cloudy  trunk
Data Fields
t_rfield Struct Reference

#include <rfield.h>

Collaboration diagram for t_rfield:
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Data Fields

long int nflux
long int nupper
realnum emm
realnum egamry
realnum FluxFaint
realnumanu
realnumAnuOrg
realnumwidflx
long int * line_count
realnumOccNumbBremsCont
realnumOccNumbContEmitOut
realnumanulog
realnumanusqr
realnumanu2
realnumanu3
realnumflux
realnumflux_isotropic
realnumflux_beam_time
realnumflux_beam_const
realnumflux_accum
bool lgMustBlockHIon
bool lgBlockHIon
bool lgDoLineTrans
bool lgOpacityReevaluate
bool lgCMB_set
bool lgIonizReevaluate
realnumconvoc
realnumOccNumbIncidCont
realnumOccNumbDiffCont
double * ContBoltz
realnum ** ConEmitLocal
realnumConEmitReflec
realnumConEmitOut
realnumConInterOut
realnumConRefIncid
realnumSummedCon
realnumSummedDif
realnumSummedOcc
realnumSummedDifSave
realnumConOTS_local_photons
realnumConOTS_local_OTS_rate
realnumTotDiff2Pht
realnumotslin
realnumotscon
realnumotslinNew
realnumotsconNew
realnum ** otssav
realnumoutlin
realnumoutlin_noplot
realnumreflin
realnumflux_total_incident
realnumflux_beam_const_save
realnumflux_time_beam_save
realnumflux_isotropic_save
realnum time_continuum_scale
realnum DiffPumpOn
char ** chLineLabel
char ** chContLabel
realnum ** gff
bool lgCompileGauntFF
char chDffTrns [4]
bool lgOutOnly
long int ipEnergyBremsThin
realnum EnergyBremsThin
long int ipMaxBolt
bool lgInducProcess
double * comup
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
realnumcsigh
realnumcsigc
double comtot
double cmheat
double cmcool
double comoff
double cinrat
bool lgComUndr
double totpow [LIMSPC]
double slope [LIMSPC]
double cutoff [LIMSPC][3]
double spfac [LIMSPC]
bool lgTimeVary [LIMSPC]
bool lgBeamed [LIMSPC]
long int nspec
long int ipspec
realnum ** tNuRyd
realnum ** tslop
realnum ** tFluxLog
int * lgContMalloc
double range [LIMSPC][2]
realnumConTabRead
char chSpNorm [LIMSPC][5]
char chRSpec [LIMSPC][5]
char chSpType [LIMSPC][6]
string ioTableRead [LIMSPC]
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
realnumtrans_coef_zone
realnumtrans_coef_total
long int * ipnt_coarse_2_fine
realnum fine_ener_lo
realnum fine_ener_hi
long nfine
long nfine_malloc
double fine_resol
realnumfine_opac_zone
realnumfine_opt_depth
realnumfine_anu
long int ipFineConVelShift
bool lgOpacityFine
bool lgPunchOpacityFine
bool lgFine_opac_update
bool lgLyaOTS
bool lgHeIIOTS
bool lgKillOutLine
bool lgKillOutCont
bool lgKillOTSLine
bool lgTableRead
bool lgPlasNu
realnum plsfrq
realnum plsfrqmax
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

Detailed Description

Definition at line 21 of file rfield.h.


Field Documentation

Definition at line 65 of file rfield.h.

Referenced by ContSetIntensity(), GammaBnPL(), PlanckIntegral(), and rfield_opac_malloc().

these are log, sqrt, square, and cube of anu array

Definition at line 65 of file rfield.h.

Referenced by ContSetIntensity(), pltcon(), pltopc(), rfield_opac_malloc(), and tfidle().

original set of energy units, always the same no matter what the shape of the continuum - actual energy units change with shape

Definition at line 50 of file rfield.h.

