParseLuminosity(), ParsePhi(), ParseQH(), ParseRatio(), and ParseTable().

char t_rfield::chSpNorm[LIMSPC][5]

chSpNorm says how spectrum was normalized - intensity or luminosity case chRSpec says whether per unit area or tot 4 pi

Referenced by conorm(), ParseAbsMag(), ParseBackgrd(), ParseBlackbody(), ParseCMB(), ParseEnergy(), ParseF_nu(), ParseIntensity(), ParseIonPar(), ParseLuminosity(), ParsePhi(), ParseQH(), ParseRatio(), and ParseTable().

char t_rfield::chSpType[LIMSPC][6]

Referenced by conorm(), ContSetIntensity(), ffun1(), ParseAgn(), ParseBackgrd(), ParseBlackbody(), ParseBremsstrahlung(), ParseCMB(), ParseInterp(), ParseLaser(), ParsePowerlawContinuum(), and ParseTable().

double t_rfield::cinrat

Referenced by highen(), InitSimPostparse(), and PrtComment().

double t_rfield::cmcool

Referenced by CoolEvaluate(), highen(), InitSimPostparse(), PrtHeader(), and PrtZone().

double t_rfield::cmheat

Referenced by HeatSum(), highen(), lines(), lines_general(), PrtHeader(), and PrtZone().

vector<double> t_rfield::comdn

Referenced by highen(), rfield_opac_alloc(), and SaveDo().

double t_rfield::comtot

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

vector<double> t_rfield::comup

saves for the upward and downward Compton shifts

Referenced by highen(), rfield_opac_alloc(), and SaveDo().

multi_arr<realnum,2> t_rfield::ConEmitLocal

ConEmitLocal is local diffuse continuum, units photons cm-3 s-1 cell-1, for each zone, evaluated in RT_diffuse

Referenced by AGN_Hemis(), ContCreateMesh(), lines_continuum(), RT_continuum(), RT_diffuse(), RT_iso_integrate_RRC(), and SaveDo().

Spectrum t_rfield::ConEmitOut

outward diffuse emission continuum (not the interactive one), this is incremented in radinc because of interplay between absorption and emission - get the outward bremsstrahlung right photons cell-1 cm-2 s-1

Referenced by ContSetIntensity(), flxCell(), IterEnd(), IterRestart(), IterStart(), lines_continuum(), rfield_opac_alloc(), rfield_opac_zero(), RT_continuum(), SaveDo(), and sum_radiation().

Spectrum t_rfield::ConEmitReflec

reflected diffuse emission continuum

Referenced by ContSetIntensity(), flxCell(), IterEnd(), IterRestart(), IterStart(), lines_continuum(), rfield_opac_alloc(), rfield_opac_zero(), RT_continuum(), SaveDo(), and sum_radiation().

vector<realnum> t_rfield::ConInterOut

this is set in RT_diffuse and carries interactive continua

Referenced by ContNegative(), GammaBn(), GammaK(), GammaPrt(), GetDissociationRateCoeff(), diatomics::GetHeatRate(), GrainDrift(), diatomics::H2_LevelPops(), highen(), IterEnd(), IterRestart(), IterStart(), mole_h_reactions(), outsum(), PresTotCurrent(), PrtComment(), PrtFinal(), PrtHeader(), rfield_opac_alloc(), rfield_opac_zero(), RT_continuum(), RT_diffuse(), RT_OTS_ChkSum(), RT_OTS_Update(), RT_OTS_Zero(), and SaveDo().

vector<realnum> t_rfield::ConOTS_local_OTS_rate

the local photoionization rate corresponding to above photons

Referenced by GammaPrt(), IterRestart(), IterStart(), rfield_opac_alloc(), rfield_opac_zero(), RT_OTS_ChkSum(), RT_OTS_Update(), and RT_OTS_Zero().

vector<realnum> t_rfield::ConOTS_local_photons

this will control array of locally destroyed continuum photons, zeroed and evaluated in RT_diffuse, currently only two-photon

Referenced by IterRestart(), IterStart(), rfield_opac_alloc(), rfield_opac_zero(), RT_OTS_Update(), and RT_OTS_Zero().

Spectrum t_rfield::ConRefIncid

ConRefIncid is reflected portion of incident continuum

Referenced by ContSetIntensity(), flxCell(), IterEnd(), IterRestart(), lines_continuum(), rfield_opac_alloc(), rfield_opac_zero(), RT_continuum(), SaveDo(), and sum_radiation().

multi_arr<realnum,2> t_rfield::ConSourceFcnLocal

the local source function - diffuse emission, photons cell-1 cm-2 s-1

Referenced by ContCreateMesh(), RT_diffuse(), and SaveDo().

vector_avx<double> t_rfield::ContBoltz

array of Boltzmann factors for the continuum energy grid and current temperature

Referenced by atom_level2(), ContSetIntensity(), eeBremsSpectrum(), H21_cm_pops(), OpacityAdd1SubshellInduc(), OpacityAddTotal(), t_gaunt::p_setup_brems(), plankf(), rfield_opac_alloc(), rfield_opac_zero(), RT_diffuse(), RT_recom_effic(), RT_tau_inc(), and tfidle().

vector_avx<double> t_rfield::ContBoltzAvg

array of Boltzmann factors for the continuum energy grid and current temperature properly averaged over the width of the cell

