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GAMBIT  v1.5.0-252-gf9a3f78
a Global And Modular Bsm Inference Tool
DarkBit_rollcall.hpp File Reference

Rollcall header for module DarkBit. More...

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Macros

#define MODULE   DarkBit
 
#define CAPABILITY   DarkSUSY5_PointInit_LocalHalo
 Make sure LocalHalo model is initialized in DarkSUSY. More...
 
#define FUNCTION   DarkSUSY5_PointInit_LocalHalo_func
 General Boltzmann solver from DarkSUSY, using arbitrary Weff. More...
 
#define CAPABILITY   DarkSUSY_PointInit_LocalHalo
 Make sure LocalHalo model is initialized in DarkSUSY. More...
 
#define FUNCTION   DarkSUSY_PointInit_LocalHalo_func
 General Boltzmann solver from DarkSUSY, using arbitrary Weff. More...
 
#define CAPABILITY   RD_spectrum
 Make sure LocalHalo model is initialized in DarkSUSY. More...
 
#define FUNCTION   RD_spectrum_MSSM
 General Boltzmann solver from DarkSUSY, using arbitrary Weff. More...
 
#define FUNCTION   RD_spectrum_SUSY_DS5
 General Boltzmann solver from DarkSUSY, using arbitrary Weff. More...
 
#define FUNCTION   RD_spectrum_from_ProcessCatalog
 General Boltzmann solver from DarkSUSY, using arbitrary Weff. More...
 
#define CAPABILITY   RD_spectrum_ordered
 Make sure LocalHalo model is initialized in DarkSUSY. More...
 
#define FUNCTION   RD_spectrum_ordered_func
 General Boltzmann solver from DarkSUSY, using arbitrary Weff. More...
 
#define CAPABILITY   RD_eff_annrate_DS5prep
 Make sure LocalHalo model is initialized in DarkSUSY. More...
 
#define FUNCTION   RD_annrate_DS5prep_func
 General Boltzmann solver from DarkSUSY, using arbitrary Weff. More...
 
#define CAPABILITY   RD_eff_annrate_DSprep_MSSM
 Make sure LocalHalo model is initialized in DarkSUSY. More...
 
#define FUNCTION   RD_annrate_DSprep_MSSM_func
 General Boltzmann solver from DarkSUSY, using arbitrary Weff. More...
 
#define CAPABILITY   RD_eff_annrate
 Make sure LocalHalo model is initialized in DarkSUSY. More...
 
#define FUNCTION   RD_eff_annrate_DS5_MSSM
 General Boltzmann solver from DarkSUSY, using arbitrary Weff. More...
 
#define FUNCTION   RD_eff_annrate_DS_MSSM
 General Boltzmann solver from DarkSUSY, using arbitrary Weff. More...
 
#define FUNCTION   RD_eff_annrate_from_ProcessCatalog
 General Boltzmann solver from DarkSUSY, using arbitrary Weff. More...
 
#define CAPABILITY   RD_oh2
 Make sure LocalHalo model is initialized in DarkSUSY. More...
 
#define FUNCTION   RD_oh2_DS_general
 General Boltzmann solver from DarkSUSY, using arbitrary Weff. More...
 
#define FUNCTION   RD_oh2_DS5_general
 General Boltzmann solver from DarkSUSY, using arbitrary Weff. More...
 
#define FUNCTION   RD_oh2_DarkSUSY_DS5
 General Boltzmann solver from DarkSUSY, using arbitrary Weff. More...
 
#define FUNCTION   RD_oh2_MicrOmegas
 General Boltzmann solver from DarkSUSY, using arbitrary Weff. More...
 
#define FUNCTION   RD_oh2_Axions
 General Boltzmann solver from DarkSUSY, using arbitrary Weff. More...
 
#define CAPABILITY   RD_oh2_Xf
 Make sure LocalHalo model is initialized in DarkSUSY. More...
 
#define FUNCTION   RD_oh2_Xf_MicrOmegas
 General Boltzmann solver from DarkSUSY, using arbitrary Weff. More...
 
#define CAPABILITY   Xf
 Make sure LocalHalo model is initialized in DarkSUSY. More...
 
#define FUNCTION   Xf_MicrOmegas
 General Boltzmann solver from DarkSUSY, using arbitrary Weff. More...
 
#define CAPABILITY   relic_density_contributions
 Make sure LocalHalo model is initialized in DarkSUSY. More...
 
#define FUNCTION   print_channel_contributions_MicrOmegas
 General Boltzmann solver from DarkSUSY, using arbitrary Weff. More...
 
#define CAPABILITY   semi_annihilation_fraction
 Make sure LocalHalo model is initialized in DarkSUSY. More...
 
#define FUNCTION   get_semi_ann_MicrOmegas
 General Boltzmann solver from DarkSUSY, using arbitrary Weff. More...
 
#define CAPABILITY   RD_fraction
 Make sure LocalHalo model is initialized in DarkSUSY. More...
 
#define FUNCTION   RD_fraction_one
 General Boltzmann solver from DarkSUSY, using arbitrary Weff. More...
 
#define FUNCTION   RD_fraction_leq_one
 General Boltzmann solver from DarkSUSY, using arbitrary Weff. More...
 
#define FUNCTION   RD_fraction_rescaled
 General Boltzmann solver from DarkSUSY, using arbitrary Weff. More...
 
#define CAPABILITY   cascadeMC_FinalStates
 Make sure LocalHalo model is initialized in DarkSUSY. More...
 
#define FUNCTION   cascadeMC_FinalStates
 General Boltzmann solver from DarkSUSY, using arbitrary Weff. More...
 
#define CAPABILITY   cascadeMC_DecayTable
 Make sure LocalHalo model is initialized in DarkSUSY. More...
 
#define FUNCTION   cascadeMC_DecayTable
 General Boltzmann solver from DarkSUSY, using arbitrary Weff. More...
 
#define CAPABILITY   cascadeMC_LoopManagement
 Make sure LocalHalo model is initialized in DarkSUSY. More...
 
#define FUNCTION   cascadeMC_LoopManager
 General Boltzmann solver from DarkSUSY, using arbitrary Weff. More...
 
#define CAPABILITY   cascadeMC_InitialState
 Make sure LocalHalo model is initialized in DarkSUSY. More...
 
#define FUNCTION   cascadeMC_InitialState
 General Boltzmann solver from DarkSUSY, using arbitrary Weff. More...
 
#define CAPABILITY   cascadeMC_EventCount
 Make sure LocalHalo model is initialized in DarkSUSY. More...
 
#define FUNCTION   cascadeMC_EventCount
 General Boltzmann solver from DarkSUSY, using arbitrary Weff. More...
 
#define CAPABILITY   cascadeMC_ChainEvent
 Make sure LocalHalo model is initialized in DarkSUSY. More...
 
#define FUNCTION   cascadeMC_GenerateChain
 General Boltzmann solver from DarkSUSY, using arbitrary Weff. More...
 
#define CAPABILITY   cascadeMC_Histograms
 Make sure LocalHalo model is initialized in DarkSUSY. More...
 
#define FUNCTION   cascadeMC_Histograms
 General Boltzmann solver from DarkSUSY, using arbitrary Weff. More...
 
#define CAPABILITY   cascadeMC_gammaSpectra
 Make sure LocalHalo model is initialized in DarkSUSY. More...
 
#define FUNCTION   cascadeMC_gammaSpectra
 General Boltzmann solver from DarkSUSY, using arbitrary Weff. More...
 
#define CAPABILITY   GA_missingFinalStates
 Make sure LocalHalo model is initialized in DarkSUSY. More...
 
#define FUNCTION   GA_missingFinalStates
 General Boltzmann solver from DarkSUSY, using arbitrary Weff. More...
 
#define CAPABILITY   GA_AnnYield
 Make sure LocalHalo model is initialized in DarkSUSY. More...
 
#define FUNCTION   GA_AnnYield_General
 General Boltzmann solver from DarkSUSY, using arbitrary Weff. More...
 
#define CAPABILITY   TH_ProcessCatalog
 Make sure LocalHalo model is initialized in DarkSUSY. More...
 
#define FUNCTION   TH_ProcessCatalog_DS5_MSSM
 General Boltzmann solver from DarkSUSY, using arbitrary Weff. More...
 
#define FUNCTION   TH_ProcessCatalog_DS_MSSM
 General Boltzmann solver from DarkSUSY, using arbitrary Weff. More...
 
#define FUNCTION   TH_ProcessCatalog_ScalarSingletDM_Z2
 General Boltzmann solver from DarkSUSY, using arbitrary Weff. More...
 
#define FUNCTION   TH_ProcessCatalog_ScalarSingletDM_Z3
 General Boltzmann solver from DarkSUSY, using arbitrary Weff. More...
 
#define FUNCTION   TH_ProcessCatalog_VectorSingletDM_Z2
 General Boltzmann solver from DarkSUSY, using arbitrary Weff. More...
 
#define FUNCTION   TH_ProcessCatalog_MajoranaSingletDM_Z2
 General Boltzmann solver from DarkSUSY, using arbitrary Weff. More...
 
#define FUNCTION   TH_ProcessCatalog_DiracSingletDM_Z2
 General Boltzmann solver from DarkSUSY, using arbitrary Weff. More...
 
#define CAPABILITY   set_gamLike_GC_halo
 Make sure LocalHalo model is initialized in DarkSUSY. More...
 
#define FUNCTION   set_gamLike_GC_halo
 General Boltzmann solver from DarkSUSY, using arbitrary Weff. More...
 
#define CAPABILITY   lnL_FermiLATdwarfs
 Make sure LocalHalo model is initialized in DarkSUSY. More...
 
#define FUNCTION   lnL_FermiLATdwarfs_gamLike
 General Boltzmann solver from DarkSUSY, using arbitrary Weff. More...
 
#define CAPABILITY   lnL_FermiGC
 Make sure LocalHalo model is initialized in DarkSUSY. More...
 
#define FUNCTION   lnL_FermiGC_gamLike
 General Boltzmann solver from DarkSUSY, using arbitrary Weff. More...
 
#define CAPABILITY   lnL_CTAGC
 Make sure LocalHalo model is initialized in DarkSUSY. More...
 
#define FUNCTION   lnL_CTAGC_gamLike
 General Boltzmann solver from DarkSUSY, using arbitrary Weff. More...
 
#define CAPABILITY   lnL_HESSGC
 Make sure LocalHalo model is initialized in DarkSUSY. More...
 
#define FUNCTION   lnL_HESSGC_gamLike
 General Boltzmann solver from DarkSUSY, using arbitrary Weff. More...
 
#define CAPABILITY   dump_GammaSpectrum
 Make sure LocalHalo model is initialized in DarkSUSY. More...
 
#define FUNCTION   dump_GammaSpectrum
 General Boltzmann solver from DarkSUSY, using arbitrary Weff. More...
 
#define CAPABILITY   lnL_oh2
 Make sure LocalHalo model is initialized in DarkSUSY. More...
 
#define FUNCTION   lnL_oh2_Simple
 General Boltzmann solver from DarkSUSY, using arbitrary Weff. More...
 
#define FUNCTION   lnL_oh2_upperlimit
 General Boltzmann solver from DarkSUSY, using arbitrary Weff. More...
 
#define CAPABILITY   lnL_rho0
 Make sure LocalHalo model is initialized in DarkSUSY. More...
 
#define FUNCTION   lnL_rho0_lognormal
 General Boltzmann solver from DarkSUSY, using arbitrary Weff. More...
 
#define CAPABILITY   lnL_vrot
 Make sure LocalHalo model is initialized in DarkSUSY. More...
 
#define FUNCTION   lnL_vrot_gaussian
 General Boltzmann solver from DarkSUSY, using arbitrary Weff. More...
 
#define CAPABILITY   lnL_v0
 Make sure LocalHalo model is initialized in DarkSUSY. More...
 
#define FUNCTION   lnL_v0_gaussian
 General Boltzmann solver from DarkSUSY, using arbitrary Weff. More...
 
#define CAPABILITY   lnL_vesc
 Make sure LocalHalo model is initialized in DarkSUSY. More...
 
#define FUNCTION   lnL_vesc_gaussian
 General Boltzmann solver from DarkSUSY, using arbitrary Weff. More...
 
#define CAPABILITY   sigmav
 Make sure LocalHalo model is initialized in DarkSUSY. More...
 
#define FUNCTION   sigmav_late_universe
 General Boltzmann solver from DarkSUSY, using arbitrary Weff. More...
 
#define FUNCTION   sigmav_late_universe_MicrOmegas
 General Boltzmann solver from DarkSUSY, using arbitrary Weff. More...
 
#define CAPABILITY   DD_couplings
 Make sure LocalHalo model is initialized in DarkSUSY. More...
 
#define FUNCTION   DD_couplings_DarkSUSY_DS5
 General Boltzmann solver from DarkSUSY, using arbitrary Weff. More...
 
#define FUNCTION   DD_couplings_DarkSUSY_MSSM
 General Boltzmann solver from DarkSUSY, using arbitrary Weff. More...
 
#define FUNCTION   DD_couplings_MicrOmegas
 General Boltzmann solver from DarkSUSY, using arbitrary Weff. More...
 
#define FUNCTION   DD_couplings_ScalarSingletDM_Z2
 General Boltzmann solver from DarkSUSY, using arbitrary Weff. More...
 
#define FUNCTION   DD_couplings_ScalarSingletDM_Z3
 General Boltzmann solver from DarkSUSY, using arbitrary Weff. More...
 
#define FUNCTION   DD_couplings_VectorSingletDM_Z2
 General Boltzmann solver from DarkSUSY, using arbitrary Weff. More...
 