Referenced by AGN_Hemis(), conorm(), ContCreateMesh(), ContCreatePointers(), ContSetIntensity(), GridGatherInCloudy(), lgCompileAtmosphere(), lgCompileAtmosphereCoStar(), OpacityCreate1Element(), OpacityCreateAll(), punch_opacity(), PunchDo(), punchFITS_GenericData(), PunchNewContinuum(), rfield_opac_malloc(), and Spec_cont().

Definition at line 65 of file rfield.h.

Referenced by ContCreateMesh(), ContCreatePointers(), OpacityCreateAll(), and rfield_opac_malloc().

string identifying the first continuum edge that occurred at this energy

Definition at line 192 of file rfield.h.

Referenced by AGN_Hemis(), ContCreatePointers(), ContNegative(), ContSetIntensity(), GammaPrt(), ipContEnergy(), punch_opacity(), PunchDo(), radius_increment(), rfield_opac_malloc(), RT_OTS_ChkSum(), and RT_OTS_PrtRate().

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

Definition at line 205 of file rfield.h.

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

string identifying the first line that occurred at this energy

Definition at line 189 of file rfield.h.

Referenced by ContCreatePointers(), ContNegative(), ContSetIntensity(), FeIIPoint(), GammaPrt(), ipLineEnergy(), PunchDo(), radius_increment(), rfield_opac_malloc(), RT_OTS_ChkSum(), and RT_OTS_PrtRate().

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

Definition at line 315 of file rfield.h.

Referenced by conorm(), ParseAbsMag(), ParseBackgrd(), ParseBlackbody(), ParseCMB(), ParseCommands(), ParseCoronal(), ParseF_nu(), ParseIonPar(), ParseRatio(), and ParseTable().

Definition at line 260 of file rfield.h.

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

Definition at line 260 of file rfield.h.

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

Definition at line 260 of file rfield.h.

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

double * t_rfield::comdn

Definition at line 224 of file rfield.h.

Referenced by highen(), PunchDo(), and rfield_opac_malloc().

Definition at line 260 of file rfield.h.

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

Definition at line 260 of file rfield.h.

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

double* t_rfield::comup

saves for the upward and downward Compton shifts

Definition at line 224 of file rfield.h.

Referenced by highen(), PunchDo(), and rfield_opac_malloc().

ConEmitLocal is local diffuse continuum, per unit vol, for each zone, evaluated in RT_diffuse

Definition at line 124 of file rfield.h.

Referenced by AGN_Hemis(), ContCreateMesh(), lines_continuum(), pltcon(), PunchDo(), radius_increment(), and RT_diffuse().

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

Definition at line 132 of file rfield.h.

Referenced by cdSPEC(), cdSPEC2(), ContSetIntensity(), IterRestart(), IterStart(), lines_continuum(), pltcon(), PunchDo(), radius_increment(), rfield_opac_malloc(), and rfield_opac_zero().

reflected diffuse emission continuum

Definition at line 127 of file rfield.h.

Referenced by cdSPEC(), cdSPEC2(), ContSetIntensity(), IterRestart(), IterStart(), lines_continuum(), pltcon(), PunchDo(), radius_increment(), rfield_opac_malloc(), and rfield_opac_zero().

the local photoionization rate corresponding to above photons

Definition at line 149 of file rfield.h.

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

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

Definition at line 149 of file rfield.h.

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

ConRefIncid is reflected portion of incident continuum

Definition at line 138 of file rfield.h.

Referenced by cdSPEC(), cdSPEC2(), ContSetIntensity(), IterRestart(), lines_continuum(), PunchDo(), radius_increment(), rfield_opac_malloc(), and rfield_opac_zero().

save array for table read command, to save continuum previously punched

Definition at line 311 of file rfield.h.

Referenced by ffun1(), ReadTable(), and rfield_opac_malloc().

convoc is the conversion factor from rfield to OccNumbIncidCont

Definition at line 109 of file rfield.h.