Referenced by ContSetIntensity(), GammaBn(), rfield_opac_alloc(), rfield_opac_zero(), and tfidle().

vector_avx<double> t_rfield::ContBoltzHelp1

helper arrays for calculating Boltzmann factors averaged over the width of the cell

Referenced by ContSetIntensity(), iso_rad_rec_cooling_discrete(), rfield_opac_alloc(), rfield_opac_zero(), RT_iso_integrate_RRC(), and tfidle().

vector_avx<double> t_rfield::ContBoltzHelp2

Referenced by ContSetIntensity(), iso_rad_rec_cooling_discrete(), rfield_opac_alloc(), rfield_opac_zero(), RT_iso_integrate_RRC(), and tfidle().

vector<realnum> t_rfield::convoc

convoc is the conversion factor from rfield to OccNumbIncidCont

Referenced by ContSetIntensity(), IterRestart(), rfield_opac_alloc(), rfield_opac_zero(), RT_continuum(), RT_diffuse(), RT_OTS_Update(), RT_OTS_Zero(), set_xIntensity(), ZoneEnd(), and ZoneStart().

vector<realnum> t_rfield::csigc

Referenced by ContCreateMesh(), ContSetIntensity(), highen(), PrtHeader(), and rfield_opac_alloc().

vector<realnum> t_rfield::csigh

coefficients for fitting Tarter expressions for Compton heating and cooling, over full energy range of code

Referenced by ContCreateMesh(), ContSetIntensity(), highen(), PrtHeader(), and rfield_opac_alloc().

double t_rfield::cutoff[LIMSPC][3]

Referenced by ffun1(), ParseAgn(), ParseBackgrd(), ParseBlackbody(), ParseBremsstrahlung(), ParseCMB(), ParseLaser(), and ParsePowerlawContinuum().

realnum t_rfield::DiffPumpOn

this is zero or one depending whether pumping by diffuse fields is turned on (1) or turned off (0)

Referenced by ParseDont(), and zero().

vector<realnum> t_rfield::DiffuseEscape

computed in rt_diffuse.cpp, escaping continuum emission added to beam in radius_increment

Referenced by IterRestart(), IterStart(), rfield_opac_alloc(), RT_continuum(), RT_diffuse(), and RT_iso_integrate_RRC().

vector<realnum> t_rfield::DiffuseLineEmission

local diffuse line emission, photons cm-3 s-1

Referenced by lines_continuum(), outline_base_bin(), rfield_opac_alloc(), RT_diffuse(), and SaveDo().

vector<realnum> t_rfield::eeBremsDif

ee brems emission, still needs to be multiplied with pow2(dense.eden)

Referenced by OpacityAddTotal(), rfield_opac_alloc(), and RT_diffuse().

realnum t_rfield::EnerGammaRay

lowest energy counted as gamma rays, 100 keV

Referenced by ContCreatePointers(), InitSimPostparse(), and ParseInterp().

realnum t_rfield::EnergyBremsThin

Referenced by InitSimPostparse(), IterRestart(), IterStart(), PrtComment(), PrtFinal(), and tauff().

realnum t_rfield::EnergyDiffCont

Referenced by lgCheckMonitors(), PrtZone(), and RT_continuum().

realnum t_rfield::EnergyIncidCont

intensity [erg cm-2 s-1] in incident and diffuse continua in current zone

Referenced by lgCheckMonitors(), PrtZone(), and RT_continuum().

double t_rfield::extin_mag_B_extended

extinction in magnitudes at B and V filters for a resolved source, this does discount forward scattering, so is appropriate for a resolved source

Referenced by InitSimPostparse(), IterRestart(), IterStart(), and radius_increment().

double t_rfield::extin_mag_B_point

extinction in magnitudes at B and V filters for a point source, this does not discount forward scattering

Referenced by InitSimPostparse(), IterRestart(), IterStart(), PrtFinal(), and radius_increment().

double t_rfield::extin_mag_V_extended

Referenced by InitSimPostparse(), iter_end_check(), IterRestart(), IterStart(), matchGeneric(), PrtFinal(), radius_increment(), radius_next(), and SaveDo().

double t_rfield::extin_mag_V_point

Referenced by diatomics::H2_PunchDo(), InitSimPostparse(), ion_photo(), iter_end_check(), IterRestart(), IterStart(), matchGeneric(), mole_h_reactions(), PrtFinal(), radius_increment(), radius_next(), and SaveDo().

realnum t_rfield::ExtinguishColumnDensity

Referenced by extin(), InitDefaultsPreparse(), and ParseExtinguish().

realnum t_rfield::ExtinguishConvertColDen2OptDepth

the constant that multiplies the column density to get optical depth

Referenced by extin(), and t_rfield().

realnum t_rfield::ExtinguishEnergyPowerLow

the power on the energy

Referenced by extin(), and t_rfield().

vector<realnum> t_rfield::ExtinguishFactor

extinction factor set with extinguish command

Referenced by extin(), IncidentContinuumHere(), and rfield_opac_alloc().

realnum t_rfield::ExtinguishLeakage

Referenced by extin(), InitDefaultsPreparse(), and ParseExtinguish().

realnum t_rfield::ExtinguishLowEnergyLimit

Referenced by extin(), InitDefaultsPreparse(), and ParseExtinguish().