#define CAPABILITY   DD_couplings_fermionic_HP
 Make sure LocalHalo model is initialized in DarkSUSY. More...
 
#define FUNCTION   DD_couplings_MajoranaSingletDM_Z2
 General Boltzmann solver from DarkSUSY, using arbitrary Weff. More...
 
#define FUNCTION   DD_couplings_DiracSingletDM_Z2
 General Boltzmann solver from DarkSUSY, using arbitrary Weff. More...
 
#define CAPABILITY   sigma_SI_p
 Make sure LocalHalo model is initialized in DarkSUSY. More...
 
#define FUNCTION   sigma_SI_vnqn
 General Boltzmann solver from DarkSUSY, using arbitrary Weff. More...
 
#define CAPABILITY   sigma_SD_p
 Make sure LocalHalo model is initialized in DarkSUSY. More...
 
#define FUNCTION   sigma_SD_vnqn
 General Boltzmann solver from DarkSUSY, using arbitrary Weff. More...
 
#define CAPABILITY   lnL_SI_nuclear_parameters
 Make sure LocalHalo model is initialized in DarkSUSY. More...
 
#define FUNCTION   lnL_sigmas_sigmal
 General Boltzmann solver from DarkSUSY, using arbitrary Weff. More...
 
#define CAPABILITY   lnL_SD_nuclear_parameters
 Make sure LocalHalo model is initialized in DarkSUSY. More...
 
#define FUNCTION   lnL_deltaq
 General Boltzmann solver from DarkSUSY, using arbitrary Weff. More...
 
#define DD_DECLARE_RESULT_FUNCTION(EXPERIMENT, TYPE, NAME)
 
#define DD_DECLARE_BIN_FUNCTION(EXPERIMENT, TYPE, NAME)
 
#define DD_DECLARE_EXPERIMENT(EXPERIMENT)
 
#define SET_BACKEND_OPTION(EXPERIMENT, VERSIONS)
 
#define CAPABILITY   capture_rate_Sun
 Make sure LocalHalo model is initialized in DarkSUSY. More...
 
#define FUNCTION   capture_rate_Sun_const_xsec_DS5
 General Boltzmann solver from DarkSUSY, using arbitrary Weff. More...
 
#define FUNCTION   capture_rate_Sun_const_xsec
 General Boltzmann solver from DarkSUSY, using arbitrary Weff. More...
 
#define FUNCTION   capture_rate_Sun_const_xsec_capgen
 General Boltzmann solver from DarkSUSY, using arbitrary Weff. More...
 
#define FUNCTION   capture_rate_Sun_vnqn
 General Boltzmann solver from DarkSUSY, using arbitrary Weff. More...
 
#define CAPABILITY   equilibration_time_Sun
 Make sure LocalHalo model is initialized in DarkSUSY. More...
 
#define FUNCTION   equilibration_time_Sun
 General Boltzmann solver from DarkSUSY, using arbitrary Weff. More...
 
#define CAPABILITY   annihilation_rate_Sun
 Make sure LocalHalo model is initialized in DarkSUSY. More...
 
#define FUNCTION   annihilation_rate_Sun
 General Boltzmann solver from DarkSUSY, using arbitrary Weff. More...
 
#define CAPABILITY   nuyield_ptr
 Make sure LocalHalo model is initialized in DarkSUSY. More...
 
#define FUNCTION   nuyield_from_DS
 General Boltzmann solver from DarkSUSY, using arbitrary Weff. More...
 
#define CAPABILITY   IC22_data
 Make sure LocalHalo model is initialized in DarkSUSY. More...
 
#define FUNCTION   IC22_full
 General Boltzmann solver from DarkSUSY, using arbitrary Weff. More...
 
#define CAPABILITY   IC22_signal
 Make sure LocalHalo model is initialized in DarkSUSY. More...
 
#define FUNCTION   IC22_signal
 General Boltzmann solver from DarkSUSY, using arbitrary Weff. More...
 
#define CAPABILITY   IC22_bg
 Make sure LocalHalo model is initialized in DarkSUSY. More...
 
#define FUNCTION   IC22_bg
 General Boltzmann solver from DarkSUSY, using arbitrary Weff. More...
 
#define CAPABILITY   IC22_loglike
 Make sure LocalHalo model is initialized in DarkSUSY. More...
 
#define FUNCTION   IC22_loglike
 General Boltzmann solver from DarkSUSY, using arbitrary Weff. More...
 
#define CAPABILITY   IC22_bgloglike
 Make sure LocalHalo model is initialized in DarkSUSY. More...
 
#define FUNCTION   IC22_bgloglike
 General Boltzmann solver from DarkSUSY, using arbitrary Weff. More...
 
#define CAPABILITY   IC22_pvalue
 Make sure LocalHalo model is initialized in DarkSUSY. More...
 
#define FUNCTION   IC22_pvalue
 General Boltzmann solver from DarkSUSY, using arbitrary Weff. More...
 
#define CAPABILITY   IC22_nobs
 Make sure LocalHalo model is initialized in DarkSUSY. More...
 
#define FUNCTION   IC22_nobs
 General Boltzmann solver from DarkSUSY, using arbitrary Weff. More...
 
#define CAPABILITY   IC79WH_data
 Make sure LocalHalo model is initialized in DarkSUSY. More...
 
#define FUNCTION   IC79WH_full
 General Boltzmann solver from DarkSUSY, using arbitrary Weff. More...
 
#define CAPABILITY   IC79WH_signal
 Make sure LocalHalo model is initialized in DarkSUSY. More...
 
#define FUNCTION   IC79WH_signal
 General Boltzmann solver from DarkSUSY, using arbitrary Weff. More...
 
#define CAPABILITY   IC79WH_bg
 Make sure LocalHalo model is initialized in DarkSUSY. More...
 
#define FUNCTION   IC79WH_bg
 General Boltzmann solver from DarkSUSY, using arbitrary Weff. More...
 
#define CAPABILITY   IC79WH_loglike
 Make sure LocalHalo model is initialized in DarkSUSY. More...
 
#define FUNCTION   IC79WH_loglike
 General Boltzmann solver from DarkSUSY, using arbitrary Weff. More...
 
#define CAPABILITY   IC79WH_bgloglike
 Make sure LocalHalo model is initialized in DarkSUSY. More...
 
#define FUNCTION   IC79WH_bgloglike
 General Boltzmann solver from DarkSUSY, using arbitrary Weff. More...
 
#define CAPABILITY   IC79WH_pvalue
 Make sure LocalHalo model is initialized in DarkSUSY. More...
 
#define FUNCTION   IC79WH_pvalue
 General Boltzmann solver from DarkSUSY, using arbitrary Weff. More...
 
#define CAPABILITY   IC79WH_nobs
 Make sure LocalHalo model is initialized in DarkSUSY. More...
 
#define FUNCTION   IC79WH_nobs
 General Boltzmann solver from DarkSUSY, using arbitrary Weff. More...
 
#define CAPABILITY   IC79WL_data
 Make sure LocalHalo model is initialized in DarkSUSY. More...
 
#define FUNCTION   IC79WL_full
 General Boltzmann solver from DarkSUSY, using arbitrary Weff. More...
 
#define CAPABILITY   IC79WL_signal
 Make sure LocalHalo model is initialized in DarkSUSY. More...
 
#define FUNCTION   IC79WL_signal
 General Boltzmann solver from DarkSUSY, using arbitrary Weff. More...
 
#define CAPABILITY   IC79WL_bg
 Make sure LocalHalo model is initialized in DarkSUSY. More...
 
#define FUNCTION   IC79WL_bg
 General Boltzmann solver from DarkSUSY, using arbitrary Weff. More...
 
#define CAPABILITY   IC79WL_loglike
 Make sure LocalHalo model is initialized in DarkSUSY. More...
 
#define FUNCTION   IC79WL_loglike
 General Boltzmann solver from DarkSUSY, using arbitrary Weff. More...
 
#define CAPABILITY   IC79WL_bgloglike
 Make sure LocalHalo model is initialized in DarkSUSY. More...
 
#define FUNCTION   IC79WL_bgloglike
 General Boltzmann solver from DarkSUSY, using arbitrary Weff. More...
 
#define CAPABILITY   IC79WL_pvalue
 Make sure LocalHalo model is initialized in DarkSUSY. More...
 
#define FUNCTION   IC79WL_pvalue
 General Boltzmann solver from DarkSUSY, using arbitrary Weff. More...
 
#define CAPABILITY   IC79WL_nobs
 Make sure LocalHalo model is initialized in DarkSUSY. More...
 
#define FUNCTION   IC79WL_nobs
 General Boltzmann solver from DarkSUSY, using arbitrary Weff. More...
 
#define CAPABILITY   IC79SL_data
 Make sure LocalHalo model is initialized in DarkSUSY. More...
 
#define FUNCTION   IC79SL_full
 General Boltzmann solver from DarkSUSY, using arbitrary Weff. More...
 
#define CAPABILITY   IC79SL_signal
 Make sure LocalHalo model is initialized in DarkSUSY. More...
 
#define FUNCTION   IC79SL_signal
 General Boltzmann solver from DarkSUSY, using arbitrary Weff. More...
 
#define CAPABILITY   IC79SL_bg
 Make sure LocalHalo model is initialized in DarkSUSY. More...
 
#define FUNCTION   IC79SL_bg
 General Boltzmann solver from DarkSUSY, using arbitrary Weff. More...
 
#define CAPABILITY   IC79SL_loglike
 Make sure LocalHalo model is initialized in DarkSUSY. More...
 
#define FUNCTION   IC79SL_loglike
 General Boltzmann solver from DarkSUSY, using arbitrary Weff. More...
 
#define CAPABILITY   IC79SL_bgloglike
 Make sure LocalHalo model is initialized in DarkSUSY. More...
 
#define FUNCTION   IC79SL_bgloglike
 General Boltzmann solver from DarkSUSY, using arbitrary Weff. More...
 
#define CAPABILITY   IC79SL_pvalue
 Make sure LocalHalo model is initialized in DarkSUSY. More...
 
#define FUNCTION   IC79SL_pvalue
 General Boltzmann solver from DarkSUSY, using arbitrary Weff. More...
 
#define CAPABILITY   IC79SL_nobs
 Make sure LocalHalo model is initialized in DarkSUSY. More...
 
#define FUNCTION   IC79SL_nobs
 General Boltzmann solver from DarkSUSY, using arbitrary Weff. More...
 
#define CAPABILITY   IC79_loglike
 Make sure LocalHalo model is initialized in DarkSUSY. More...
 
#define FUNCTION   IC79_loglike
 General Boltzmann solver from DarkSUSY, using arbitrary Weff. More...
 
#define CAPABILITY   IceCube_likelihood
 Make sure LocalHalo model is initialized in DarkSUSY. More...
 
#define FUNCTION   IC_loglike
 General Boltzmann solver from DarkSUSY, using arbitrary Weff. More...
 
#define CAPABILITY   UnitTest_DarkBit
 Make sure LocalHalo model is initialized in DarkSUSY. More...
 
#define FUNCTION   UnitTest_DarkBit
 General Boltzmann solver from DarkSUSY, using arbitrary Weff. More...
 
#define CAPABILITY   SimYieldTable
 Make sure LocalHalo model is initialized in DarkSUSY. More...
 
#define FUNCTION   SimYieldTable_DarkSUSY
 General Boltzmann solver from DarkSUSY, using arbitrary Weff. More...
 
#define FUNCTION   SimYieldTable_DS5
 General Boltzmann solver from DarkSUSY, using arbitrary Weff. More...
 
#define FUNCTION   SimYieldTable_MicrOmegas
 General Boltzmann solver from DarkSUSY, using arbitrary Weff. More...
 
#define FUNCTION   SimYieldTable_PPPC
 General Boltzmann solver from DarkSUSY, using arbitrary Weff. More...
 
#define CAPABILITY   DarkMatter_ID
 Make sure LocalHalo model is initialized in DarkSUSY. More...
 
#define FUNCTION   DarkMatter_ID_ScalarSingletDM
 General Boltzmann solver from DarkSUSY, using arbitrary Weff. More...
 
#define FUNCTION   DarkMatter_ID_VectorSingletDM
 General Boltzmann solver from DarkSUSY, using arbitrary Weff. More...
 
#define FUNCTION   DarkMatter_ID_MajoranaSingletDM
 General Boltzmann solver from DarkSUSY, using arbitrary Weff. More...
 
#define FUNCTION   DarkMatter_ID_DiracSingletDM
 General Boltzmann solver from DarkSUSY, using arbitrary Weff. More...
 
#define FUNCTION   DarkMatter_ID_MSSM
 General Boltzmann solver from DarkSUSY, using arbitrary Weff. More...
 
#define CAPABILITY   GalacticHalo
 Make sure LocalHalo model is initialized in DarkSUSY. More...
 
#define FUNCTION   GalacticHalo_gNFW
 General Boltzmann solver from DarkSUSY, using arbitrary Weff. More...
 
#define FUNCTION   GalacticHalo_Einasto
 General Boltzmann solver from DarkSUSY, using arbitrary Weff. More...
 
#define CAPABILITY   LocalHalo
 Make sure LocalHalo model is initialized in DarkSUSY. More...
 
#define FUNCTION   ExtractLocalMaxwellianHalo
 General Boltzmann solver from DarkSUSY, using arbitrary Weff. More...
 
#define CAPABILITY   QCDAxion_ZeroTemperatureMass
 Make sure LocalHalo model is initialized in DarkSUSY. More...
 