Referenced by ContSetIntensity(), IterRestart(), ptrcer(), radius_increment(), rfield_opac_malloc(), rfield_opac_zero(), RT_diffuse(), RT_OTS_Update(), and RT_OTS_Zero().

Definition at line 257 of file rfield.h.

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

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

Definition at line 257 of file rfield.h.

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

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

Definition at line 186 of file rfield.h.

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

lowest energy counted as gamma rays, 100 keV

Definition at line 440 of file rfield.h.

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

Definition at line 215 of file rfield.h.

Referenced by IterRestart(), IterStart(), PrtFinal(), tauff(), and zero().

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

Definition at line 250 of file rfield.h.

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

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

Definition at line 246 of file rfield.h.

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

energies at center of each bin for fine continuum

Definition at line 383 of file rfield.h.

Referenced by ContCreateMesh(), ContCreatePointers(), ContSetIntensity(), punch_opacity(), PunchDo(), and rfield_opac_malloc().

Definition at line 371 of file rfield.h.

Referenced by ContCreateMesh(), ipFineCont(), and rfield_opac_malloc().

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

Definition at line 371 of file rfield.h.

Referenced by ContCreateMesh(), ipFineCont(), and rfield_opac_malloc().

>>chng 03 feb 12, add fine array to keep track of line overlap this is the velocity width of a cell in the fine continuum, 1e5 cm/s == 1 km/s # define FINE_OPAC_VELOCITY_WIDTH (1e5) >>chng 05 feb 27, make this a variable depending on which is the heaviest element, and the lowest temperature heaviest element to be considered - default is iron

Definition at line 352 of file rfield.h.

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

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

Definition at line 355 of file rfield.h.

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

number of cm/s of each cell in fine mesh

Definition at line 358 of file rfield.h.

Referenced by rfield_opac_malloc(), RT_line_all(), and RT_line_one().

total optical depth array for fine continuum

Definition at line 381 of file rfield.h.

Referenced by PunchDo(), radius_increment(), rfield_opac_malloc(), rfield_opac_zero(), and RT_tau_reset().

the dimensionless resolution of the fine continuum - dE/E

Definition at line 377 of file rfield.h.

Referenced by ipFineCont(), and rfield_opac_malloc().

================================================================================= 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

Definition at line 74 of file rfield.h.

Referenced by cdSPEC(), cdSPEC2(), ContNegative(), ContRate(), ContSetIntensity(), CoolEvaluate(), DynaEndIter(), extin(), GammaBn(), GammaBnPL(), GammaK(), GammaPrt(), GrainDrift(), GrainElecEmis1(), GrainRateDr(), GrainTemperature(), H2_LevelPops(), highen(), hmole_reactions(), hmole_step(), IterRestart(), lines_continuum(), lines_lv1_k_zn(), outsum(), pltcon(), PresTotCurrent(), PrtContinuum(), PrtFinal(), PrtHeader(), PrtZone(), PunchDo(), qintr(), radius_first(), radius_increment(), rfield_opac_malloc(), rfield_opac_zero(), RT_diffuse(), RT_OTS_ChkSum(), RT_OTS_Update(), RT_OTS_Zero(), sumcon(), ZoneEnd(), and ZoneStart().

the accumulated flux, sum from this energy to infinity

Definition at line 83 of file rfield.h.

Referenced by H2_X_coll_rate_evaluate(), rfield_opac_malloc(), rfield_opac_zero(), and RT_OTS_Update().

Definition at line 179 of file rfield.h.

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

this is the variable and constant parts of the above

Definition at line 80 of file rfield.h.

Referenced by ContSetIntensity(), DynaEndIter(), extin(), IterRestart(), radius_increment(), rfield_opac_malloc(), RT_diffuse(), ZoneEnd(), and ZoneStart().

this is the isotropic part of the constant continuum

Definition at line 77 of file rfield.h.

Referenced by ContSetIntensity(), DynaEndIter(), extin(), IterRestart(), radius_increment(), rfield_opac_malloc(), RT_diffuse(), ZoneEnd(), and ZoneStart().