vector<realnum> t_rfield::fine_anu

energies at center of each bin for fine continuum

Referenced by ContCreateMesh(), ContCreatePointers(), print_emline_fine(), rfield_opac_alloc(), save_opacity(), and SaveDo().

realnum t_rfield::fine_ener_hi

Referenced by ContCreateMesh(), ipFineCont(), ParseSet(), and rfield_opac_alloc().

realnum t_rfield::fine_ener_lo

low and high bounds of fine continuum - set by need to include all resonance lines

Referenced by ContCreateMesh(), ipFineCont(), ParseSet(), and rfield_opac_alloc().

unordered_map<long, vector<int> > t_rfield::fine_lstack

map of list of line stack indices (value) centered on fine opacity vector index (key)

Referenced by lincom(), LineStackCreate(), and SaveDo().

long int t_rfield::fine_opac_nelem

heaviest element to be considered - default is iron - the fine opacity array resolution depends on heaviest element and lowest temperature

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

long int t_rfield::fine_opac_nresolv

number of resolution elements over width of this element, default is 4

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

realnum t_rfield::fine_opac_velocity_width

number of cm/s of each cell in fine mesh

Referenced by PrtFinal(), rfield_opac_alloc(), RT_fine_clear(), and RT_line_fine_opacity().

vector<realnum> t_rfield::fine_opac_zone

the fine continuum opacity array

Referenced by PressureRadiationLine(), rfield_opac_alloc(), rfield_opac_zero(), RT_fine_clear(), RT_line_escape(), RT_line_fine_opacity(), RT_line_one_tauinc(), RT_recom_effic(), RT_tau_inc(), RT_tau_reset(), save_opacity(), and SaveDo().

vector<realnum> t_rfield::fine_opt_depth

total optical depth array for fine continuum

Referenced by getCoarseTransCoef(), rfield_opac_alloc(), rfield_opac_zero(), RT_tau_inc(), RT_tau_reset(), and SaveDo().

double t_rfield::fine_resol

the dimensionless resolution of the fine continuum - dE/E

Referenced by ipFineCont(), and rfield_opac_alloc().

Spectrum t_rfield::flux

================================================================================= the following are the arrays containing the local radiation field flux is photons per cell N.B. width of cells vary with energy, given by widflx

Referenced by ContNegative(), ContRate(), ContSetIntensity(), CoolEvaluate(), extin(), flux_correct_isotropic(), GammaBn(), GammaK(), GammaPrt(), GetDissociationRateCoeff(), diatomics::GetHeatRate(), GrainCharge(), GrainDrift(), GrainElecEmis1(), GrainRateDr(), GrainTemperature(), diatomics::H2_LevelPops(), highen(), IncidentContinuumHere(), IterEnd(), IterRestart(), lines_continuum(), mole_h_reactions(), outsum(), PresTotCurrent(), PrtFinal(), PrtHeader(), qintr(), rfield_opac_alloc(), rfield_opac_zero(), RT_continuum(), RT_diffuse(), RT_OTS_ChkSum(), RT_OTS_Update(), RT_OTS_Zero(), SaveDo(), sum_radiation(), sumcon(), ZoneEnd(), and ZoneStart().

vector<realnum> t_rfield::flux_accum

the accumulated flux, sum from this energy to infinity

Referenced by diatomics::H2_X_sink_and_source(), rfield_opac_alloc(), rfield_opac_zero(), and RT_OTS_Update().

vector<realnum> t_rfield::flux_beam_const

Referenced by ContSetIntensity(), extin(), flux_correct_isotropic(), IterRestart(), rfield_opac_alloc(), RT_continuum(), RT_diffuse(), ZoneEnd(), and ZoneStart().

vector<realnum> t_rfield::flux_beam_const_save

Referenced by ContSetIntensity(), IterRestart(), rfield_opac_alloc(), and rfield_opac_zero().

vector<realnum> t_rfield::flux_beam_time

this is the variable and constant parts of the above

Referenced by ContSetIntensity(), extin(), flux_correct_isotropic(), IterRestart(), rfield_opac_alloc(), RT_continuum(), RT_diffuse(), ZoneEnd(), and ZoneStart().

vector<realnum> t_rfield::flux_isotropic

this is the isotropic part of the constant continuum

Referenced by ContSetIntensity(), extin(), IterRestart(), rfield_opac_alloc(), RT_continuum(), RT_diffuse(), set_xIntensity(), ZoneEnd(), and ZoneStart().

vector<realnum> t_rfield::flux_isotropic_save

Referenced by ContSetIntensity(), IterRestart(), rfield_opac_alloc(), and rfield_opac_zero().

vector<realnum> t_rfield::flux_time_beam_save

Referenced by ContSetIntensity(), IterRestart(), rfield_opac_alloc(), and rfield_opac_zero().

Spectrum t_rfield::flux_total_incident

save incident continuum for later iterations

Referenced by ContSetIntensity(), flxCell(), IterEnd(), IterRestart(), rfield_opac_alloc(), rfield_opac_zero(), RT_continuum(), and SaveDo().

double t_rfield::FluxFaint

faintest high energy flux to consider, set with set flxfnt command

Referenced by InitDefaultsPreparse(), ParseSet(), setTrimming(), and ZoneEnd().