#define FUNCTION   QCDAxion_ZeroTemperatureMass_Nuisance_lnL
 General Boltzmann solver from DarkSUSY, using arbitrary Weff. More...
 
#define CAPABILITY   QCDAxion_TemperatureDependence
 Make sure LocalHalo model is initialized in DarkSUSY. More...
 
#define FUNCTION   QCDAxion_TemperatureDependence_Nuisance_lnL
 General Boltzmann solver from DarkSUSY, using arbitrary Weff. More...
 
#define CAPABILITY   QCDAxion_AxionPhotonConstant
 Make sure LocalHalo model is initialized in DarkSUSY. More...
 
#define FUNCTION   QCDAxion_AxionPhotonConstant_Nuisance_lnL
 General Boltzmann solver from DarkSUSY, using arbitrary Weff. More...
 
#define CAPABILITY   ALPS1_signal_vac
 Make sure LocalHalo model is initialized in DarkSUSY. More...
 
#define FUNCTION   calc_ALPS1_signal_vac
 General Boltzmann solver from DarkSUSY, using arbitrary Weff. More...
 
#define CAPABILITY   ALPS1_signal_gas
 Make sure LocalHalo model is initialized in DarkSUSY. More...
 
#define FUNCTION   calc_ALPS1_signal_gas
 General Boltzmann solver from DarkSUSY, using arbitrary Weff. More...
 
#define CAPABILITY   lnL_ALPS1
 Make sure LocalHalo model is initialized in DarkSUSY. More...
 
#define FUNCTION   calc_lnL_ALPS1
 General Boltzmann solver from DarkSUSY, using arbitrary Weff. More...
 
#define CAPABILITY   CAST2007_signal_vac
 Make sure LocalHalo model is initialized in DarkSUSY. More...
 
#define FUNCTION   calc_CAST2007_signal_vac
 General Boltzmann solver from DarkSUSY, using arbitrary Weff. More...
 
#define CAPABILITY   CAST2017_signal_vac
 Make sure LocalHalo model is initialized in DarkSUSY. More...
 
#define FUNCTION   calc_CAST2017_signal_vac
 General Boltzmann solver from DarkSUSY, using arbitrary Weff. More...
 
#define CAPABILITY   lnL_CAST2007
 Make sure LocalHalo model is initialized in DarkSUSY. More...
 
#define FUNCTION   calc_lnL_CAST2007
 General Boltzmann solver from DarkSUSY, using arbitrary Weff. More...
 
#define CAPABILITY   lnL_CAST2017
 Make sure LocalHalo model is initialized in DarkSUSY. More...
 
#define FUNCTION   calc_lnL_CAST2017
 General Boltzmann solver from DarkSUSY, using arbitrary Weff. More...
 
#define CAPABILITY   Haloscope_signal
 Make sure LocalHalo model is initialized in DarkSUSY. More...
 
#define FUNCTION   calc_Haloscope_signal
 General Boltzmann solver from DarkSUSY, using arbitrary Weff. More...
 
#define CAPABILITY   lnL_Haloscope_ADMX1
 Make sure LocalHalo model is initialized in DarkSUSY. More...
 
#define FUNCTION   calc_lnL_Haloscope_ADMX1
 General Boltzmann solver from DarkSUSY, using arbitrary Weff. More...
 
#define CAPABILITY   lnL_Haloscope_ADMX2
 Make sure LocalHalo model is initialized in DarkSUSY. More...
 
#define FUNCTION   calc_lnL_Haloscope_ADMX2
 General Boltzmann solver from DarkSUSY, using arbitrary Weff. More...
 
#define CAPABILITY   lnL_Haloscope_RBF
 Make sure LocalHalo model is initialized in DarkSUSY. More...
 
#define FUNCTION   calc_lnL_Haloscope_RBF
 General Boltzmann solver from DarkSUSY, using arbitrary Weff. More...
 
#define CAPABILITY   lnL_Haloscope_UF
 Make sure LocalHalo model is initialized in DarkSUSY. More...
 
#define FUNCTION   calc_lnL_Haloscope_UF
 General Boltzmann solver from DarkSUSY, using arbitrary Weff. More...
 
#define CAPABILITY   RParameter
 Make sure LocalHalo model is initialized in DarkSUSY. More...
 
#define FUNCTION   calc_RParameter
 General Boltzmann solver from DarkSUSY, using arbitrary Weff. More...
 
#define CAPABILITY   lnL_RParameter
 Make sure LocalHalo model is initialized in DarkSUSY. More...
 
#define FUNCTION   calc_lnL_RParameter
 General Boltzmann solver from DarkSUSY, using arbitrary Weff. More...
 
#define CAPABILITY   lnL_WDVar_G117B15A
 Make sure LocalHalo model is initialized in DarkSUSY. More...
 
#define FUNCTION   calc_lnL_WDVar_G117B15A
 General Boltzmann solver from DarkSUSY, using arbitrary Weff. More...
 
#define CAPABILITY   lnL_WDVar_R548
 Make sure LocalHalo model is initialized in DarkSUSY. More...
 
#define FUNCTION   calc_lnL_WDVar_R548
 General Boltzmann solver from DarkSUSY, using arbitrary Weff. More...
 
#define CAPABILITY   lnL_WDVar_PG1351489
 Make sure LocalHalo model is initialized in DarkSUSY. More...
 
#define FUNCTION   calc_lnL_WDVar_PG1351489
 General Boltzmann solver from DarkSUSY, using arbitrary Weff. More...
 
#define CAPABILITY   lnL_WDVar_L192
 Make sure LocalHalo model is initialized in DarkSUSY. More...
 
#define FUNCTION   calc_lnL_WDVar_L192
 General Boltzmann solver from DarkSUSY, using arbitrary Weff. More...
 
#define CAPABILITY   lnL_SN1987A
 Make sure LocalHalo model is initialized in DarkSUSY. More...
 
#define FUNCTION   calc_lnL_SN1987A
 General Boltzmann solver from DarkSUSY, using arbitrary Weff. More...
 
#define CAPABILITY   PhotonFluence_SN1987A_Conversion
 Make sure LocalHalo model is initialized in DarkSUSY. More...
 
#define FUNCTION   calc_PhotonFluence_SN1987A_Conversion
 General Boltzmann solver from DarkSUSY, using arbitrary Weff. More...
 
#define CAPABILITY   lnL_HESS_GCMF
 Make sure LocalHalo model is initialized in DarkSUSY. More...
 
#define FUNCTION   calc_lnL_HESS_GCMF
 General Boltzmann solver from DarkSUSY, using arbitrary Weff. More...
 
#define CAPABILITY   AxionOscillationTemperature
 Make sure LocalHalo model is initialized in DarkSUSY. More...
 
#define FUNCTION   calc_AxionOscillationTemperature
 General Boltzmann solver from DarkSUSY, using arbitrary Weff. More...
 

Functions

double DEPENDENCY (LocalHalo, LocalMaxwellianHalo) BACKEND_REQ(dshmcom
 
double DS5_HMCOM BACKEND_REQ (dshmisodf,(ds5), DS_HMISODF) BACKEND_REQ(dshmframevelcom
 
double DS5_HMCOM DS_HMFRAMEVELCOM BACKEND_REQ (dshmnoclue,(ds5), DS_HMNOCLUE) BACKEND_OPTION((DarkSUSY
 
double DS_HMCOM BACKEND_REQ (dshmisodf,(ds6), DS_HMISODF) BACKEND_REQ(dshmframevelcom
 
double DS_HMCOM DS_HMFRAMEVELCOM BACKEND_REQ (dshmnoclue,(ds6), DS_HMNOCLUE) BACKEND_OPTION((DarkSUSY_MSSM
 
double DS_HMCOM DS_HMFRAMEVELCOM ds6 BACKEND_OPTION ((DarkSUSY_generic_wimp, 6.1.1, 6.2.2),(ds6)) FORCE_SAME_BACKEND(ds6) START_CAPABILITY START_FUNCTION(RD_spectrum_type) DEPENDENCY(MSSM_spectrum
 
double DS_HMCOM DS_HMFRAMEVELCOM ds6 Spectrum DEPENDENCY (DarkMatter_ID, std::string) DEPENDENCY(decay_rates
 
 START_FUNCTION (RD_spectrum_type) BACKEND_REQ(mspctm
 
DS5_MSPCTM BACKEND_REQ (widths,(ds5), DS5_WIDTHS) BACKEND_REQ(intdof
 
DS5_MSPCTM DS_INTDOF BACKEND_REQ (pacodes,(ds5), DS5_PACODES) BACKEND_REQ(DS5particle_code
 
DS5_MSPCTM DS_INTDOF const str & BACKEND_OPTION ((DarkSUSY, 5.1.3),(ds5)) START_FUNCTION(double) ALLOW_MODELS(MSSM63atQ) BACKEND_REQ(dsrdomega
 Routine for cross checking relic density results, using DarkSUSY5. More...
 
 START_FUNCTION (int) DEPENDENCY(RD_spectrum
 
RD_spectrum_type BACKEND_REQ (rdmgev,(ds5), DS5_RDMGEV) BACKEND_OPTION((DarkSUSY
 
RD_spectrum_type BACKEND_REQ (dsancoann,(ds6), DS_DSANCOANN) BACKEND_REQ(DSparticle_code
 
RD_spectrum_type const str & BACKEND_OPTION ((DarkSUSY_MSSM, 6.1.1, 6.2.2),(ds6)) FORCE_SAME_BACKEND(ds6) START_CAPABILITY START_FUNCTION(fptr_dd) ALLOW_MODELS(MSSM63atQ) DEPENDENCY(RD_eff_annrate_DS5prep
 
RD_spectrum_type const str int BACKEND_REQ (dsanwx,(ds5), double,(double &)) BACKEND_OPTION((DarkSUSY
 
 START_FUNCTION (fptr_dd) ALLOW_MODELS(MSSM63atQ) DEPENDENCY(RD_eff_annrate_DSprep_MSSM
 
int BACKEND_REQ (dsanwx,(ds6), double,(double &)) BACKEND_OPTION((DarkSUSY_MSSM
 
 START_FUNCTION (double) DEPENDENCY(RD_spectrum_ordered
 
RD_spectrum_type DEPENDENCY (RD_eff_annrate, fptr_dd) BACKEND_REQ(rdpars
 
RD_spectrum_type DS_RDPARS BACKEND_REQ (rdtime,(ds6), DS_RDTIME) BACKEND_REQ(dsrdcom
 
RD_spectrum_type DS_RDPARS BACKEND_REQ (dsrdstart,(ds6), void,(int &, double(&)[1000], double(&)[1000], int &, double(&)[1000], double(&)[1000], int &, double(&)[1000])) BACKEND_REQ(dsrdens
 
RD_spectrum_type DS_RDPARS double double double int int intBACKEND_OPTION ((DarkSUSY_MSSM),(ds6)) BACKEND_OPTION((DarkSUSY_generic_wimp)
 
RD_spectrum_type DS_RDPARS double double double int int int ds6 FORCE_SAME_BACKEND (ds6) START_FUNCTION(double) DEPENDENCY(RD_spectrum_ordered
 
RD_spectrum_type DS_RDPARS double double double int int int ds6 RD_spectrum_type BACKEND_REQ (dsrdtab,(ds5), void,(double(*)(double &), double &, int &)) BACKEND_REQ(dsrdeqn
 
RD_spectrum_type DS_RDPARS double double double int int int ds6 RD_spectrum_type double double double double double intBACKEND_REQ (dsrdwintp,(ds5), double,(double &)) BACKEND_REQ(DS5particle_code
 
RD_spectrum_type DS_RDPARS double double double int int int ds6 RD_spectrum_type double double double double double int const str DS5_RDMGEV BACKEND_REQ (rdpth,(ds5), DS_RDPTH) BACKEND_REQ(rdpars
 
RD_spectrum_type DS_RDPARS double double double int int int ds6 RD_spectrum_type double double double double double int const str DS5_RDMGEV DS_RDPARS BACKEND_REQ (rdswitch,(ds5), DS_RDSWITCH) BACKEND_REQ(rdlun
 
RD_spectrum_type DS_RDPARS double double double int int int ds6 RD_spectrum_type double double double double double int const str DS5_RDMGEV DS_RDPARS DS_RDLUN BACKEND_REQ (rdpadd,(ds5), DS_RDPADD) BACKEND_REQ(rddof
 
RD_spectrum_type DS_RDPARS double double double int int int ds6 RD_spectrum_type double double double double double int const str DS5_RDMGEV DS_RDPARS DS_RDLUN DS_RDDOF BACKEND_REQ (rderrors,(ds5), DS_RDERRORS) BACKEND_REQ(rdtime
 
double DEPENDENCY (T_cmb, double) START_CAPABILITY START_FUNCTION(ddpair) BACKEND_REQ(oh2
 Get oh2 and Xf simultaneously. More...
 
double double double BACKEND_OPTION ((MicrOmegas_MSSM),(gimmemicro)) BACKEND_OPTION((MicrOmegas_ScalarSingletDM_Z2)
 
double double double gimmemicro BACKEND_OPTION ((MicrOmegas_ScalarSingletDM_Z3),(gimmemicro)) BACKEND_OPTION((MicrOmegas_VectorSingletDM_Z2)
 
double double double gimmemicro gimmemicro BACKEND_OPTION ((MicrOmegas_MajoranaSingletDM_Z2),(gimmemicro)) BACKEND_OPTION((MicrOmegas_DiracSingletDM_Z2)
 
double double double gimmemicro gimmemicro gimmemicro ALLOW_MODELS (MSSM63atQ, MSSM63atMGUT, ScalarSingletDM_Z2, ScalarSingletDM_Z2_running, ScalarSingletDM_Z3, ScalarSingletDM_Z3_running, DiracSingletDM_Z2, MajoranaSingletDM_Z2, VectorSingletDM_Z2) START_CAPABILITY START_FUNCTION(double) DEPENDENCY(RD_oh2_Xf
 Xf = m_WIMP/T_freezeout. More...
 
double BACKEND_REQ (momegas_print_channels,(), double,(double, double, double, int, FILE *)) START_CAPABILITY START_FUNCTION(double) DEPENDENCY(Xf
 Contributions of semi-annihilation to the relic density. More...
 
double double BACKEND_REQ (get_oneChannel,(gimmemicro), double,(double, double, char *, char *, char *, char *)) BACKEND_OPTION((MicrOmegas_ScalarSingletDM_Z3)
 
 START_FUNCTION (bool) DEPENDENCY(RD_fraction
 

Variables

double ds5
 
double ds6
 
DS5_MSPCTM DS_INTDOF int
 
DS5_MSPCTM DS_INTDOF const str TH_ProcessCatalog ScalarSingletDM_Z2_running
 
DS5_MSPCTM DS_INTDOF const str TH_ProcessCatalog ScalarSingletDM_Z3
 
DS5_MSPCTM DS_INTDOF const str TH_ProcessCatalog ScalarSingletDM_Z3_running
 
DS5_MSPCTM DS_INTDOF const str TH_ProcessCatalog DiracSingletDM_Z2
 
DS5_MSPCTM DS_INTDOF const str TH_ProcessCatalog MajoranaSingletDM_Z2
 
RD_spectrum_type DS_RDPARS void
 
RD_spectrum_type DS_RDPARS double double
 
double gimmemicro
 

Detailed Description

Rollcall header for module DarkBit.