Definition at line 179 of file rfield.h.

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

Definition at line 179 of file rfield.h.

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

save incident continuum for later iterations

Definition at line 178 of file rfield.h.

Referenced by cdSPEC(), cdSPEC2(), ContSetIntensity(), DynaEndIter(), pltcon(), PrtContinuum(), PunchDo(), radius_increment(), and rfield_opac_malloc().

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

Definition at line 43 of file rfield.h.

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

free free gaunt factor for all charges First index is EFFECTIVE CHARGE!

Definition at line 196 of file rfield.h.

Referenced by CoolEvaluate(), OpacityAddTotal(), rfield_opac_malloc(), RT_diffuse(), and tfidle().

pointer to file for table read command

Definition at line 320 of file rfield.h.

Referenced by ffun1(), ParseTable(), and zero().

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

Definition at line 242 of file rfield.h.

Referenced by ContCreatePointers(), and hmole_reactions().

array indices for centers of B and V filters

Definition at line 228 of file rfield.h.

Referenced by ContCreatePointers(), and radius_increment().

Definition at line 441 of file rfield.h.

Referenced by ContCreatePointers(), and ContSetIntensity().

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

Definition at line 214 of file rfield.h.

Referenced by ContRate(), CoolEvaluate(), GrainRateDr(), IterRestart(), IterStart(), RT_diffuse(), RT_OTS_ChkSum(), RT_OTS_Update(), tauff(), and zero().

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

Definition at line 389 of file rfield.h.

Referenced by PressureRadiationLine(), rfield_opac_malloc(), RT_line_all(), RT_line_one(), and RT_line_one_tauinc().

Definition at line 236 of file rfield.h.

Referenced by ContCreatePointers(), and hmole_reactions().

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

Definition at line 236 of file rfield.h.

Referenced by ContCreatePointers(), and hmole_reactions().

Definition at line 239 of file rfield.h.

Referenced by ContCreatePointers(), and hmole_reactions().

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

Definition at line 239 of file rfield.h.

Referenced by ContCreatePointers(), and hmole_reactions().

Definition at line 232 of file rfield.h.

Referenced by ContCreatePointers(), and hmole_reactions().

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

Definition at line 232 of file rfield.h.

Referenced by ContCreatePointers(), and hmole_reactions().

index of highest cell with positive Boltzmann factor

Definition at line 218 of file rfield.h.

Referenced by CoolEvaluate(), PunchDo(), RT_diffuse(), and tfidle().

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

Definition at line 368 of file rfield.h.

Referenced by ContCreateMesh(), radius_increment(), and rfield_opac_malloc().

pointer to current plasma frequency

Definition at line 428 of file rfield.h.

Referenced by ContRate(), ContSetIntensity(), radius_increment(), RT_diffuse(), RT_OTS_Update(), and tauff().

pointer to largest plasma freq encountered

Definition at line 428 of file rfield.h.

Referenced by ContSetIntensity().

long int t_rfield::ipspec

Definition at line 288 of file rfield.h.

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

Definition at line 228 of file rfield.h.

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

Definition at line 286 of file rfield.h.

Referenced by ffun(), ParseBackgrd(), ParseCMB(), ParseTable(), and zero().

Definition at line 92 of file rfield.h.

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

this flag says that CMB has been set

Definition at line 102 of file rfield.h.

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

flag which, if set to false, causes gauntff.dat, if it exists, to be read in, or if true, causes the file gauntff.dat to be created. rfield.gff[][] is filled by interpolation on the values in this file

Definition at line 201 of file rfield.h.

Referenced by FillGFF(), ParseCompile(), and zero().

set true if Compton cooling underflows

Definition at line 267 of file rfield.h.

Referenced by PrtComment(), and PrtHeader().

this flag is set true if we malloced out the three previous arrays - these can be returned once the continuum is generated

Definition at line 304 of file rfield.h.