Illuminate::IlluminationType t_rfield::Illumination[LIMSPC]

Referenced by ContSetIntensity(), InitDefaultsPreparse(), ParseBackgrd(), ParseBlackbody(), ParseCMB(), ParseIlluminate(), and ParseTable().

long int t_rfield::ip1000A

this is the wavelength where Bertoldi & Draine estimate the Habing field

Referenced by ContCreatePointers(), and mole_h_reactions().

long int t_rfield::ipB_filter

array indices for centers of B and V filters

Referenced by ContCreatePointers(), and radius_increment().

long int t_rfield::ipEnerGammaRay

Referenced by ContCreatePointers(), and ContSetIntensity().

long int t_rfield::ipEnergyBremsThin

ipEnergyBremsThin is index for lowest energy thin to ff abs and plasma frequency EnergyBremsThin is energy there, Ryd

Referenced by t_gaunt::brems_cool(), ContRate(), CoolEvaluate(), GrainRateDr(), InitSimPostparse(), IterRestart(), IterStart(), RT_OTS_ChkSum(), and tauff().

long int t_rfield::ipFineConVelShift

shift in fine continuum rest frame scale due to velocity gradient, rest frame is velocity of first zone, positive means that first zone is blue shifted relative to current zone. This is a decelerating flow. Evaluated in RT_line_all

Referenced by PressureRadiationLine(), rfield_opac_alloc(), RT_fine_clear(), RT_line_escape(), RT_line_fine_opacity(), RT_line_one_tauinc(), and SaveDo().

long int t_rfield::ipG0_DB96_hi

Referenced by ContCreatePointers(), ContSetIntensity(), and mole_h_reactions().

long int t_rfield::ipG0_DB96_lo

these are the lower and upper bounds for the G0 radiation field used by Tielens & Hollenbach in their PDR work

Referenced by ContCreatePointers(), ContSetIntensity(), and mole_h_reactions().

long int t_rfield::ipG0_spec_hi

Referenced by ContCreatePointers(), and mole_h_reactions().

long int t_rfield::ipG0_spec_lo

these are the lower and upper bounds for the special G0 radiation field

Referenced by ContCreatePointers(), and mole_h_reactions().

long int t_rfield::ipG0_TH85_hi

Referenced by ContCreatePointers(), and mole_h_reactions().

long int t_rfield::ipG0_TH85_lo

these are the lower and upper bounds for the G0 radiation field used by Tielens & Hollenbach in their PDR work

Referenced by ContCreatePointers(), and mole_h_reactions().

long int t_rfield::ipMaxBolt

index of highest cell with positive Boltzmann factor

Referenced by t_gaunt::brems_cool(), t_gaunt::brems_rt(), CoolEvaluate(), t_gaunt::p_setup_brems(), RT_diffuse(), SaveDo(), and tfidle().

vector<long> t_rfield::ipnt_coarse_2_fine

and array indices for lower and upper bounds of each coarse continuum mapped onto the fine continuum 0 (false) if fine continuum does not extend to these cells

Referenced by ContCreateMesh(), getCoarseTransCoef(), rfield_opac_alloc(), and RT_recom_effic().

long int t_rfield::ipPlasma

pointer to current plasma frequency

Referenced by ContRate(), ContSetIntensity(), EdenChange(), RT_continuum(), RT_diffuse(), and RT_OTS_Update().

long int t_rfield::ipPlasmax

pointer to largest plasma freq encountered

Referenced by ContSetIntensity().

long int t_rfield::ipSpec

Referenced by conorm(), ContSetIntensity(), ffun(), ffun1(), and qintr().

long int t_rfield::ipV_filter

Referenced by ContCreatePointers(), radius_increment(), and SaveDo().

bool t_rfield::lgBeamed[LIMSPC]

Referenced by ContSetIntensity(), ffun(), InitDefaultsPreparse(), ParseBackgrd(), ParseCMB(), ParseIlluminate(), and ParseTable().

bool t_rfield::lgBlockHIon

Referenced by ParseCommands(), ParseExtinguish(), and zero().

bool t_rfield::lgCMB_set

this flag says that CMB has been set

Referenced by InitDefaultsPreparse(), ParseBackgrd(), ParseCMB(), and PrtComment().

bool t_rfield::lgComptonOn

Referenced by cmshft(), highen(), InitDefaultsPreparse(), and ParseDont().

bool t_rfield::lgComUndr

set true if Compton cooling underflows

Referenced by PrtComment(), and PrtHeader().

bool t_rfield::lgDoLineTrans

option to not do line transfer, set false with no line transfer command

Referenced by outline_base(), ParseCommands(), ParseDont(), PresTotCurrent(), RT_line_all(), RT_line_one_escape(), RT_line_one_fine(), and zero().

bool t_rfield::lgGamrOK

Referenced by InitDefaultsPreparse(), ParseInterp(), and PrtComment().

bool t_rfield::lgHabing

flag set if incident radiation field less than 10x the Habing ISM field

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

bool t_rfield::lgHeIIOTS

flag saying whether to include HeII Lya and rec cont ots in the radiation field - - usually true, set false with no HeII ots command

Referenced by ParseDont(), RT_OTS(), and zero().

bool t_rfield::lgHionRad

lgHionRad set to .true. if no hydrogen ionizing radiation

Referenced by ContSetIntensity(), and PrtComment().

bool t_rfield::lgHPhtOK

Referenced by InitDefaultsPreparse(), ParseInterp(), and PrtComment().