Compile-time registration of available obser- vables and likelihoods, as well as their dependencies.

Add to this if you want to add an observable or likelihood to this module.


Authors (add name and date if you modify):

Author
Christoph Weniger (c.wen.nosp@m.iger.nosp@m.@uva..nosp@m.nl)
Date
2013 Jul - 2015 May
Author
Torsten Bringmann (torst.nosp@m.en.b.nosp@m.ringm.nosp@m.ann@.nosp@m.fys.u.nosp@m.io.n.nosp@m.o)
Date
2013 Jun
2014 Mar
2019 May
Author
Lars A. Dal (l.a.d.nosp@m.al@f.nosp@m.ys.ui.nosp@m.o.no)
Date
2014 Mar, Sep, Oct
Author
Christopher Savage (chris.nosp@m.@sav.nosp@m.age.n.nosp@m.ame)
Date
2014 Oct, Dec
2015 June
Author
Antje Putze (antje.nosp@m..put.nosp@m.ze@la.nosp@m.pth..nosp@m.cnrs..nosp@m.fr)
Date
2015 Jan
Author
Pat Scott (pscot.nosp@m.t@im.nosp@m.peria.nosp@m.l.ac.nosp@m..uk)
Date
2014 Mar
2015 Mar, Aug 2018 Sep
Author
Sebastian Wild (sebas.nosp@m.tian.nosp@m..wild.nosp@m.@ph..nosp@m.tum.d.nosp@m.e)
Date
2016 Aug, 2017 Oct
Author
Felix Kahlhoefer (felix.nosp@m..kah.nosp@m.lhoef.nosp@m.er@d.nosp@m.esy.d.nosp@m.e)
Date
2016 August
Author
Ankit Beniwal (ankit.nosp@m..ben.nosp@m.iwal@.nosp@m.adel.nosp@m.aide..nosp@m.edu..nosp@m.au)
Date
2016 Oct
2018 Jan, Aug
Author
Aaron Vincent (aaron.nosp@m..vin.nosp@m.cent@.nosp@m.cpar.nosp@m.c.ca)
Date
2017 Sept
Author
Sanjay Bloor (sanja.nosp@m.y.bl.nosp@m.oor12.nosp@m.@imp.nosp@m.erial.nosp@m..ac..nosp@m.uk)
Date
2017 Dec
2018 Aug
2020 Feb
Author
Sebastian Hoof (s.hoo.nosp@m.f15@.nosp@m.imper.nosp@m.ial..nosp@m.ac.uk)
Date
2016 Oct
2017 Feb, Sep, Dec
2018 Jan, Mar, Apr
2019 Mar, Apr, Jun
Author
Anders Kvellestad (ander.nosp@m.s.kv.nosp@m.elles.nosp@m.tad@.nosp@m.fys.u.nosp@m.io.n.nosp@m.o)
Date
2020 Feb
Author
Jonathan Cornell (jonat.nosp@m.hanc.nosp@m.ornel.nosp@m.l@we.nosp@m.ber.e.nosp@m.du)
Date
2013 - 2020

Definition in file DarkBit_rollcall.hpp.

Macro Definition Documentation

◆ CAPABILITY [1/106]

#define CAPABILITY   DarkSUSY5_PointInit_LocalHalo

Make sure LocalHalo model is initialized in DarkSUSY.

Function for retrieving list of final states for cascade decays.

Fraction of the relic density constituted by the DM candidate under investigation.

Contributions of different annihilation channels to the relic density.

Definition at line 353 of file DarkBit_rollcall.hpp.

◆ CAPABILITY [2/106]

#define CAPABILITY   DarkSUSY_PointInit_LocalHalo

Make sure LocalHalo model is initialized in DarkSUSY.

Function for retrieving list of final states for cascade decays.

Fraction of the relic density constituted by the DM candidate under investigation.

Contributions of different annihilation channels to the relic density.

Definition at line 353 of file DarkBit_rollcall.hpp.

◆ CAPABILITY [3/106]

#define CAPABILITY   RD_spectrum

Make sure LocalHalo model is initialized in DarkSUSY.

Function for retrieving list of final states for cascade decays.

Fraction of the relic density constituted by the DM candidate under investigation.

Contributions of different annihilation channels to the relic density.

Definition at line 353 of file DarkBit_rollcall.hpp.

◆ CAPABILITY [4/106]

#define CAPABILITY   RD_spectrum_ordered

Make sure LocalHalo model is initialized in DarkSUSY.

Function for retrieving list of final states for cascade decays.

Fraction of the relic density constituted by the DM candidate under investigation.

Contributions of different annihilation channels to the relic density.

Definition at line 353 of file DarkBit_rollcall.hpp.

◆ CAPABILITY [5/106]

#define CAPABILITY   RD_eff_annrate_DS5prep

Make sure LocalHalo model is initialized in DarkSUSY.

Function for retrieving list of final states for cascade decays.

Fraction of the relic density constituted by the DM candidate under investigation.

Contributions of different annihilation channels to the relic density.

Definition at line 353 of file DarkBit_rollcall.hpp.

◆ CAPABILITY [6/106]

#define CAPABILITY   RD_eff_annrate_DSprep_MSSM

Make sure LocalHalo model is initialized in DarkSUSY.

Function for retrieving list of final states for cascade decays.

Fraction of the relic density constituted by the DM candidate under investigation.

Contributions of different annihilation channels to the relic density.

Definition at line 353 of file DarkBit_rollcall.hpp.

◆ CAPABILITY [7/106]

#define CAPABILITY   RD_eff_annrate

Make sure LocalHalo model is initialized in DarkSUSY.

Function for retrieving list of final states for cascade decays.

Fraction of the relic density constituted by the DM candidate under investigation.

Contributions of different annihilation channels to the relic density.

Definition at line 353 of file DarkBit_rollcall.hpp.

◆ CAPABILITY [8/106]

#define CAPABILITY   RD_oh2

Make sure LocalHalo model is initialized in DarkSUSY.

Function for retrieving list of final states for cascade decays.

Fraction of the relic density constituted by the DM candidate under investigation.

Contributions of different annihilation channels to the relic density.

Definition at line 353 of file DarkBit_rollcall.hpp.

◆ CAPABILITY [9/106]

#define CAPABILITY   RD_oh2_Xf

Make sure LocalHalo model is initialized in DarkSUSY.

Function for retrieving list of final states for cascade decays.

Fraction of the relic density constituted by the DM candidate under investigation.

Contributions of different annihilation channels to the relic density.

Definition at line 353 of file DarkBit_rollcall.hpp.

◆ CAPABILITY [10/106]

#define CAPABILITY   Xf

Make sure LocalHalo model is initialized in DarkSUSY.

Function for retrieving list of final states for cascade decays.

Fraction of the relic density constituted by the DM candidate under investigation.

Contributions of different annihilation channels to the relic density.

Definition at line 353 of file DarkBit_rollcall.hpp.

◆ CAPABILITY [11/106]

#define CAPABILITY   relic_density_contributions

Make sure LocalHalo model is initialized in DarkSUSY.

Function for retrieving list of final states for cascade decays.

Fraction of the relic density constituted by the DM candidate under investigation.

Contributions of different annihilation channels to the relic density.

Definition at line 353 of file DarkBit_rollcall.hpp.

◆ CAPABILITY [12/106]

#define CAPABILITY   semi_annihilation_fraction

Make sure LocalHalo model is initialized in DarkSUSY.

Function for retrieving list of final states for cascade decays.

Fraction of the relic density constituted by the DM candidate under investigation.

Contributions of different annihilation channels to the relic density.

Definition at line 353 of file DarkBit_rollcall.hpp.

◆ CAPABILITY [13/106]

#define CAPABILITY   RD_fraction

Make sure LocalHalo model is initialized in DarkSUSY.

Function for retrieving list of final states for cascade decays.

Fraction of the relic density constituted by the DM candidate under investigation.

Contributions of different annihilation channels to the relic density.

Definition at line 353 of file DarkBit_rollcall.hpp.

◆ CAPABILITY [14/106]

#define CAPABILITY   cascadeMC_FinalStates

Make sure LocalHalo model is initialized in DarkSUSY.

Function for retrieving list of final states for cascade decays.

Fraction of the relic density constituted by the DM candidate under investigation.

Contributions of different annihilation channels to the relic density.

Definition at line 353 of file DarkBit_rollcall.hpp.

◆ CAPABILITY [15/106]

#define CAPABILITY   cascadeMC_DecayTable

Make sure LocalHalo model is initialized in DarkSUSY.

Function for retrieving list of final states for cascade decays.

Fraction of the relic density constituted by the DM candidate under investigation.

Contributions of different annihilation channels to the relic density.

Definition at line 353 of file DarkBit_rollcall.hpp.

◆ CAPABILITY [16/106]

#define CAPABILITY   cascadeMC_LoopManagement

Make sure LocalHalo model is initialized in DarkSUSY.

Function for retrieving list of final states for cascade decays.

Fraction of the relic density constituted by the DM candidate under investigation.

Contributions of different annihilation channels to the relic density.

Definition at line 353 of file DarkBit_rollcall.hpp.

◆ CAPABILITY [17/106]

#define CAPABILITY   cascadeMC_InitialState

Make sure LocalHalo model is initialized in DarkSUSY.

Function for retrieving list of final states for cascade decays.

Fraction of the relic density constituted by the DM candidate under investigation.

Contributions of different annihilation channels to the relic density.

Definition at line 353 of file DarkBit_rollcall.hpp.

◆ CAPABILITY [18/106]

#define CAPABILITY   cascadeMC_EventCount

Make sure LocalHalo model is initialized in DarkSUSY.

Function for retrieving list of final states for cascade decays.

Fraction of the relic density constituted by the DM candidate under investigation.

Contributions of different annihilation channels to the relic density.

Definition at line 353 of file DarkBit_rollcall.hpp.

◆ CAPABILITY [19/106]

#define CAPABILITY   cascadeMC_ChainEvent

Make sure LocalHalo model is initialized in DarkSUSY.

Function for retrieving list of final states for cascade decays.

Fraction of the relic density constituted by the DM candidate under investigation.

Contributions of different annihilation channels to the relic density.

Definition at line 353 of file DarkBit_rollcall.hpp.

◆ CAPABILITY [20/106]

#define CAPABILITY   cascadeMC_Histograms

Make sure LocalHalo model is initialized in DarkSUSY.

Function for retrieving list of final states for cascade decays.

Fraction of the relic density constituted by the DM candidate under investigation.

Contributions of different annihilation channels to the relic density.

Definition at line 353 of file DarkBit_rollcall.hpp.

◆ CAPABILITY [21/106]

#define CAPABILITY   cascadeMC_gammaSpectra

Make sure LocalHalo model is initialized in DarkSUSY.

Function for retrieving list of final states for cascade decays.

Fraction of the relic density constituted by the DM candidate under investigation.

Contributions of different annihilation channels to the relic density.

Definition at line 353 of file DarkBit_rollcall.hpp.

◆ CAPABILITY [22/106]

#define CAPABILITY   GA_missingFinalStates

Make sure LocalHalo model is initialized in DarkSUSY.

Function for retrieving list of final states for cascade decays.

Fraction of the relic density constituted by the DM candidate under investigation.

Contributions of different annihilation channels to the relic density.

Definition at line 353 of file DarkBit_rollcall.hpp.

◆ CAPABILITY [23/106]

#define CAPABILITY   GA_AnnYield

Make sure LocalHalo model is initialized in DarkSUSY.

Function for retrieving list of final states for cascade decays.

Fraction of the relic density constituted by the DM candidate under investigation.

Contributions of different annihilation channels to the relic density.

Definition at line 353 of file DarkBit_rollcall.hpp.

◆ CAPABILITY [24/106]

#define CAPABILITY   TH_ProcessCatalog

Make sure LocalHalo model is initialized in DarkSUSY.

Function for retrieving list of final states for cascade decays.