Referenced by conorm(), ContSetIntensity(), InterpolateGridCoStar(), InterpolateRectGrid(), ParseInterp(), ParseTable(), and zero().

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

Definition at line 95 of file rfield.h.

Referenced by ParseCommands(), ParseDont(), PresTotCurrent(), RT_line_all(), RT_line_one(), and zero().

flag saying to update fine opacities - not done all the time

Definition at line 397 of file rfield.h.

Referenced by RT_line_all().

Definition at line 434 of file rfield.h.

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

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

Definition at line 343 of file rfield.h.

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

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

Definition at line 405 of file rfield.h.

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

lgHionRad set to .true. if no hydrogen ionizing radiation

Definition at line 444 of file rfield.h.

Referenced by ContSetIntensity(), and PrtComment().

Definition at line 434 of file rfield.h.

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

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

Definition at line 221 of file rfield.h.

Referenced by atmdat_2phot_rate(), atom_oi_calc(), DrvContPump(), GammaBn(), GammaBnPL(), H2_LevelPops(), OpacityAdd1SubshellInduc(), ParseDont(), RT_line_static(), and zero().

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

Definition at line 106 of file rfield.h.

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

flag saying whether to kill ots lines

Definition at line 414 of file rfield.h.

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

flag saying whether to kill outward only continuum

Definition at line 411 of file rfield.h.

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

flag saying whether to kill outward only lines

Definition at line 408 of file rfield.h.

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

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

Definition at line 401 of file rfield.h.

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

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

Definition at line 434 of file rfield.h.

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

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.

Definition at line 88 of file rfield.h.

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

flag saying that occupation number at 1 Ryd > 1

Definition at line 455 of file rfield.h.

Referenced by ContSetIntensity(), and PrtComment().

option to turn off fine opacities with no fine opacity command

Definition at line 392 of file rfield.h.

Referenced by ParseCommands(), ParseDont(), PressureRadiationLine(), radius_increment(), RT_line_one(), RT_line_one_tauinc(), and zero().

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

Definition at line 99 of file rfield.h.

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

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

Definition at line 210 of file rfield.h.

Referenced by GammaBn(), GammaBnPL(), GammaK(), GammaPrt(), ParseCommands(), RT_OTS_ChkSum(), RT_OTS_Update(), and zero().

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

Definition at line 422 of file rfield.h.

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

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

Definition at line 394 of file rfield.h.

Referenced by ParsePunch(), and zero().

flag to prevent more than one table read command

Definition at line 417 of file rfield.h.

Referenced by ParseTable(), and zero().

option to have continuum intensity be time dependent

Definition at line 282 of file rfield.h.

Referenced by DynaEndIter(), ffun(), ParseAbsMag(), ParseCommands(), ParseF_nu(), ParseIonPar(), ParseRatio(), ParseTable(), and zero().

lgUSphON flag set when we hit stromgren radius in spherical geometry

Definition at line 337 of file rfield.h.

Referenced by dense_fabden(), IterRestart(), PrtFinal(), radius_increment(), and zero().

Definition at line 434 of file rfield.h.

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

used to keep track of number of lines per freq interval

Definition at line 56 of file rfield.h.

Referenced by ipLineEnergy(), PunchDo(), rfield_opac_malloc(), and RT_OTS_PrtRate().

the number of fine continuum cells actually used in this continuum

Definition at line 373 of file rfield.h.

Referenced by ContSetIntensity(), PressureRadiationLine(), punch_opacity(), PunchDo(), radius_increment(), rfield_opac_malloc(), RT_line_all(), RT_line_one(), RT_line_one_tauinc(), and RT_tau_reset().

the number of fine continuum cells malloced - will be several million

Definition at line 375 of file rfield.h.

Referenced by ContCreateMesh(), ContSetIntensity(), ipFineCont(), rfield_opac_malloc(), and rfield_opac_zero().