bool t_rfield::lgInducProcess

turn off continuum pumping, set with 'no induced processes' command

Referenced by GammaBn(), diatomics::H2_LevelPops(), InitDefaultsPreparse(), iso_update_rates(), OpacityAdd1SubshellInduc(), ParseDont(), RT_diffuse(), RT_line_pumping(), RT_OTS_Update(), and setXtraRatesO1().

bool t_rfield::lgIonizReevaluate

says whether to constantly reevaluate ionization, normally true, set false with no ionization reevaluate command

Referenced by ConvBase(), ParseCommands(), ParseDont(), and zero().

bool t_rfield::lgKillOTSLine

flag saying whether to kill ots lines

Referenced by ParseDont(), RT_OTS_Update(), and zero().

bool t_rfield::lgKillOutCont

flag saying whether to kill outward only continuum

Referenced by ParseDont(), RT_diffuse(), and zero().

bool t_rfield::lgKillOutLine

flag saying whether to kill outward only lines

Referenced by ParseDont(), RT_diffuse(), and zero().

bool t_rfield::lgLyaOTS

flag saying whether to include H1 Lya ots in the radiation field - usually true, set false with no Lya ots command

Referenced by ParseDont(), RT_OTS(), and zero().

bool t_rfield::lgMMok

these are series of flags that say whether different parts of the continuum where entered ok

Referenced by InitDefaultsPreparse(), ParseInterp(), and PrtComment().

bool t_rfield::lgMustBlockHIon

this is set true is one of incident continua is expected to have all H-ionizing radiation blocked. That is done separately with the extinguish command.

Referenced by ParseCommands(), ParseTable(), and zero().

bool t_rfield::lgOcc1Hi

flag saying that occupation number at 1 Ryd > 1

Referenced by ContSetIntensity(), and PrtComment().

bool t_rfield::lgOpacityFine

option to turn off fine opacities with no fine opacity command

Referenced by InitDefaultsPreparse(), ParseCommands(), ParseDont(), PressureRadiationLine(), RT_line_escape(), RT_line_fine_opacity(), RT_line_one_tauinc(), RT_recom_effic(), and RT_tau_inc().

bool t_rfield::lgOpacityReevaluate

says whether to constantly reevaluate opacities, normally true, set false with no opacity reevaluate command

Referenced by ConvBase(), ParseCommands(), ParseDont(), and zero().

bool t_rfield::lgOutOnly

another flag, true if outward only - used to multiply the ConInterOut continuum for creating the interactive continuum - when false, no outward only, this is not added

Referenced by GammaBn(), GammaK(), GammaPrt(), InitDefaultsPreparse(), ParseDiffuse(), RT_OTS_ChkSum(), and RT_OTS_Update().

bool t_rfield::lgPlasNu

following deal with plasma frequency, which enters the continuum array for even moderate densities due to very low frequencies considered set true if plasma freq enters energy array

Referenced by ContSetIntensity(), EdenChange(), iso_level(), and PrtComment().

bool t_rfield::lgSaveOpacityFine

says that fine optical depths will be saved, so save them

Referenced by ParseSave(), and zero().

bool t_rfield::lgSphericalDilution[LIMSPC]

does TABLE READ SED need additional spherical dilution?

Referenced by InitDefaultsPreparse(), ParseCommands(), and ParseTable().

bool t_rfield::lgTimeVary[LIMSPC]

option to have continuum intensity be time dependent

Referenced by ContSetIntensity(), DynaIterStart(), ffun(), InitDefaultsPreparse(), ParseAbsMag(), ParseCMBOuter(), ParseEnergy(), ParseF_nu(), ParseIntensity(), ParseIonPar(), ParseLuminosity(), ParsePhi(), ParseQH(), ParseRatio(), and ParseTable().

bool t_rfield::lgUSphON

lgUSphON flag set when we hit Stromgren radius in spherical geometry

Referenced by dense_fabden(), InitSimPostparse(), IterRestart(), optimize_func(), PrtFinal(), and radius_increment().

bool t_rfield::lgXRayOK

Referenced by InitDefaultsPreparse(), ParseInterp(), and PrtComment().

vector<long> t_rfield::line_count

used to keep track of number of lines per freq interval

Referenced by ipLineEnergy(), rfield_opac_alloc(), RT_OTS_PrtRate(), and SaveDo().

long t_rfield::ncont[LIMSPC]

Referenced by conorm(), ffun1(), InitDefaultsPreparse(), ParseInterp(), ParseTable(), and ReadTable().

long t_rfield::nfine

the number of fine continuum cells - will be several million

Referenced by ContCreateMesh(), ipFineCont(), PressureRadiationLine(), rfield_opac_alloc(), RT_line_escape(), RT_line_fine_opacity(), RT_line_one_tauinc(), RT_recom_effic(), RT_tau_inc(), save_opacity(), and SaveDo().

long int t_rfield::nflux

================================================================================= the following define the continuum energy scale and its limits nflux is number of continuum points needed to get to high energy end of continuum. this excludes the unity test cell.