Fraction of the relic density constituted by the DM candidate under investigation.

Contributions of different annihilation channels to the relic density.

Definition at line 353 of file DarkBit_rollcall.hpp.

◆ CAPABILITY [25/106]

#define CAPABILITY   set_gamLike_GC_halo

Make sure LocalHalo model is initialized in DarkSUSY.

Function for retrieving list of final states for cascade decays.

Fraction of the relic density constituted by the DM candidate under investigation.

Contributions of different annihilation channels to the relic density.

Definition at line 353 of file DarkBit_rollcall.hpp.

◆ CAPABILITY [26/106]

#define CAPABILITY   lnL_FermiLATdwarfs

Make sure LocalHalo model is initialized in DarkSUSY.

Function for retrieving list of final states for cascade decays.

Fraction of the relic density constituted by the DM candidate under investigation.

Contributions of different annihilation channels to the relic density.

Definition at line 353 of file DarkBit_rollcall.hpp.

◆ CAPABILITY [27/106]

#define CAPABILITY   lnL_FermiGC

Make sure LocalHalo model is initialized in DarkSUSY.

Function for retrieving list of final states for cascade decays.

Fraction of the relic density constituted by the DM candidate under investigation.

Contributions of different annihilation channels to the relic density.

Definition at line 353 of file DarkBit_rollcall.hpp.

◆ CAPABILITY [28/106]

#define CAPABILITY   lnL_CTAGC

Make sure LocalHalo model is initialized in DarkSUSY.

Function for retrieving list of final states for cascade decays.

Fraction of the relic density constituted by the DM candidate under investigation.

Contributions of different annihilation channels to the relic density.

Definition at line 353 of file DarkBit_rollcall.hpp.

◆ CAPABILITY [29/106]

#define CAPABILITY   lnL_HESSGC

Make sure LocalHalo model is initialized in DarkSUSY.

Function for retrieving list of final states for cascade decays.

Fraction of the relic density constituted by the DM candidate under investigation.

Contributions of different annihilation channels to the relic density.

Definition at line 353 of file DarkBit_rollcall.hpp.

◆ CAPABILITY [30/106]

#define CAPABILITY   dump_GammaSpectrum

Make sure LocalHalo model is initialized in DarkSUSY.

Function for retrieving list of final states for cascade decays.

Fraction of the relic density constituted by the DM candidate under investigation.

Contributions of different annihilation channels to the relic density.

Definition at line 353 of file DarkBit_rollcall.hpp.

◆ CAPABILITY [31/106]

#define CAPABILITY   lnL_oh2

Make sure LocalHalo model is initialized in DarkSUSY.

Function for retrieving list of final states for cascade decays.

Fraction of the relic density constituted by the DM candidate under investigation.

Contributions of different annihilation channels to the relic density.

Definition at line 353 of file DarkBit_rollcall.hpp.

◆ CAPABILITY [32/106]

#define CAPABILITY   lnL_rho0

Make sure LocalHalo model is initialized in DarkSUSY.

Function for retrieving list of final states for cascade decays.

Fraction of the relic density constituted by the DM candidate under investigation.

Contributions of different annihilation channels to the relic density.

Definition at line 353 of file DarkBit_rollcall.hpp.

◆ CAPABILITY [33/106]

#define CAPABILITY   lnL_vrot

Make sure LocalHalo model is initialized in DarkSUSY.

Function for retrieving list of final states for cascade decays.

Fraction of the relic density constituted by the DM candidate under investigation.

Contributions of different annihilation channels to the relic density.

Definition at line 353 of file DarkBit_rollcall.hpp.

◆ CAPABILITY [34/106]

#define CAPABILITY   lnL_v0

Make sure LocalHalo model is initialized in DarkSUSY.

Function for retrieving list of final states for cascade decays.

Fraction of the relic density constituted by the DM candidate under investigation.

Contributions of different annihilation channels to the relic density.

Definition at line 353 of file DarkBit_rollcall.hpp.

◆ CAPABILITY [35/106]

#define CAPABILITY   lnL_vesc

Make sure LocalHalo model is initialized in DarkSUSY.

Function for retrieving list of final states for cascade decays.

Fraction of the relic density constituted by the DM candidate under investigation.

Contributions of different annihilation channels to the relic density.

Definition at line 353 of file DarkBit_rollcall.hpp.

◆ CAPABILITY [36/106]

#define CAPABILITY   sigmav

Make sure LocalHalo model is initialized in DarkSUSY.

Function for retrieving list of final states for cascade decays.

Fraction of the relic density constituted by the DM candidate under investigation.

Contributions of different annihilation channels to the relic density.

Definition at line 353 of file DarkBit_rollcall.hpp.

◆ CAPABILITY [37/106]

#define CAPABILITY   DD_couplings

Make sure LocalHalo model is initialized in DarkSUSY.

Function for retrieving list of final states for cascade decays.

Fraction of the relic density constituted by the DM candidate under investigation.

Contributions of different annihilation channels to the relic density.

Definition at line 353 of file DarkBit_rollcall.hpp.

◆ CAPABILITY [38/106]

#define CAPABILITY   DD_couplings_fermionic_HP

Make sure LocalHalo model is initialized in DarkSUSY.

Function for retrieving list of final states for cascade decays.

Fraction of the relic density constituted by the DM candidate under investigation.

Contributions of different annihilation channels to the relic density.

Definition at line 353 of file DarkBit_rollcall.hpp.

◆ CAPABILITY [39/106]

#define CAPABILITY   sigma_SI_p

Make sure LocalHalo model is initialized in DarkSUSY.

Function for retrieving list of final states for cascade decays.

Fraction of the relic density constituted by the DM candidate under investigation.

Contributions of different annihilation channels to the relic density.

Definition at line 353 of file DarkBit_rollcall.hpp.

◆ CAPABILITY [40/106]

#define CAPABILITY   sigma_SD_p

Make sure LocalHalo model is initialized in DarkSUSY.

Function for retrieving list of final states for cascade decays.

Fraction of the relic density constituted by the DM candidate under investigation.

Contributions of different annihilation channels to the relic density.

Definition at line 353 of file DarkBit_rollcall.hpp.

◆ CAPABILITY [41/106]

#define CAPABILITY   lnL_SI_nuclear_parameters

Make sure LocalHalo model is initialized in DarkSUSY.

Function for retrieving list of final states for cascade decays.

Fraction of the relic density constituted by the DM candidate under investigation.

Contributions of different annihilation channels to the relic density.

Definition at line 353 of file DarkBit_rollcall.hpp.

◆ CAPABILITY [42/106]

#define CAPABILITY   lnL_SD_nuclear_parameters

Make sure LocalHalo model is initialized in DarkSUSY.

Function for retrieving list of final states for cascade decays.

Fraction of the relic density constituted by the DM candidate under investigation.

Contributions of different annihilation channels to the relic density.

Definition at line 353 of file DarkBit_rollcall.hpp.

◆ CAPABILITY [43/106]

#define CAPABILITY   capture_rate_Sun

Make sure LocalHalo model is initialized in DarkSUSY.

Function for retrieving list of final states for cascade decays.

Fraction of the relic density constituted by the DM candidate under investigation.

Contributions of different annihilation channels to the relic density.

Definition at line 353 of file DarkBit_rollcall.hpp.

◆ CAPABILITY [44/106]

#define CAPABILITY   equilibration_time_Sun

Make sure LocalHalo model is initialized in DarkSUSY.

Function for retrieving list of final states for cascade decays.

Fraction of the relic density constituted by the DM candidate under investigation.

Contributions of different annihilation channels to the relic density.

Definition at line 353 of file DarkBit_rollcall.hpp.

◆ CAPABILITY [45/106]

#define CAPABILITY   annihilation_rate_Sun

Make sure LocalHalo model is initialized in DarkSUSY.

Function for retrieving list of final states for cascade decays.

Fraction of the relic density constituted by the DM candidate under investigation.

Contributions of different annihilation channels to the relic density.

Definition at line 353 of file DarkBit_rollcall.hpp.

◆ CAPABILITY [46/106]

#define CAPABILITY   nuyield_ptr

Make sure LocalHalo model is initialized in DarkSUSY.

Function for retrieving list of final states for cascade decays.

Fraction of the relic density constituted by the DM candidate under investigation.

Contributions of different annihilation channels to the relic density.

Definition at line 353 of file DarkBit_rollcall.hpp.

◆ CAPABILITY [47/106]

#define CAPABILITY   IC22_data

Make sure LocalHalo model is initialized in DarkSUSY.

Function for retrieving list of final states for cascade decays.

Fraction of the relic density constituted by the DM candidate under investigation.

Contributions of different annihilation channels to the relic density.

Definition at line 353 of file DarkBit_rollcall.hpp.

◆ CAPABILITY [48/106]

#define CAPABILITY   IC22_signal

Make sure LocalHalo model is initialized in DarkSUSY.

Function for retrieving list of final states for cascade decays.

Fraction of the relic density constituted by the DM candidate under investigation.

Contributions of different annihilation channels to the relic density.

Definition at line 353 of file DarkBit_rollcall.hpp.

◆ CAPABILITY [49/106]

#define CAPABILITY   IC22_bg

Make sure LocalHalo model is initialized in DarkSUSY.

Function for retrieving list of final states for cascade decays.

Fraction of the relic density constituted by the DM candidate under investigation.

Contributions of different annihilation channels to the relic density.

Definition at line 353 of file DarkBit_rollcall.hpp.

◆ CAPABILITY [50/106]

#define CAPABILITY   IC22_loglike

Make sure LocalHalo model is initialized in DarkSUSY.

Function for retrieving list of final states for cascade decays.

Fraction of the relic density constituted by the DM candidate under investigation.

Contributions of different annihilation channels to the relic density.

Definition at line 353 of file DarkBit_rollcall.hpp.

◆ CAPABILITY [51/106]

#define CAPABILITY   IC22_bgloglike

Make sure LocalHalo model is initialized in DarkSUSY.

Function for retrieving list of final states for cascade decays.

Fraction of the relic density constituted by the DM candidate under investigation.

Contributions of different annihilation channels to the relic density.

Definition at line 353 of file DarkBit_rollcall.hpp.

◆ CAPABILITY [52/106]

#define CAPABILITY   IC22_pvalue

Make sure LocalHalo model is initialized in DarkSUSY.

Function for retrieving list of final states for cascade decays.

Fraction of the relic density constituted by the DM candidate under investigation.

Contributions of different annihilation channels to the relic density.

Definition at line 353 of file DarkBit_rollcall.hpp.

◆ CAPABILITY [53/106]

#define CAPABILITY   IC22_nobs

Make sure LocalHalo model is initialized in DarkSUSY.

Function for retrieving list of final states for cascade decays.

Fraction of the relic density constituted by the DM candidate under investigation.

Contributions of different annihilation channels to the relic density.

Definition at line 353 of file DarkBit_rollcall.hpp.

◆ CAPABILITY [54/106]

#define CAPABILITY   IC79WH_data

Make sure LocalHalo model is initialized in DarkSUSY.

Function for retrieving list of final states for cascade decays.

Fraction of the relic density constituted by the DM candidate under investigation.

Contributions of different annihilation channels to the relic density.

Definition at line 353 of file DarkBit_rollcall.hpp.

◆ CAPABILITY [55/106]

#define CAPABILITY   IC79WH_signal

Make sure LocalHalo model is initialized in DarkSUSY.

Function for retrieving list of final states for cascade decays.

Fraction of the relic density constituted by the DM candidate under investigation.

Contributions of different annihilation channels to the relic density.

Definition at line 353 of file DarkBit_rollcall.hpp.

◆ CAPABILITY [56/106]

#define CAPABILITY   IC79WH_bg

Make sure LocalHalo model is initialized in DarkSUSY.

Function for retrieving list of final states for cascade decays.

Fraction of the relic density constituted by the DM candidate under investigation.

Contributions of different annihilation channels to the relic density.

Definition at line 353 of file DarkBit_rollcall.hpp.

◆ CAPABILITY [57/106]

#define CAPABILITY   IC79WH_loglike

Make sure LocalHalo model is initialized in DarkSUSY.

Function for retrieving list of final states for cascade decays.

Fraction of the relic density constituted by the DM candidate under investigation.

Contributions of different annihilation channels to the relic density.

Definition at line 353 of file DarkBit_rollcall.hpp.

◆ CAPABILITY [58/106]

#define CAPABILITY   IC79WH_bgloglike

Make sure LocalHalo model is initialized in DarkSUSY.

Function for retrieving list of final states for cascade decays.

Fraction of the relic density constituted by the DM candidate under investigation.

Contributions of different annihilation channels to the relic density.

Definition at line 353 of file DarkBit_rollcall.hpp.

◆ CAPABILITY [59/106]

#define CAPABILITY   IC79WH_pvalue

Make sure LocalHalo model is initialized in DarkSUSY.

Function for retrieving list of final states for cascade decays.

Fraction of the relic density constituted by the DM candidate under investigation.

Contributions of different annihilation channels to the relic density.

Definition at line 353 of file DarkBit_rollcall.hpp.

◆ CAPABILITY [60/106]

#define CAPABILITY   IC79WH_nobs

Make sure LocalHalo model is initialized in DarkSUSY.

Function for retrieving list of final states for cascade decays.

Fraction of the relic density constituted by the DM candidate under investigation.

Contributions of different annihilation channels to the relic density.

Definition at line 353 of file DarkBit_rollcall.hpp.

◆ CAPABILITY [61/106]

#define CAPABILITY   IC79WL_data

Make sure LocalHalo model is initialized in DarkSUSY.

Function for retrieving list of final states for cascade decays.