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 this continuum. this is initially set to nupper in ContCreatePointers, and then trimmed down in ContSetIntensity. It is finally reset in ConvInitSolution, to make sure continuum includes all possible line and continuum emission produced by the code

Definition at line 31 of file rfield.h.

Referenced by AGN_Hemis(), cdSPEC(), cdSPEC2(), cmshft(), ContCreateMesh(), ContNegative(), ContRate(), ContSetIntensity(), ConvInitSolution(), CoolDima(), CoolEvaluate(), extin(), GammaBn(), GammaBnPL(), GammaK(), GammaPrt(), GrainDrift(), GrainElecEmis1(), GrainMakeDiffuse(), GrainsInit(), GrainTemperature(), GrainUpdateRadius2(), highen(), hmole_step(), ion_trim(), IonOxyge(), iso_photo(), IterEnd(), lindst(), OpacityAdd1Element(), OpacityAdd1Subshell(), OpacityAdd1SubshellInduc(), OpacityAddTotal(), outsum(), PE_init(), pltcon(), pltopc(), pnegopc(), PresTotCurrent(), PrtComment(), PrtContinuum(), PrtFinal(), PrtHeader(), PrtZone(), ptrcer(), punch_opacity(), PunchDo(), punchFITSfile(), PunchNewContinuum(), qheat_init(), radius_first(), radius_increment(), RT_DestProb(), RT_diffuse(), RT_OTS_AddCont(), RT_OTS_AddLine(), RT_OTS_ChkSum(), RT_OTS_Update(), RT_OTS_Zero(), RT_recom_effic(), SanityCheckBegin(), Spec_cont(), sumcon(), tauff(), tfidle(), UpdatePot(), UpdatePot1(), zero(), ZoneEnd(), and ZoneStart().

long int t_rfield::nspec
long int t_rfield::nupper

Definition at line 447 of file rfield.h.

Referenced by ContSetIntensity(), and PrtComment().

these store photon occupation numbers at various energies in the continuum

Definition at line 447 of file rfield.h.

Referenced by ContSetIntensity(), and PrtComment().

Definition at line 447 of file rfield.h.

Referenced by ContSetIntensity(), and PrtComment().

bremsstrahlung occupation number - only used for induced two photon

Definition at line 59 of file rfield.h.

Referenced by IterRestart(), rfield_opac_malloc(), rfield_opac_zero(), and RT_OTS_Update().

outward emitted continuum

Definition at line 62 of file rfield.h.

Referenced by IterRestart(), radius_increment(), rfield_opac_malloc(), rfield_opac_zero(), and RT_line_static().

OccNumbDiffCont is the continuum occupation number, for local diffuse continuum

Definition at line 116 of file rfield.h.

Referenced by IterRestart(), radius_increment(), rfield_opac_malloc(), rfield_opac_zero(), RT_diffuse(), and RT_line_static().

OccNumbIncidCont is the continuum occupation number for the attenuated incident ONLY

Definition at line 113 of file rfield.h.

Referenced by atmdat_2phot_rate(), ContSetIntensity(), highen(), IterRestart(), PrtHeader(), radius_increment(), rfield_opac_malloc(), and RT_line_static().

Definition at line 253 of file rfield.h.

Referenced by radius_increment().

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

Definition at line 253 of file rfield.h.

Referenced by radius_increment().

Definition at line 253 of file rfield.h.

Referenced by radius_increment(), and radius_next().

Definition at line 253 of file rfield.h.

Referenced by radius_increment(), and radius_next().

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

Definition at line 160 of file rfield.h.

Referenced by ContNegative(), CoolCalc(), CoolDima(), eden_sum(), GammaBn(), GammaBnPL(), GammaK(), GammaPrt(), GrainTemperature(), IterRestart(), IterStart(), OpacityAddTotal(), pltcon(), PunchDo(), radius_increment(), rfield_opac_malloc(), rfield_opac_zero(), RT_diffuse(), RT_OTS(), RT_OTS_ChkSum(), RT_OTS_PrtRate(), RT_OTS_Update(), and RT_OTS_Zero().

these two are the new rates, that will be entered into the above once RTOTSUpdata has been called

Definition at line 160 of file rfield.h.

