cloudy
trunk
|
#include "module.h"
Go to the source code of this file.
Data Structures | |
struct | t_hydro |
Functions | |
realnum | HydroCSInterp (long int nelem, long int ipHi, long int ipLo, long int Collider) |
realnum | GetHlikeCollisionStrength (long nelem, long ipCollider, long nHi, long lHi, long sHi, long gHi, double IP_Ryd_Hi, long nLo, long lLo, long sLo, long gLo, double IP_Ryd_Lo, double tauLo, double EnerErg, const char **where) |
void | HydroLevel (long ipISO, long int ipZ) |
double | HydroRecCool (long int n, long int ipZ) |
double | HCoolRatio (double t) |
double | H_cross_section (double EgammaRyd, double EthRyd, long n, long l, long nelem) |
Variables | |
t_hydro | hydro |
this file contains the variables for the model hydrogen ions, and prototypes for the series of routines that drive the atom the EXTERN structure hydro is defined here - all H variables should migrate here
Definition in file hydrogenic.h.
realnum GetHlikeCollisionStrength | ( | long | nelem, |
long | ipCollider, | ||
long | nHi, | ||
long | lHi, | ||
long | sHi, | ||
long | gHi, | ||
double | IP_Ryd_Hi, | ||
long | nLo, | ||
long | lLo, | ||
long | sLo, | ||
long | gLo, | ||
double | IP_Ryd_Lo, | ||
double | tauLo, | ||
double | EnerErg, | ||
const char ** | where | ||
) |
GetHlikeCollisionStrength calculate collision strengths for any transition of H-like iso sequence
nelem | |
ipCollider | |
nHi | |
lHi | |
sHi | |
gHi | |
IP_Ryd_Hi | |
nLo | |
lLo | |
sLo | |
gLo | |
IP_Ryd_Lo | |
Aul | |
tauLo | |
EnerErg | |
where |
Definition at line 1096 of file hydrocollid.cpp.
References ASSERT, CS_l_mixing_PS64(), CS_l_mixing_PS64_expI(), CS_l_mixing_VF01(), CS_l_mixing_VOS12(), CS_l_mixing_VOS12QM(), CS_ThermAve_PR78(), DEBUG_ENTRY, fixit, HlikeCSInterp(), hydro_vs_deexcit(), HydroEinstA(), ipELECTRON, ipH_LIKE, ipHYDROGEN, iso_ctrl, iso_sp, t_opac::lgCaseB_HummerStorey, t_isoCTRL::lgColl_excite, t_isoCTRL::lgCS_PS64, t_isoCTRL::lgCS_PSClassic, t_isoCTRL::lgCS_VOS12, t_isoCTRL::lgCS_VOS12QM, t_isoCTRL::lgCS_Vrinceanu, opac, phycon, pow2(), t_phycon::sqrte, and t_phycon::te.
Referenced by HydroCSInterp(), and iso_get_collision_strength_resolved().
double H_cross_section | ( | double | EgammaRyd, |
double | EthRyd, | ||
long | n, | ||
long | l, | ||
long | nelem | ||
) |
H_cross_section - get Hydrogenic cross section
EgammaRyd | |
EthRyd | |
n | |
l | |
nelem |
Definition at line 16 of file hydro_recom.cpp.
References ASSERT, H_photo_cs(), and MAX2.
Referenced by iso_cross_section().
double HCoolRatio | ( | double | t | ) |
returns the ratio of recombination cooling to recombination coefficient
t | the scaled temperature, T * n^2 / Z^2, n is prin quant number, Z is charge, 1 for H |
Definition at line 126 of file hydroreccool.cpp.
References DEBUG_ENTRY, MAX2, MIN2, x1, and x2.
Referenced by HydroRecCool(), and iso_rad_rec_cooling_approx().
realnum HydroCSInterp | ( | long int | nelem, |
long int | ipHi, | ||
long int | ipLo, | ||
long int | Collider | ||
) |
HydroCSInterp calculate collision strengths for all transitions of h-like iso sequence, all colliders
nelem | |
ipHi | |
ipLo | |
Collider |
void HydroLevel | ( | long | ipISO, |
long int | ipZ | ||
) |
HydroLevel calls iso_level to solve for ionization balance level populations of model hydrogen atom
ipZ |
Referenced by iso_solve().
double HydroRecCool | ( | long int | n, |
long int | ipZ | ||
) |
HydroRecCool hydrogen recombination cooling
n | |
ipZ |
Definition at line 10 of file hydroreccool.cpp.
References ASSERT, cdEXIT, DEBUG_ENTRY, EXIT_FAILURE, exp10(), t_iso_sp::fb, fprintf(), HCoolRatio(), ioQQQ, ipH_LIKE, ipRecRad, iso_sp, phycon, POW2, POW3, powi(), t_phycon::sqlogz, t_phycon::te, t_phycon::telogn, and t_phycon::TEMP_LIMIT_HIGH_LOG.
Referenced by iso_rad_rec_cooling_approx(), and SaveDo().
t_hydro hydro |
Definition at line 5 of file hydrogenic.cpp.
Referenced by ContSetIntensity(), dBase_solve(), IonHydro(), iso_photo(), iso_zero(), IterStart(), lines(), lines_hydro(), OpacityAdd1SubshellInduc(), OpacityAddTotal(), ParseDatabaseISO(), ParseDont(), PresTotCurrent(), PrtComment(), PrtFinal(), PrtHydroTrace1(), PrtZone(), radius_increment(), rayleh(), RT_line_all_escape(), RT_line_pumping(), and setXtraRatesFe2().