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Functions | |
| double | CS_VS80 (long ipISO, long nHi, double IP_Ryd_Hi, long nLo, double IP_Ryd_Lo, double Aul, long nelem, long Collider, double temp) |
| double | hydro_vs_coll_recomb (double ionization_energy_Ryd, double Te, double stat_level, double stat_ion) |
| double | hydro_vs_ioniz (double ionization_energy_Ryd, double Te) |
| double | Hion_coll_ioniz_ratecoef (long int ipISO, long int nelem, long int n, double ionization_energy_Ryd, double temperature) |
| double | hydro_vs_deexcit (long nHi, long gHi, double IP_Ryd_Hi, long nLo, long gLo, double IP_Ryd_Lo, double Aul) |
| double | hydro_Lebedev_deexcit (long ipISO, long nelem, long nHi, long nLo, double IP_Ryd_Lo) |
| double | hydro_Fujimoto_deexcit (long ipISO, long nHi, long nLo, double Aul, double ip_Ryd_Hi, double ip_Ryd_Lo) |
| double | hydro_vanRegemorter_deexcit (long ipISO, const long nelem, const long nHi, const long lHi, const long lLo, const double EnerWN, const double deltaE_eV, const double Aul, const long ipCollider) |
| double | CS_ThermAve_PR78 (long ipISO, long nelem, long nHi, long nLo, double deltaE, double temp) |
| double | Therm_ave_coll_str_int_PR78 (double EOverKT) |
| double | C2_PR78 (double x, double y) |
| double | CS_PercivalRichards78 (double Ebar) |
Function Documentation
◆ C2_PR78()
|
inline |
◆ CS_PercivalRichards78()
| double CS_PercivalRichards78 | ( | double | Ebar | ) |
CS_PercivalRichards78 calculates collision strength from Percival & Richards (1978) MNRAS 183, 329
- Parameters
-
Ebar
References ASSERT, C2_PR78(), cross_section(), DEBUG_ENTRY, get_iso_statw(), global_deltaE, global_ipISO, global_nelem, global_nHi, global_nLo, h2, pow2, pow3, and powi().
Referenced by CS_ThermAve_PR78(), and Therm_ave_coll_str_int_PR78().
◆ CS_ThermAve_PR78()
| double CS_ThermAve_PR78 | ( | long | ipISO, |
| long | nelem, | ||
| long | nHi, | ||
| long | nLo, | ||
| double | deltaE, | ||
| double | temp ) |
CS_ThermAve_PR78 - Calculate thermal averaged Percival and Richard excitation rates
- Parameters
-
ipISO [in] iso-sequence (0 for H-like, 1 for He-like) nelem [in] element (0 for H) nHi [in] upper level principal quantum number deltaE[in] energy difference between levels, in Rydberg temp [in] gas temparature
- Returns
- n-n' collision strength
References CS_PercivalRichards78(), DEBUG_ENTRY, global_deltaE, global_ipISO, global_nelem, global_nHi, global_nLo, iso_ctrl, kTRyd, qg32(), and Therm_ave_coll_str_int_PR78().
Referenced by GetHelikeCollisionStrength(), and GetHlikeCollisionStrength().
◆ CS_VS80()
| double CS_VS80 | ( | long | ipISO, |
| long | nHi, | ||
| double | IP_Ryd_Hi, | ||
| long | nLo, | ||
| double | IP_Ryd_Lo, | ||
| double | Aul, | ||
| long | nelem, | ||
| long | Collider, | ||
| double | temp ) |
VS80 stands for Vriens and Smeets 1980
This routine calculates thermally-averaged collision strengths.
- Parameters
-
ipISO nHi IP_Ryd_Hi nLo IP_Ryd_Lo Aul nelem Collider temp
References ASSERT, get_iso_statw(), hydro_vs_coll_str(), hydro_vs_deexcit(), ipELECTRON, iso_ctrl, and Integrator< Integrand, Method >::sum().
Referenced by GetHelikeCollisionStrength(), and GetHlikeCollisionStrength().
◆ Hion_coll_ioniz_ratecoef()
| double Hion_coll_ioniz_ratecoef | ( | long int | ipISO, |
| long int | nelem, | ||
| long int | n, | ||
| double | ionization_energy_Ryd, | ||
| double | temperature ) |
Hion_coll_ioniz_ratecoef calculate hydrogenic ionization rates for all n, and Z
- Parameters
-
ipISO the isoelectronic sequence nelem element, >=1 since only used for ions
nelem = 1 is helium the least possible chargen principal quantum number, > 1
since only used for excited states
ionization_energy_Ryd temperature
References ASSERT, DEBUG_ENTRY, dsexp(), e1(), e2(), expn(), MAX2, MIN2, and powi().
Referenced by iso_collisional_ionization().