Referenced by IterRestart(), rfield_opac_malloc(), rfield_opac_zero(), RT_OTS(), RT_OTS_AddLine(), RT_OTS_Update(), and RT_OTS_Zero().

Definition at line 160 of file rfield.h.

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

plasma frequency for current position in slab

Definition at line 424 of file rfield.h.

Referenced by atom_level3(), ContSetIntensity(), RT_line_static(), and tauff().

store highest energy plasma frequency encountered

Definition at line 424 of file rfield.h.

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

Definition at line 323 of file rfield.h.

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

Definition at line 323 of file rfield.h.

Referenced by ContSetIntensity(), and PrtHeader().

Definition at line 323 of file rfield.h.

Referenced by ContSetIntensity(), and PrtHeader().

these are total numbers of photons over various energy ranges

Definition at line 323 of file rfield.h.

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

Definition at line 323 of file rfield.h.

Referenced by ContSetIntensity().

Definition at line 323 of file rfield.h.

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

Definition at line 308 of file rfield.h.

Referenced by conorm(), ParseAbsMag(), ParseBackgrd(), ParseBlackbody(), ParseCMB(), ParseCommands(), ParseF_nu(), ParseRangeOption(), ParseRatio(), ParseTable(), and zero().

the stromgren radius var set to get u spherical

Definition at line 339 of file rfield.h.

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

Definition at line 276 of file rfield.h.

Referenced by conorm(), and ffun().

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

Definition at line 142 of file rfield.h.

Referenced by ContNegative(), GammaBn(), GammaBnPL(), GammaK(), GammaPrt(), GrainElecEmis1(), GrainTemperature(), highen(), IterRestart(), qheat_init(), radius_increment(), rfield_opac_malloc(), rfield_opac_zero(), RT_OTS_ChkSum(), RT_OTS_Update(), RT_OTS_Zero(), ZoneEnd(), and ZoneStart().

Definition at line 145 of file rfield.h.

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

Definition at line 447 of file rfield.h.

Referenced by ContSetIntensity(), and PrtComment().

Definition at line 447 of file rfield.h.

Referenced by ContSetIntensity(), and PrtComment().

Definition at line 447 of file rfield.h.

Referenced by ContSetIntensity(), and PrtComment().

<[LIMSPC][NCELL]

Definition at line 297 of file rfield.h.

Referenced by ContSetIntensity(), ffun1(), ParseInterp(), ParseTable(), and zero().

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

Definition at line 182 of file rfield.h.

Referenced by DynaEndIter(), DynaPunchTimeDep(), IterRestart(), and zero().

these are used for interpolate and table commands, all have two indices, continuum and frequency tNuRyd is the linear energy Rydbergs of continuum point >>chng 01 oct 16, made into explicit arrays again so that table commands will work before continuum defined. >>chng 05 jun 30, change from declared arrays to malloced pointers <[LIMSPC][NCELL]

Definition at line 297 of file rfield.h.

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

saves total two photon continuum for debugging, set in RT_diffuse

Definition at line 154 of file rfield.h.

Referenced by PunchDo(), rfield_opac_malloc(), and RT_diffuse().

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

Definition at line 364 of file rfield.h.

Referenced by cdSPEC2(), ContCreateMesh(), IterRestart(), PunchDo(), radius_increment(), rfield_opac_malloc(), and RT_OTS_Zero().

these are transmission coefficients for fine opacity degraded to coarse continuum for the last zone

Definition at line 362 of file rfield.h.

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

<[LIMSPC][NCELL] this is the log of f_nu of continuum point

Definition at line 297 of file rfield.h.

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

hydrogen ionization parameter

Definition at line 331 of file rfield.h.

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

helium ion ionization parameter

Definition at line 334 of file rfield.h.

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


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