Referenced by AGN_Hemis(), t_gaunt::brems_cool(), t_gaunt::brems_opac(), t_gaunt::brems_rt(), cdDrive(), cdSPEC2(), cmshft(), ContCreateMesh(), ContNegative(), ContRate(), ContSetIntensity(), ConvInitSolution(), CoolEvaluate(), eeBremsSpectrum(), ffun1(), FindStrongestLineLabels(), flux_correct_isotropic(), GammaBn(), GammaK(), GammaPrt(), getCoarseTransCoef(), GetDissociationRateCoeff(), diatomics::GetHeatRate(), GrainCharge(), GrainMakeDiffuse(), GrainUpdateRadius2(), GridRetrieveXSPECData(), highen(), IncidentContinuumHere(), ion_photo(), ion_trim(), ion_trim_init(), iso_photo(), iso_rad_rec_cooling_discrete(), IterEnd(), lincom(), OpacityAdd1Element(), OpacityAdd1Subshell(), OpacityAdd1SubshellInduc(), OpacityAddTotal(), OpacityCreateAll(), outsum(), t_gaunt::p_setup_brems(), pnegopc(), PresTotCurrent(), process_output(), PrtComment(), PrtFinal(), PrtHeader(), punchFITS_GenericData(), punchFITS_GenericHeader(), radius_first(), RT_continuum(), RT_DestProb(), RT_diffuse(), RT_iso_integrate_RRC(), RT_OTS(), RT_OTS_AddCont(), RT_OTS_AddLine(), RT_OTS_ChkSum(), RT_OTS_Update(), RT_OTS_Zero(), RT_recom_effic(), SanityCheckBegin(), save_opacity(), SaveDo(), saveFITSfile(), setTrimming(), sum_radiation(), sumcon(), tauff(), UpdatePot(), UpdatePot1(), ZoneEnd(), and ZoneStart().

long int t_rfield::nflux_with_check

number of frequency cells including unity test cell

Referenced by AtlasInterpolate(), diatomics::CalcPhotoionizationRate(), cdDrive(), ContCreateMesh(), ContCreatePointers(), ContSetIntensity(), CoolEvaluate(), CoStarInterpolate(), emergent_line(), extin(), ffun1(), GrainsInit(), GrainUpdateRadius2(), GridInterpolate(), HaardtMadauInterpolate(), InitSimPostparse(), InterpolateGridCoStar(), InterpolateModel(), InterpolateModelCoStar(), InterpolateRectGrid(), IterRestart(), IterStart(), KhaireSrianandInterpolate(), Kurucz79Interpolate(), lgReadAtmosphereTail(), lgValidModel(), mie_calc_ial(), mie_write_opc(), MihalasInterpolate(), OpacityAddTotal(), diatomics::OpacityCreate(), OpacityCreate1Element(), OpacityCreateAll(), OpacityZero(), OpacityZeroOld(), t_gaunt::p_gauntff_vec(), t_gaunt::p_setup_brems(), PlanckIntegral(), qheat(), qintr(), radius_next(), RauchInterpolateCOWD(), RauchInterpolateHCa(), RauchInterpolateHelium(), RauchInterpolateHNi(), RauchInterpolateHpHe(), RauchInterpolateHydr(), RauchInterpolatePG1159(), RebinAtmosphere(), resetCoarseTransCoef(), rfield_opac_alloc(), RT_diffuse(), RT_OTS_AddCont(), RT_OTS_PrtRate(), RT_recom_effic(), RT_tau_init(), RT_tau_reset(), save_opacity(), SaveDo(), tfidle(), TlustyInterpolate(), UpdatePot1(), WernerInterpolate(), WMBASICInterpolate(), and ZoneEnd().

long int t_rfield::nPositive

number of cells to include highest continuum cell with non-zero photon flux, loops over continuum should go to <nPositive to include positive cells

Referenced by cdDrive(), ContCreateMesh(), ContSetIntensity(), ConvInitSolution(), GammaBn(), GammaK(), GrainDrift(), GrainElecEmis1(), GrainsInit(), GrainTemperature(), highen(), PE_init(), qheat_init(), setTrimming(), UpdatePot(), UpdatePot1(), and ZoneEnd().

long int t_rfield::nShape

nShape is SED shape index number, this must equal the number of field intensities that are specified ipSpec is radiation field source number

Referenced by conorm(), ContSetIntensity(), DynaIterStart(), ffun(), ffun1(), InterpolateGridCoStar(), InterpolateRectGrid(), ParseAgn(), ParseBackgrd(), ParseBlackbody(), ParseBremsstrahlung(), ParseCMB(), ParseCommands(), ParseIlluminate(), ParseInterp(), ParseLaser(), ParsePowerlawContinuum(), ParseTable(), and ReadTable().

long int t_rfield::nZonePlsFrqEval

Referenced by EdenChange(), and t_rfield().

realnum t_rfield::occ1nu

Referenced by ContSetIntensity(), and PrtComment().

realnum t_rfield::occmax

these store photon occupation numbers at various energies in the continuum

Referenced by ContSetIntensity(), and PrtComment().

realnum t_rfield::occmnu

Referenced by ContSetIntensity(), and PrtComment().

vector<realnum> t_rfield::OccNumbContEmitOut

outward emitted continuum

Referenced by iso_ionize_recombine(), IterRestart(), rfield_opac_alloc(), rfield_opac_zero(), RT_continuum(), and RT_line_pumping().

vector<realnum> t_rfield::OccNumbDiffCont

OccNumbDiffCont is the continuum occupation number, for local diffuse continuum

Referenced by IterRestart(), rfield_opac_alloc(), rfield_opac_zero(), RT_continuum(), and RT_diffuse().

vector<realnum> t_rfield::OccNumbIncidCont

OccNumbIncidCont is the continuum occupation number for the attenuated incident ONLY