Fraction of the relic density constituted by the DM candidate under investigation.

Contributions of different annihilation channels to the relic density.

Definition at line 353 of file DarkBit_rollcall.hpp.

◆ CAPABILITY [62/106]

#define CAPABILITY   IC79WL_signal

Make sure LocalHalo model is initialized in DarkSUSY.

Function for retrieving list of final states for cascade decays.

Fraction of the relic density constituted by the DM candidate under investigation.

Contributions of different annihilation channels to the relic density.

Definition at line 353 of file DarkBit_rollcall.hpp.

◆ CAPABILITY [63/106]

#define CAPABILITY   IC79WL_bg

Make sure LocalHalo model is initialized in DarkSUSY.

Function for retrieving list of final states for cascade decays.

Fraction of the relic density constituted by the DM candidate under investigation.

Contributions of different annihilation channels to the relic density.

Definition at line 353 of file DarkBit_rollcall.hpp.

◆ CAPABILITY [64/106]

#define CAPABILITY   IC79WL_loglike

Make sure LocalHalo model is initialized in DarkSUSY.

Function for retrieving list of final states for cascade decays.

Fraction of the relic density constituted by the DM candidate under investigation.

Contributions of different annihilation channels to the relic density.

Definition at line 353 of file DarkBit_rollcall.hpp.

◆ CAPABILITY [65/106]

#define CAPABILITY   IC79WL_bgloglike

Make sure LocalHalo model is initialized in DarkSUSY.

Function for retrieving list of final states for cascade decays.

Fraction of the relic density constituted by the DM candidate under investigation.

Contributions of different annihilation channels to the relic density.

Definition at line 353 of file DarkBit_rollcall.hpp.

◆ CAPABILITY [66/106]

#define CAPABILITY   IC79WL_pvalue

Make sure LocalHalo model is initialized in DarkSUSY.

Function for retrieving list of final states for cascade decays.

Fraction of the relic density constituted by the DM candidate under investigation.

Contributions of different annihilation channels to the relic density.

Definition at line 353 of file DarkBit_rollcall.hpp.

◆ CAPABILITY [67/106]

#define CAPABILITY   IC79WL_nobs

Make sure LocalHalo model is initialized in DarkSUSY.

Function for retrieving list of final states for cascade decays.

Fraction of the relic density constituted by the DM candidate under investigation.

Contributions of different annihilation channels to the relic density.

Definition at line 353 of file DarkBit_rollcall.hpp.

◆ CAPABILITY [68/106]

#define CAPABILITY   IC79SL_data

Make sure LocalHalo model is initialized in DarkSUSY.

Function for retrieving list of final states for cascade decays.

Fraction of the relic density constituted by the DM candidate under investigation.

Contributions of different annihilation channels to the relic density.

Definition at line 353 of file DarkBit_rollcall.hpp.

◆ CAPABILITY [69/106]

#define CAPABILITY   IC79SL_signal

Make sure LocalHalo model is initialized in DarkSUSY.

Function for retrieving list of final states for cascade decays.

Fraction of the relic density constituted by the DM candidate under investigation.

Contributions of different annihilation channels to the relic density.

Definition at line 353 of file DarkBit_rollcall.hpp.

◆ CAPABILITY [70/106]

#define CAPABILITY   IC79SL_bg

Make sure LocalHalo model is initialized in DarkSUSY.

Function for retrieving list of final states for cascade decays.

Fraction of the relic density constituted by the DM candidate under investigation.

Contributions of different annihilation channels to the relic density.

Definition at line 353 of file DarkBit_rollcall.hpp.

◆ CAPABILITY [71/106]

#define CAPABILITY   IC79SL_loglike

Make sure LocalHalo model is initialized in DarkSUSY.

Function for retrieving list of final states for cascade decays.

Fraction of the relic density constituted by the DM candidate under investigation.

Contributions of different annihilation channels to the relic density.

Definition at line 353 of file DarkBit_rollcall.hpp.

◆ CAPABILITY [72/106]

#define CAPABILITY   IC79SL_bgloglike

Make sure LocalHalo model is initialized in DarkSUSY.

Function for retrieving list of final states for cascade decays.

Fraction of the relic density constituted by the DM candidate under investigation.

Contributions of different annihilation channels to the relic density.

Definition at line 353 of file DarkBit_rollcall.hpp.

◆ CAPABILITY [73/106]

#define CAPABILITY   IC79SL_pvalue

Make sure LocalHalo model is initialized in DarkSUSY.

Function for retrieving list of final states for cascade decays.

Fraction of the relic density constituted by the DM candidate under investigation.

Contributions of different annihilation channels to the relic density.

Definition at line 353 of file DarkBit_rollcall.hpp.

◆ CAPABILITY [74/106]

#define CAPABILITY   IC79SL_nobs

Make sure LocalHalo model is initialized in DarkSUSY.

Function for retrieving list of final states for cascade decays.

Fraction of the relic density constituted by the DM candidate under investigation.

Contributions of different annihilation channels to the relic density.

Definition at line 353 of file DarkBit_rollcall.hpp.

◆ CAPABILITY [75/106]

#define CAPABILITY   IC79_loglike

Make sure LocalHalo model is initialized in DarkSUSY.

Function for retrieving list of final states for cascade decays.

Fraction of the relic density constituted by the DM candidate under investigation.

Contributions of different annihilation channels to the relic density.

Definition at line 353 of file DarkBit_rollcall.hpp.

◆ CAPABILITY [76/106]

#define CAPABILITY   IceCube_likelihood

Make sure LocalHalo model is initialized in DarkSUSY.

Function for retrieving list of final states for cascade decays.

Fraction of the relic density constituted by the DM candidate under investigation.

Contributions of different annihilation channels to the relic density.

Definition at line 353 of file DarkBit_rollcall.hpp.

◆ CAPABILITY [77/106]

#define CAPABILITY   UnitTest_DarkBit

Make sure LocalHalo model is initialized in DarkSUSY.

Function for retrieving list of final states for cascade decays.

Fraction of the relic density constituted by the DM candidate under investigation.

Contributions of different annihilation channels to the relic density.

Definition at line 353 of file DarkBit_rollcall.hpp.

◆ CAPABILITY [78/106]

#define CAPABILITY   SimYieldTable

Make sure LocalHalo model is initialized in DarkSUSY.

Function for retrieving list of final states for cascade decays.

Fraction of the relic density constituted by the DM candidate under investigation.

Contributions of different annihilation channels to the relic density.

Definition at line 353 of file DarkBit_rollcall.hpp.

◆ CAPABILITY [79/106]

#define CAPABILITY   DarkMatter_ID

Make sure LocalHalo model is initialized in DarkSUSY.

Function for retrieving list of final states for cascade decays.

Fraction of the relic density constituted by the DM candidate under investigation.

Contributions of different annihilation channels to the relic density.

Definition at line 353 of file DarkBit_rollcall.hpp.

◆ CAPABILITY [80/106]

#define CAPABILITY   GalacticHalo

Make sure LocalHalo model is initialized in DarkSUSY.

Function for retrieving list of final states for cascade decays.

Fraction of the relic density constituted by the DM candidate under investigation.

Contributions of different annihilation channels to the relic density.

Definition at line 353 of file DarkBit_rollcall.hpp.

◆ CAPABILITY [81/106]

#define CAPABILITY   LocalHalo

Make sure LocalHalo model is initialized in DarkSUSY.

Function for retrieving list of final states for cascade decays.

Fraction of the relic density constituted by the DM candidate under investigation.

Contributions of different annihilation channels to the relic density.

Definition at line 353 of file DarkBit_rollcall.hpp.

◆ CAPABILITY [82/106]

#define CAPABILITY   QCDAxion_ZeroTemperatureMass

Make sure LocalHalo model is initialized in DarkSUSY.

Function for retrieving list of final states for cascade decays.

Fraction of the relic density constituted by the DM candidate under investigation.

Contributions of different annihilation channels to the relic density.

Definition at line 353 of file DarkBit_rollcall.hpp.

◆ CAPABILITY [83/106]

#define CAPABILITY   QCDAxion_TemperatureDependence

Make sure LocalHalo model is initialized in DarkSUSY.

Function for retrieving list of final states for cascade decays.

Fraction of the relic density constituted by the DM candidate under investigation.

Contributions of different annihilation channels to the relic density.

Definition at line 353 of file DarkBit_rollcall.hpp.

◆ CAPABILITY [84/106]

#define CAPABILITY   QCDAxion_AxionPhotonConstant

Make sure LocalHalo model is initialized in DarkSUSY.

Function for retrieving list of final states for cascade decays.

Fraction of the relic density constituted by the DM candidate under investigation.

Contributions of different annihilation channels to the relic density.

Definition at line 353 of file DarkBit_rollcall.hpp.

◆ CAPABILITY [85/106]

#define CAPABILITY   ALPS1_signal_vac

Make sure LocalHalo model is initialized in DarkSUSY.

Function for retrieving list of final states for cascade decays.

Fraction of the relic density constituted by the DM candidate under investigation.

Contributions of different annihilation channels to the relic density.

Definition at line 353 of file DarkBit_rollcall.hpp.

◆ CAPABILITY [86/106]

#define CAPABILITY   ALPS1_signal_gas

Make sure LocalHalo model is initialized in DarkSUSY.

Function for retrieving list of final states for cascade decays.

Fraction of the relic density constituted by the DM candidate under investigation.

Contributions of different annihilation channels to the relic density.

Definition at line 353 of file DarkBit_rollcall.hpp.

◆ CAPABILITY [87/106]

#define CAPABILITY   lnL_ALPS1

Make sure LocalHalo model is initialized in DarkSUSY.

Function for retrieving list of final states for cascade decays.

Fraction of the relic density constituted by the DM candidate under investigation.

Contributions of different annihilation channels to the relic density.

Definition at line 353 of file DarkBit_rollcall.hpp.

◆ CAPABILITY [88/106]

#define CAPABILITY   CAST2007_signal_vac

Make sure LocalHalo model is initialized in DarkSUSY.

Function for retrieving list of final states for cascade decays.

Fraction of the relic density constituted by the DM candidate under investigation.

Contributions of different annihilation channels to the relic density.

Definition at line 353 of file DarkBit_rollcall.hpp.

◆ CAPABILITY [89/106]

#define CAPABILITY   CAST2017_signal_vac

Make sure LocalHalo model is initialized in DarkSUSY.

Function for retrieving list of final states for cascade decays.

Fraction of the relic density constituted by the DM candidate under investigation.

Contributions of different annihilation channels to the relic density.

Definition at line 353 of file DarkBit_rollcall.hpp.

◆ CAPABILITY [90/106]

#define CAPABILITY   lnL_CAST2007

Make sure LocalHalo model is initialized in DarkSUSY.

Function for retrieving list of final states for cascade decays.

Fraction of the relic density constituted by the DM candidate under investigation.

Contributions of different annihilation channels to the relic density.

Definition at line 353 of file DarkBit_rollcall.hpp.

◆ CAPABILITY [91/106]

#define CAPABILITY   lnL_CAST2017

Make sure LocalHalo model is initialized in DarkSUSY.

Function for retrieving list of final states for cascade decays.

Fraction of the relic density constituted by the DM candidate under investigation.

Contributions of different annihilation channels to the relic density.

Definition at line 353 of file DarkBit_rollcall.hpp.

◆ CAPABILITY [92/106]

#define CAPABILITY   Haloscope_signal

Make sure LocalHalo model is initialized in DarkSUSY.

Function for retrieving list of final states for cascade decays.

Fraction of the relic density constituted by the DM candidate under investigation.

Contributions of different annihilation channels to the relic density.

Definition at line 353 of file DarkBit_rollcall.hpp.

◆ CAPABILITY [93/106]

#define CAPABILITY   lnL_Haloscope_ADMX1

Make sure LocalHalo model is initialized in DarkSUSY.

Function for retrieving list of final states for cascade decays.

Fraction of the relic density constituted by the DM candidate under investigation.

Contributions of different annihilation channels to the relic density.

Definition at line 353 of file DarkBit_rollcall.hpp.

◆ CAPABILITY [94/106]

#define CAPABILITY   lnL_Haloscope_ADMX2

Make sure LocalHalo model is initialized in DarkSUSY.

Function for retrieving list of final states for cascade decays.

Fraction of the relic density constituted by the DM candidate under investigation.

Contributions of different annihilation channels to the relic density.

Definition at line 353 of file DarkBit_rollcall.hpp.

◆ CAPABILITY [95/106]

#define CAPABILITY   lnL_Haloscope_RBF

Make sure LocalHalo model is initialized in DarkSUSY.

Function for retrieving list of final states for cascade decays.

Fraction of the relic density constituted by the DM candidate under investigation.

Contributions of different annihilation channels to the relic density.

Definition at line 353 of file DarkBit_rollcall.hpp.

◆ CAPABILITY [96/106]

#define CAPABILITY   lnL_Haloscope_UF

Make sure LocalHalo model is initialized in DarkSUSY.

Function for retrieving list of final states for cascade decays.

Fraction of the relic density constituted by the DM candidate under investigation.

Contributions of different annihilation channels to the relic density.

Definition at line 353 of file DarkBit_rollcall.hpp.

◆ CAPABILITY [97/106]

#define CAPABILITY   RParameter

Make sure LocalHalo model is initialized in DarkSUSY.

Function for retrieving list of final states for cascade decays.

Fraction of the relic density constituted by the DM candidate under investigation.

Contributions of different annihilation channels to the relic density.

Definition at line 353 of file DarkBit_rollcall.hpp.