◆ hydro_Fujimoto_deexcit()
| double hydro_Fujimoto_deexcit | ( | long | ipISO, |
| long | nHi, | ||
| long | nLo, | ||
| double | Aul, | ||
| double | ip_Ryd_Hi, | ||
| double | ip_Ryd_Lo ) |
hydro_Fujimoto_deexcit - Collisional de-excitation rates from original equation (6-12) from Fujimoto (1978) IPPJ-AM-8, Institute of Plasma Physics, Nagoya University, Nagoya.
- Parameters
-
ipISO [in] iso-sequence (0 for H-like, 1 for He-like) nHi [in] upper level principal quantum number lHi [in] upper level orbital angular momentum Aul [in] Einstein A for transition between levels ip_Ryd_Hi[in] upper level ionization potential, in Rydberg ip_Ryd_Lo[in] lower level ionization potential, in Rydberg
- Returns
- n-n' collision strength
References ASSERT, DEBUG_ENTRY, expe1(), get_iso_statw(), phycon, POW2, pow2, and powpq().
Referenced by GetHelikeCollisionStrength(), and GetHlikeCollisionStrength().
◆ hydro_Lebedev_deexcit()
| double hydro_Lebedev_deexcit | ( | long | ipISO, |
| long | nelem, | ||
| long | nHi, | ||
| long | nLo, | ||
| double | IP_Ryd_Lo ) |
hydro_vs_deexcit generate hydrogenic collisional ionization rate coefficients for quantum number n
- Parameters
-
nelem ipISO nHi nLo IP_Ryd_Lo
References ASSERT, DEBUG_ENTRY, expe1(), get_iso_statw(), phycon, pow2, and pow3.
Referenced by GetHelikeCollisionStrength(), and GetHlikeCollisionStrength().
◆ hydro_vanRegemorter_deexcit()
| double hydro_vanRegemorter_deexcit | ( | long | ipISO, |
| const long | nelem, | ||
| const long | nHi, | ||
| const long | lHi, | ||
| const long | lLo, | ||
| const double | EnerWN, | ||
| const double | deltaE_eV, | ||
| const double | Aul, | ||
| const long | ipCollider ) |
hydro_vanRegemorter_deexcit - Collisional deexcitation rates according to Van Regemorter, ApJ 136 (1962) 906
- Parameters
-
ipISO [in] iso-sequence (0 for H-like, 1 for He-like) nelem [in] element (0 for H) nHi [in] upper level principal quantum number lHi [in] upper level orbital angular momentum lLo [in] lower level orbital angular momentum EnerWN [in] energy difference between levels, in wavenumbers deltaE_eV [in] energy difference between levels, in eV Aul [in] Einstein A for transition between levels ipCollider[in] collider type
- Returns
- n-n' collision strength
References a1, DEBUG_ENTRY, e1(), exp10(), get_iso_statw(), ipHELIUM, ipHYDROGEN, linint(), phycon, pow3, powpq(), and reduced_amu().
Referenced by GetHelikeCollisionStrength(), and GetHlikeCollisionStrength().
◆ hydro_vs_coll_recomb()
| double hydro_vs_coll_recomb | ( | double | ionization_energy_Ryd, |
| double | Te, | ||
| double | stat_level, | ||
| double | stat_ion ) |
hydro_vs_ioniz generate hydrogenic collisional ionization rate coefficients
- Parameters
-
ionization_energy_Ryd Te stat_level stat_ion
References ASSERT, DEBUG_ENTRY, pow(), and pow3.
◆ hydro_vs_deexcit()
| double hydro_vs_deexcit | ( | long | nHi, |
| long | gHi, | ||
| double | IP_Ryd_Hi, | ||
| long | nLo, | ||
| long | gLo, | ||
| double | IP_Ryd_Lo, | ||
| double | Aul ) |
hydro_vs_deexcit generate hydrogenic collisional ionization rate coefficients for quantum number n
- Parameters
-
nHi gHi IP_Ryd_Hi nLo gLo IP_Ryd_Lo Aul
References ASSERT, DEBUG_ENTRY, GetGF(), phycon, pow3, powpq(), and safe_div().
Referenced by CS_VS80().
◆ hydro_vs_ioniz()
| double hydro_vs_ioniz | ( | double | ionization_energy_Ryd, |
| double | Te ) |
hydro_vs_ioniz generate hydrogenic collisional ionization rate coefficients
- Parameters
-
ionization_energy_Ryd Te
References ASSERT, DEBUG_ENTRY, dsexp(), pow(), and powpq().
Referenced by iso_collisional_ionization().
◆ Therm_ave_coll_str_int_PR78()
| double Therm_ave_coll_str_int_PR78 | ( | double | EOverKT | ) |
Therm_ave_coll_str_int_PR78 The integrand for calculating the thermal average of collision strengths
- Parameters
-
EOverKT
References CS_PercivalRichards78(), DEBUG_ENTRY, and kTRyd.
Referenced by CS_ThermAve_PR78().