Referenced by ContSetIntensity(), highen(), iso_ionize_recombine(), IterRestart(), PrtHeader(), rfield_opac_alloc(), RT_continuum(), RT_line_pumping(), and SaveDo().

double t_rfield::opac_mag_B_extended

Referenced by radius_increment().

double t_rfield::opac_mag_B_point

these are total opacities at these wavelengths, used to stop at exact Av

Referenced by radius_increment().

double t_rfield::opac_mag_V_extended

Referenced by radius_increment(), and radius_next().

double t_rfield::opac_mag_V_point

Referenced by radius_increment(), and radius_next().

realnum t_rfield::OpticalDepthScaleFactor[LIMSPC]

1 / cos( illumination angle, angle measured from normal, default is angle=zero, normal illumination, DirectCos = 1

Referenced by ContSetIntensity(), InitDefaultsPreparse(), and ParseIlluminate().

vector<realnum> t_rfield::otscon

the local ots continuum rates

Referenced by ContNegative(), GammaPrt(), IterRestart(), IterStart(), OpacityAddTotal(), rfield_opac_alloc(), rfield_opac_zero(), RT_continuum(), RT_diffuse(), RT_OTS(), RT_OTS_AddCont(), RT_OTS_ChkSum(), RT_OTS_PrtRate(), RT_OTS_Update(), RT_OTS_Zero(), and SaveDo().

vector<realnum> t_rfield::otslin

otsline and otscon - local ots fields for line and continua outlin outward line fields the local ots line rates

Referenced by ContNegative(), eden_sum(), GammaBn(), GammaK(), GammaPrt(), GrainTemperature(), ion_photo(), IterRestart(), IterStart(), OpacityAddTotal(), rfield_opac_alloc(), rfield_opac_zero(), RT_continuum(), RT_diffuse(), RT_OTS(), RT_OTS_AddLine(), RT_OTS_ChkSum(), RT_OTS_PrtRate(), RT_OTS_Update(), RT_OTS_Zero(), SaveDo(), and setXtraRatesCa2().

multi_arr<realnum,2> t_rfield::otssav

Referenced by IterRestart(), IterStart(), and rfield_opac_alloc().

Spectrum t_rfield::outlin

outward directed line emission photons cm-2 s-1

Referenced by ContNegative(), flxCell(), GammaPrt(), GetDissociationRateCoeff(), diatomics::GetHeatRate(), GrainDrift(), diatomics::H2_LevelPops(), highen(), IterEnd(), IterRestart(), IterStart(), lines_continuum(), mole_h_reactions(), outline_base_bin(), outsum(), PresTotCurrent(), PrtFinal(), PrtHeader(), rfield_opac_alloc(), rfield_opac_zero(), RT_continuum(), RT_diffuse(), RT_OTS_ChkSum(), RT_OTS_Update(), RT_OTS_Zero(), SaveDo(), and sum_radiation().

vector<realnum> t_rfield::outlin_noplot

Referenced by GammaPrt(), GetDissociationRateCoeff(), diatomics::GetHeatRate(), GrainDrift(), diatomics::H2_LevelPops(), highen(), IterEnd(), IterRestart(), IterStart(), mole_h_reactions(), outsum(), PresTotCurrent(), PrtFinal(), PrtHeader(), rfield_opac_alloc(), rfield_opac_zero(), RT_continuum(), RT_diffuse(), RT_OTS_ChkSum(), RT_OTS_Update(), RT_OTS_Zero(), SaveDo(), and sum_radiation().

realnum t_rfield::plsfrq

plasma frequency for current position in slab

Referenced by ContSetIntensity(), EdenChange(), iso_level(), TransitionProxy::outline(), PressureRadiationLine(), RT_line_one_escape(), RT_line_one_fine(), RT_line_one_tauinc(), and tauff().

realnum t_rfield::plsfrqmax

store highest energy plasma frequency encountered

Referenced by ContSetIntensity(), EdenChange(), and PrtComment().

realnum t_rfield::qbal

Referenced by ContSetIntensity(), PrtHeader(), and radius_first().

realnum t_rfield::qhe

Referenced by ContSetIntensity(), and PrtHeader().

realnum t_rfield::qheii

Referenced by ContSetIntensity(), and PrtHeader().

realnum t_rfield::qhtot

these are total numbers of photons over various energy ranges

Referenced by ContSetIntensity(), lines_hydro(), PrtFinal(), PrtHeader(), radius_first(), and RT_tau_init().

realnum t_rfield::qrad

Referenced by ContSetIntensity().

realnum t_rfield::qtot

Referenced by ContSetIntensity(), and IterStart().

double t_rfield::range[LIMSPC][2]

energy range over which the intensity is integrated for normalizing each continuum source that contributes to the total source

Referenced by conorm(), InitDefaultsPreparse(), ParseAbsMag(), ParseBackgrd(), ParseBlackbody(), ParseCMB(), ParseEnergy(), ParseF_nu(), ParseIntensity(), ParseIonPar(), ParseLuminosity(), ParsePhi(), ParseQH(), ParseRangeOption(), ParseRatio(), and ParseTable().