◆ CAPABILITY [98/106]

#define CAPABILITY   lnL_RParameter

Make sure LocalHalo model is initialized in DarkSUSY.

Function for retrieving list of final states for cascade decays.

Fraction of the relic density constituted by the DM candidate under investigation.

Contributions of different annihilation channels to the relic density.

Definition at line 353 of file DarkBit_rollcall.hpp.

◆ CAPABILITY [99/106]

#define CAPABILITY   lnL_WDVar_G117B15A

Make sure LocalHalo model is initialized in DarkSUSY.

Function for retrieving list of final states for cascade decays.

Fraction of the relic density constituted by the DM candidate under investigation.

Contributions of different annihilation channels to the relic density.

Definition at line 353 of file DarkBit_rollcall.hpp.

◆ CAPABILITY [100/106]

#define CAPABILITY   lnL_WDVar_R548

Make sure LocalHalo model is initialized in DarkSUSY.

Function for retrieving list of final states for cascade decays.

Fraction of the relic density constituted by the DM candidate under investigation.

Contributions of different annihilation channels to the relic density.

Definition at line 353 of file DarkBit_rollcall.hpp.

◆ CAPABILITY [101/106]

#define CAPABILITY   lnL_WDVar_PG1351489

Make sure LocalHalo model is initialized in DarkSUSY.

Function for retrieving list of final states for cascade decays.

Fraction of the relic density constituted by the DM candidate under investigation.

Contributions of different annihilation channels to the relic density.

Definition at line 353 of file DarkBit_rollcall.hpp.

◆ CAPABILITY [102/106]

#define CAPABILITY   lnL_WDVar_L192

Make sure LocalHalo model is initialized in DarkSUSY.

Function for retrieving list of final states for cascade decays.

Fraction of the relic density constituted by the DM candidate under investigation.

Contributions of different annihilation channels to the relic density.

Definition at line 353 of file DarkBit_rollcall.hpp.

◆ CAPABILITY [103/106]

#define CAPABILITY   lnL_SN1987A

Make sure LocalHalo model is initialized in DarkSUSY.

Function for retrieving list of final states for cascade decays.

Fraction of the relic density constituted by the DM candidate under investigation.

Contributions of different annihilation channels to the relic density.

Definition at line 353 of file DarkBit_rollcall.hpp.

◆ CAPABILITY [104/106]

#define CAPABILITY   PhotonFluence_SN1987A_Conversion

Make sure LocalHalo model is initialized in DarkSUSY.

Function for retrieving list of final states for cascade decays.

Fraction of the relic density constituted by the DM candidate under investigation.

Contributions of different annihilation channels to the relic density.

Definition at line 353 of file DarkBit_rollcall.hpp.

◆ CAPABILITY [105/106]

#define CAPABILITY   lnL_HESS_GCMF

Make sure LocalHalo model is initialized in DarkSUSY.

Function for retrieving list of final states for cascade decays.

Fraction of the relic density constituted by the DM candidate under investigation.

Contributions of different annihilation channels to the relic density.

Definition at line 353 of file DarkBit_rollcall.hpp.

◆ CAPABILITY [106/106]

#define CAPABILITY   AxionOscillationTemperature

Make sure LocalHalo model is initialized in DarkSUSY.

Function for retrieving list of final states for cascade decays.

Fraction of the relic density constituted by the DM candidate under investigation.

Contributions of different annihilation channels to the relic density.

Definition at line 353 of file DarkBit_rollcall.hpp.

◆ DD_DECLARE_BIN_FUNCTION

#define DD_DECLARE_BIN_FUNCTION (   EXPERIMENT,
  TYPE,
  NAME 
)
Value:
LONG_START_CAPABILITY(MODULE, CAT_3(EXPERIMENT,_,NAME)) \
LONG_DECLARE_FUNCTION(MODULE, CAT_3(EXPERIMENT,_,NAME), \
CAT_3(EXPERIMENT,_Get,NAME), std::vector<double>, 0) \
LONG_DEPENDENCY(MODULE, CAT_3(EXPERIMENT,_Get,NAME), \
CAT(EXPERIMENT,_Calculate), bool) \
LONG_BACKEND_REQ(MODULE, CAT_3(EXPERIMENT,_,NAME), \
CAT_3(EXPERIMENT,_Get,NAME), DD_Experiment, (needs_DDCalc), int, (const str&)) \
LONG_BACKEND_REQ(MODULE, CAT_3(EXPERIMENT,_,NAME), \
CAT_3(EXPERIMENT,_Get,NAME), DD_Bins, (needs_DDCalc), int, (const int&)) \
LONG_BACKEND_REQ(MODULE, CAT_3(EXPERIMENT,_,NAME), \
CAT_3(EXPERIMENT,_Get,NAME), CAT(DD_,NAME), (needs_DDCalc), TYPE, (const int&, \
const int&))
#define CAT_3(X, Y, Z)
Definition: cats.hpp:25
#define MODULE
#define LONG_START_CAPABILITY(MODULE, CAPABILITY)
Long (all argument) version of START_CAPABILITY.
std::string str
Shorthand for a standard string.
Definition: Analysis.hpp:35
#define CAT(X, Y)
Concatenate macro arguments for 2-7 arguments.
Definition: cats.hpp:22

◆ DD_DECLARE_EXPERIMENT

#define DD_DECLARE_EXPERIMENT (   EXPERIMENT)
Value:
LONG_START_CAPABILITY(MODULE, CAT(EXPERIMENT,_Calculate)) \
LONG_DECLARE_FUNCTION(MODULE, CAT(EXPERIMENT,_Calculate), \
CAT(EXPERIMENT,_Calc), bool, 0) \
LONG_BACKEND_REQ(MODULE, CAT(EXPERIMENT,_Calculate), \
CAT(EXPERIMENT,_Calc), DD_Experiment, (needs_DDCalc), int, (const str&)) \
LONG_BACKEND_REQ(MODULE, CAT(EXPERIMENT,_Calculate), \
CAT(EXPERIMENT,_Calc), DD_CalcRates, (needs_DDCalc), void, (const int&)) \
DD_DECLARE_RESULT_FUNCTION(EXPERIMENT,int,Events) \
DD_DECLARE_RESULT_FUNCTION(EXPERIMENT,double,Background) \
DD_DECLARE_RESULT_FUNCTION(EXPERIMENT,double,Signal) \
DD_DECLARE_RESULT_FUNCTION(EXPERIMENT,double,SignalSI) \
DD_DECLARE_RESULT_FUNCTION(EXPERIMENT,double,SignalSD) \
DD_DECLARE_RESULT_FUNCTION(EXPERIMENT,int,Bins) \
DD_DECLARE_RESULT_FUNCTION(EXPERIMENT,double,LogLikelihood) \
DD_DECLARE_BIN_FUNCTION(EXPERIMENT,int,BinEvents) \
DD_DECLARE_BIN_FUNCTION(EXPERIMENT,double,BinBackground) \
DD_DECLARE_BIN_FUNCTION(EXPERIMENT,double,BinSignal) \
#define MODULE
#define LONG_START_CAPABILITY(MODULE, CAPABILITY)
Long (all argument) version of START_CAPABILITY.
std::string str
Shorthand for a standard string.
Definition: Analysis.hpp:35
#define CAT(X, Y)
Concatenate macro arguments for 2-7 arguments.
Definition: cats.hpp:22

◆ DD_DECLARE_RESULT_FUNCTION

#define DD_DECLARE_RESULT_FUNCTION (   EXPERIMENT,
  TYPE,
  NAME 
)
Value:
LONG_START_CAPABILITY(MODULE, CAT_3(EXPERIMENT,_,NAME)) \
LONG_DECLARE_FUNCTION(MODULE, CAT_3(EXPERIMENT,_,NAME), \
CAT_3(EXPERIMENT,_Get,NAME), TYPE, 0) \
LONG_DEPENDENCY(MODULE, CAT_3(EXPERIMENT,_Get,NAME), \
CAT(EXPERIMENT,_Calculate), bool) \
LONG_BACKEND_REQ(MODULE, CAT_3(EXPERIMENT,_,NAME), \
CAT_3(EXPERIMENT,_Get,NAME), DD_Experiment, (needs_DDCalc), int, (const str&)) \
LONG_BACKEND_REQ(MODULE, CAT_3(EXPERIMENT,_,NAME), \
CAT_3(EXPERIMENT,_Get,NAME), CAT(DD_,NAME), (needs_DDCalc), TYPE, (const int&))
#define CAT_3(X, Y, Z)
Definition: cats.hpp:25
#define MODULE
#define LONG_START_CAPABILITY(MODULE, CAPABILITY)
Long (all argument) version of START_CAPABILITY.
std::string str
Shorthand for a standard string.
Definition: Analysis.hpp:35
#define CAT(X, Y)
Concatenate macro arguments for 2-7 arguments.
Definition: cats.hpp:22

◆ FUNCTION [1/141]

#define FUNCTION   DarkSUSY5_PointInit_LocalHalo_func

General Boltzmann solver from DarkSUSY, using arbitrary Weff.

Routine for computing axion energy density today from vacuum misalignment, assuming no axion decays.

Definition at line 355 of file DarkBit_rollcall.hpp.

◆ FUNCTION [2/141]

#define FUNCTION   DarkSUSY_PointInit_LocalHalo_func

General Boltzmann solver from DarkSUSY, using arbitrary Weff.

Routine for computing axion energy density today from vacuum misalignment, assuming no axion decays.

Definition at line 355 of file DarkBit_rollcall.hpp.

◆ FUNCTION [3/141]

#define FUNCTION   RD_spectrum_MSSM

General Boltzmann solver from DarkSUSY, using arbitrary Weff.

Routine for computing axion energy density today from vacuum misalignment, assuming no axion decays.

Definition at line 355 of file DarkBit_rollcall.hpp.

◆ FUNCTION [4/141]

#define FUNCTION   RD_spectrum_SUSY_DS5

General Boltzmann solver from DarkSUSY, using arbitrary Weff.

Routine for computing axion energy density today from vacuum misalignment, assuming no axion decays.

Definition at line 355 of file DarkBit_rollcall.hpp.

◆ FUNCTION [5/141]

#define FUNCTION   RD_spectrum_from_ProcessCatalog

General Boltzmann solver from DarkSUSY, using arbitrary Weff.

Routine for computing axion energy density today from vacuum misalignment, assuming no axion decays.

Definition at line 355 of file DarkBit_rollcall.hpp.

◆ FUNCTION [6/141]

#define FUNCTION   RD_spectrum_ordered_func

General Boltzmann solver from DarkSUSY, using arbitrary Weff.

Routine for computing axion energy density today from vacuum misalignment, assuming no axion decays.

Definition at line 355 of file DarkBit_rollcall.hpp.

◆ FUNCTION [7/141]

#define FUNCTION   RD_annrate_DS5prep_func

General Boltzmann solver from DarkSUSY, using arbitrary Weff.

Routine for computing axion energy density today from vacuum misalignment, assuming no axion decays.

Definition at line 355 of file DarkBit_rollcall.hpp.

◆ FUNCTION [8/141]

#define FUNCTION   RD_annrate_DSprep_MSSM_func

General Boltzmann solver from DarkSUSY, using arbitrary Weff.

Routine for computing axion energy density today from vacuum misalignment, assuming no axion decays.

Definition at line 355 of file DarkBit_rollcall.hpp.

◆ FUNCTION [9/141]

#define FUNCTION   RD_eff_annrate_DS5_MSSM

General Boltzmann solver from DarkSUSY, using arbitrary Weff.

Routine for computing axion energy density today from vacuum misalignment, assuming no axion decays.

Definition at line 355 of file DarkBit_rollcall.hpp.

◆ FUNCTION [10/141]

#define FUNCTION   RD_eff_annrate_DS_MSSM

General Boltzmann solver from DarkSUSY, using arbitrary Weff.

Routine for computing axion energy density today from vacuum misalignment, assuming no axion decays.

Definition at line 355 of file DarkBit_rollcall.hpp.

◆ FUNCTION [11/141]

#define FUNCTION   RD_eff_annrate_from_ProcessCatalog

General Boltzmann solver from DarkSUSY, using arbitrary Weff.

Routine for computing axion energy density today from vacuum misalignment, assuming no axion decays.

Definition at line 355 of file DarkBit_rollcall.hpp.

◆ FUNCTION [12/141]

#define FUNCTION   RD_oh2_DS_general

General Boltzmann solver from DarkSUSY, using arbitrary Weff.

Routine for computing axion energy density today from vacuum misalignment, assuming no axion decays.

Definition at line 355 of file DarkBit_rollcall.hpp.

◆ FUNCTION [13/141]

#define FUNCTION   RD_oh2_DS5_general

General Boltzmann solver from DarkSUSY, using arbitrary Weff.

Routine for computing axion energy density today from vacuum misalignment, assuming no axion decays.

Definition at line 355 of file DarkBit_rollcall.hpp.

◆ FUNCTION [14/141]

#define FUNCTION   RD_oh2_DarkSUSY_DS5

General Boltzmann solver from DarkSUSY, using arbitrary Weff.

Routine for computing axion energy density today from vacuum misalignment, assuming no axion decays.

Definition at line 355 of file DarkBit_rollcall.hpp.

◆ FUNCTION [15/141]

#define FUNCTION   RD_oh2_MicrOmegas

General Boltzmann solver from DarkSUSY, using arbitrary Weff.

Routine for computing axion energy density today from vacuum misalignment, assuming no axion decays.

Definition at line 355 of file DarkBit_rollcall.hpp.

◆ FUNCTION [16/141]

#define FUNCTION   RD_oh2_Axions

General Boltzmann solver from DarkSUSY, using arbitrary Weff.