Spectrum t_rfield::reflin

reflected line

Referenced by flxCell(), IterEnd(), IterRestart(), lines_continuum(), outline_base_bin(), rfield_opac_alloc(), rfield_opac_zero(), RT_continuum(), RT_diffuse(), SaveDo(), and sum_radiation().

double t_rfield::RSFCheck[LIMSPC]

used to store a check on the continuum mesh resolution scale factor this is used for the output of the SAVE TRANSMITTED CONTINUUM command

Referenced by conorm(), InitDefaultsPreparse(), and ReadTable().

realnum t_rfield::rstrom

the Stromgren radius var set to get u spherical

Referenced by dense_fabden(), optimize_func(), PrtFinal(), and radius_increment().

double t_rfield::slope[LIMSPC]

Referenced by conorm(), ContSetIntensity(), ffun1(), ParseAgn(), ParseBackgrd(), ParseBlackbody(), ParseBremsstrahlung(), ParseCMB(), ParseLaser(), and ParsePowerlawContinuum().

double t_rfield::spfac[LIMSPC]

Referenced by conorm(), and ffun().

vector<double> t_rfield::SummedCon

these are energy-by-energy sums of various arrays, used to save time in evaluating rate integrals

Referenced by ContNegative(), GammaBn(), GammaK(), GammaPrt(), GrainElecEmis1(), GrainTemperature(), highen(), IterRestart(), qheat_init(), rfield_opac_alloc(), rfield_opac_zero(), RT_continuum(), RT_OTS_ChkSum(), RT_OTS_Update(), RT_OTS_Zero(), setTrimming(), ZoneEnd(), and ZoneStart().

vector<realnum> t_rfield::SummedDif

Referenced by GrainTemperature(), IterRestart(), IterStart(), rfield_opac_alloc(), rfield_opac_zero(), RT_continuum(), RT_OTS_ChkSum(), RT_OTS_Update(), RT_OTS_Zero(), ZoneEnd(), and ZoneStart().

vector<realnum> t_rfield::SummedDifSave

Referenced by IterRestart(), IterStart(), and rfield_opac_alloc().

vector<realnum> t_rfield::SummedOcc

Referenced by CalcTwoPhotonEmission(), CalcTwoPhotonRates(), IterRestart(), rfield_opac_alloc(), rfield_opac_zero(), RT_continuum(), RT_OTS_Update(), RT_OTS_Zero(), ZoneEnd(), and ZoneStart().

double t_rfield::TableRadius[LIMSPC]

TABLE READ input is normalized on this radius

Referenced by InitDefaultsPreparse(), ParseCommands(), and ReadTable().

realnum t_rfield::tbr4nu

Referenced by ContSetIntensity(), and PrtComment().

realnum t_rfield::tbrmax

Referenced by ContSetIntensity(), and PrtComment().

realnum t_rfield::tbrmnu

Referenced by ContSetIntensity(), and PrtComment().

vector<realnum> t_rfield::tFluxLog[LIMSPC]

this is the log of f_nu of continuum point

Referenced by ffun1(), InitDefaultsPreparse(), ParseInterp(), ParseTable(), and ReadTable().

realnum t_rfield::time_continuum_scale

==1 for time steady, when continuum varies with time, is scale factor

Referenced by DynaIterEnd(), DynaIterStart(), DynaPunchTimeDep(), IterRestart(), and zero().

vector<Energy> t_rfield::tNu[LIMSPC]

these are used for interpolate and table commands, all have two indices, continuum and frequency tNuRyd is the linear energy Rydberg of continuum point must be explicit arrays again so that table commands will work before continuum defined.

Referenced by conorm(), ffun1(), InitDefaultsPreparse(), InterpolateGridCoStar(), InterpolateRectGrid(), ParseInterp(), ParseTable(), and ReadTable().

vector<realnum> t_rfield::TotDiff2Pht

saves total two photon continuum for debugging, set in RT_diffuse

Referenced by rfield_opac_alloc(), RT_diffuse(), and SaveDo().

double t_rfield::totpow[LIMSPC]

Referenced by conorm(), ParseAbsMag(), ParseBackgrd(), ParseBlackbody(), ParseCMB(), ParseCommands(), ParseEnergy(), ParseF_nu(), ParseIntensity(), ParseIonPar(), ParseLuminosity(), ParsePhi(), ParseQH(), ParseRatio(), and ParseTable().

vector<realnum> t_rfield::trans_coef_total

private

these are TOTAL transmission coefficients for fine opacity degraded to coarse continuum

Referenced by getCoarseTransCoef(), resetCoarseTransCoef(), and setCoarseTransCoefPtr().

bool t_rfield::trans_coef_total_stale

Referenced by getCoarseTransCoef(), resetCoarseTransCoef(), and RT_tau_inc().

vector<realnum> t_rfield::tslop[LIMSPC]

Referenced by conorm(), ffun1(), InitDefaultsPreparse(), InterpolateGridCoStar(), InterpolateRectGrid(), ParseInterp(), and ParseTable().

realnum t_rfield::uh

hydrogen ionization parameter

Referenced by ContSetIntensity(), ion_trim_init(), PrtComment(), PrtFinal(), PrtHeader(), and radius_first().

realnum t_rfield::uheii

helium ion ionization parameter

Referenced by ContSetIntensity(), PrtFinal(), and PrtHeader().

vector_avx<double> t_rfield::vexp_arg

helper array for vexp() calls

Referenced by rfield_opac_alloc(), RT_continuum(), and tfidle().

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

• rfield.h
• rfield.cpp