Routine for computing axion energy density today from vacuum misalignment, assuming no axion decays.

Definition at line 355 of file DarkBit_rollcall.hpp.

◆ FUNCTION [17/141]

#define FUNCTION   RD_oh2_Xf_MicrOmegas

General Boltzmann solver from DarkSUSY, using arbitrary Weff.

Routine for computing axion energy density today from vacuum misalignment, assuming no axion decays.

Definition at line 355 of file DarkBit_rollcall.hpp.

◆ FUNCTION [18/141]

#define FUNCTION   Xf_MicrOmegas

General Boltzmann solver from DarkSUSY, using arbitrary Weff.

Routine for computing axion energy density today from vacuum misalignment, assuming no axion decays.

Definition at line 355 of file DarkBit_rollcall.hpp.

◆ FUNCTION [19/141]

#define FUNCTION   print_channel_contributions_MicrOmegas

General Boltzmann solver from DarkSUSY, using arbitrary Weff.

Routine for computing axion energy density today from vacuum misalignment, assuming no axion decays.

Definition at line 355 of file DarkBit_rollcall.hpp.

◆ FUNCTION [20/141]

#define FUNCTION   get_semi_ann_MicrOmegas

General Boltzmann solver from DarkSUSY, using arbitrary Weff.

Routine for computing axion energy density today from vacuum misalignment, assuming no axion decays.

Definition at line 355 of file DarkBit_rollcall.hpp.

◆ FUNCTION [21/141]

#define FUNCTION   RD_fraction_one

General Boltzmann solver from DarkSUSY, using arbitrary Weff.

Routine for computing axion energy density today from vacuum misalignment, assuming no axion decays.

Definition at line 355 of file DarkBit_rollcall.hpp.

◆ FUNCTION [22/141]

#define FUNCTION   RD_fraction_leq_one

General Boltzmann solver from DarkSUSY, using arbitrary Weff.

Routine for computing axion energy density today from vacuum misalignment, assuming no axion decays.

Definition at line 355 of file DarkBit_rollcall.hpp.

◆ FUNCTION [23/141]

#define FUNCTION   RD_fraction_rescaled

General Boltzmann solver from DarkSUSY, using arbitrary Weff.

Routine for computing axion energy density today from vacuum misalignment, assuming no axion decays.

Definition at line 355 of file DarkBit_rollcall.hpp.

◆ FUNCTION [24/141]

#define FUNCTION   cascadeMC_FinalStates

General Boltzmann solver from DarkSUSY, using arbitrary Weff.

Routine for computing axion energy density today from vacuum misalignment, assuming no axion decays.

Definition at line 355 of file DarkBit_rollcall.hpp.

◆ FUNCTION [25/141]

#define FUNCTION   cascadeMC_DecayTable

General Boltzmann solver from DarkSUSY, using arbitrary Weff.

Routine for computing axion energy density today from vacuum misalignment, assuming no axion decays.

Definition at line 355 of file DarkBit_rollcall.hpp.

◆ FUNCTION [26/141]

#define FUNCTION   cascadeMC_LoopManager

General Boltzmann solver from DarkSUSY, using arbitrary Weff.

Routine for computing axion energy density today from vacuum misalignment, assuming no axion decays.

Definition at line 355 of file DarkBit_rollcall.hpp.

◆ FUNCTION [27/141]

#define FUNCTION   cascadeMC_InitialState

General Boltzmann solver from DarkSUSY, using arbitrary Weff.

Routine for computing axion energy density today from vacuum misalignment, assuming no axion decays.

Definition at line 355 of file DarkBit_rollcall.hpp.

◆ FUNCTION [28/141]

#define FUNCTION   cascadeMC_EventCount

General Boltzmann solver from DarkSUSY, using arbitrary Weff.

Routine for computing axion energy density today from vacuum misalignment, assuming no axion decays.

Definition at line 355 of file DarkBit_rollcall.hpp.

◆ FUNCTION [29/141]

#define FUNCTION   cascadeMC_GenerateChain

General Boltzmann solver from DarkSUSY, using arbitrary Weff.

Routine for computing axion energy density today from vacuum misalignment, assuming no axion decays.

Definition at line 355 of file DarkBit_rollcall.hpp.

◆ FUNCTION [30/141]

#define FUNCTION   cascadeMC_Histograms

General Boltzmann solver from DarkSUSY, using arbitrary Weff.

Routine for computing axion energy density today from vacuum misalignment, assuming no axion decays.

Definition at line 355 of file DarkBit_rollcall.hpp.

◆ FUNCTION [31/141]

#define FUNCTION   cascadeMC_gammaSpectra

General Boltzmann solver from DarkSUSY, using arbitrary Weff.

Routine for computing axion energy density today from vacuum misalignment, assuming no axion decays.

Definition at line 355 of file DarkBit_rollcall.hpp.

◆ FUNCTION [32/141]

#define FUNCTION   GA_missingFinalStates

General Boltzmann solver from DarkSUSY, using arbitrary Weff.

Routine for computing axion energy density today from vacuum misalignment, assuming no axion decays.

Definition at line 355 of file DarkBit_rollcall.hpp.

◆ FUNCTION [33/141]

#define FUNCTION   GA_AnnYield_General

General Boltzmann solver from DarkSUSY, using arbitrary Weff.

Routine for computing axion energy density today from vacuum misalignment, assuming no axion decays.

Definition at line 355 of file DarkBit_rollcall.hpp.

◆ FUNCTION [34/141]

#define FUNCTION   TH_ProcessCatalog_DS5_MSSM

General Boltzmann solver from DarkSUSY, using arbitrary Weff.

Routine for computing axion energy density today from vacuum misalignment, assuming no axion decays.

Definition at line 355 of file DarkBit_rollcall.hpp.

◆ FUNCTION [35/141]

#define FUNCTION   TH_ProcessCatalog_DS_MSSM

General Boltzmann solver from DarkSUSY, using arbitrary Weff.

Routine for computing axion energy density today from vacuum misalignment, assuming no axion decays.

Definition at line 355 of file DarkBit_rollcall.hpp.

◆ FUNCTION [36/141]

#define FUNCTION   TH_ProcessCatalog_ScalarSingletDM_Z2

General Boltzmann solver from DarkSUSY, using arbitrary Weff.

Routine for computing axion energy density today from vacuum misalignment, assuming no axion decays.

Definition at line 355 of file DarkBit_rollcall.hpp.

◆ FUNCTION [37/141]

#define FUNCTION   TH_ProcessCatalog_ScalarSingletDM_Z3

General Boltzmann solver from DarkSUSY, using arbitrary Weff.

Routine for computing axion energy density today from vacuum misalignment, assuming no axion decays.

Definition at line 355 of file DarkBit_rollcall.hpp.

◆ FUNCTION [38/141]

#define FUNCTION   TH_ProcessCatalog_VectorSingletDM_Z2

General Boltzmann solver from DarkSUSY, using arbitrary Weff.

Routine for computing axion energy density today from vacuum misalignment, assuming no axion decays.

Definition at line 355 of file DarkBit_rollcall.hpp.

◆ FUNCTION [39/141]

#define FUNCTION   TH_ProcessCatalog_MajoranaSingletDM_Z2

General Boltzmann solver from DarkSUSY, using arbitrary Weff.

Routine for computing axion energy density today from vacuum misalignment, assuming no axion decays.

Definition at line 355 of file DarkBit_rollcall.hpp.

◆ FUNCTION [40/141]

#define FUNCTION   TH_ProcessCatalog_DiracSingletDM_Z2

General Boltzmann solver from DarkSUSY, using arbitrary Weff.

Routine for computing axion energy density today from vacuum misalignment, assuming no axion decays.

Definition at line 355 of file DarkBit_rollcall.hpp.

◆ FUNCTION [41/141]

#define FUNCTION   set_gamLike_GC_halo

General Boltzmann solver from DarkSUSY, using arbitrary Weff.

Routine for computing axion energy density today from vacuum misalignment, assuming no axion decays.

Definition at line 355 of file DarkBit_rollcall.hpp.

◆ FUNCTION [42/141]

#define FUNCTION   lnL_FermiLATdwarfs_gamLike

General Boltzmann solver from DarkSUSY, using arbitrary Weff.

Routine for computing axion energy density today from vacuum misalignment, assuming no axion decays.

Definition at line 355 of file DarkBit_rollcall.hpp.

◆ FUNCTION [43/141]

#define FUNCTION   lnL_FermiGC_gamLike

General Boltzmann solver from DarkSUSY, using arbitrary Weff.

Routine for computing axion energy density today from vacuum misalignment, assuming no axion decays.

Definition at line 355 of file DarkBit_rollcall.hpp.

◆ FUNCTION [44/141]

#define FUNCTION   lnL_CTAGC_gamLike

General Boltzmann solver from DarkSUSY, using arbitrary Weff.

Routine for computing axion energy density today from vacuum misalignment, assuming no axion decays.

Definition at line 355 of file DarkBit_rollcall.hpp.

◆ FUNCTION [45/141]

#define FUNCTION   lnL_HESSGC_gamLike

General Boltzmann solver from DarkSUSY, using arbitrary Weff.

Routine for computing axion energy density today from vacuum misalignment, assuming no axion decays.

Definition at line 355 of file DarkBit_rollcall.hpp.

◆ FUNCTION [46/141]

#define FUNCTION   dump_GammaSpectrum

General Boltzmann solver from DarkSUSY, using arbitrary Weff.

Routine for computing axion energy density today from vacuum misalignment, assuming no axion decays.

Definition at line 355 of file DarkBit_rollcall.hpp.

◆ FUNCTION [47/141]

#define FUNCTION   lnL_oh2_Simple

General Boltzmann solver from DarkSUSY, using arbitrary Weff.

Routine for computing axion energy density today from vacuum misalignment, assuming no axion decays.

Definition at line 355 of file DarkBit_rollcall.hpp.

◆ FUNCTION [48/141]

#define FUNCTION   lnL_oh2_upperlimit

General Boltzmann solver from DarkSUSY, using arbitrary Weff.

Routine for computing axion energy density today from vacuum misalignment, assuming no axion decays.

Definition at line 355 of file DarkBit_rollcall.hpp.

◆ FUNCTION [49/141]

#define FUNCTION   lnL_rho0_lognormal

General Boltzmann solver from DarkSUSY, using arbitrary Weff.

Routine for computing axion energy density today from vacuum misalignment, assuming no axion decays.

Definition at line 355 of file DarkBit_rollcall.hpp.

◆ FUNCTION [50/141]

#define FUNCTION   lnL_vrot_gaussian

General Boltzmann solver from DarkSUSY, using arbitrary Weff.

Routine for computing axion energy density today from vacuum misalignment, assuming no axion decays.

Definition at line 355 of file DarkBit_rollcall.hpp.

◆ FUNCTION [51/141]

#define FUNCTION   lnL_v0_gaussian

General Boltzmann solver from DarkSUSY, using arbitrary Weff.

Routine for computing axion energy density today from vacuum misalignment, assuming no axion decays.

Definition at line 355 of file DarkBit_rollcall.hpp.

◆ FUNCTION [52/141]

#define FUNCTION   lnL_vesc_gaussian

General Boltzmann solver from DarkSUSY, using arbitrary Weff.

Routine for computing axion energy density today from vacuum misalignment, assuming no axion decays.

Definition at line 355 of file DarkBit_rollcall.hpp.

◆ FUNCTION [53/141]

#define FUNCTION   sigmav_late_universe

General Boltzmann solver from DarkSUSY, using arbitrary Weff.

Routine for computing axion energy density today from vacuum misalignment, assuming no axion decays.

Definition at line 355 of file DarkBit_rollcall.hpp.

◆ FUNCTION [54/141]

#define FUNCTION   sigmav_late_universe_MicrOmegas

General Boltzmann solver from DarkSUSY, using arbitrary Weff.

Routine for computing axion energy density today from vacuum misalignment, assuming no axion decays.

Definition at line 355 of file DarkBit_rollcall.hpp.

◆ FUNCTION [55/141]

#define FUNCTION   DD_couplings_DarkSUSY_DS5

General Boltzmann solver from DarkSUSY, using arbitrary Weff.

Routine for computing axion energy density today from vacuum misalignment, assuming no axion decays.

Definition at line 355 of file DarkBit_rollcall.hpp.

◆ FUNCTION [56/141]

#define FUNCTION   DD_couplings_DarkSUSY_MSSM

General Boltzmann solver from DarkSUSY, using arbitrary Weff.

Routine for computing axion energy density today from vacuum misalignment, assuming no axion decays.

Definition at line 355 of file DarkBit_rollcall.hpp.

◆ FUNCTION [57/141]

#define FUNCTION   DD_couplings_MicrOmegas

General Boltzmann solver from DarkSUSY, using arbitrary Weff.

Routine for computing axion energy density today from vacuum misalignment, assuming no axion decays.

Definition at line 355 of file DarkBit_rollcall.hpp.

◆ FUNCTION [58/141]

#define FUNCTION   DD_couplings_ScalarSingletDM_Z2

General Boltzmann solver from DarkSUSY, using arbitrary Weff.

Routine for computing axion energy density today from vacuum misalignment, assuming no axion decays.

Definition at line 355 of file DarkBit_rollcall.hpp.

◆ FUNCTION [59/141]

#define FUNCTION   DD_couplings_ScalarSingletDM_Z3

General Boltzmann solver from DarkSUSY, using arbitrary Weff.

Routine for computing axion energy density today from vacuum misalignment, assuming no axion decays.

Definition at line 355 of file DarkBit_rollcall.hpp.

◆ FUNCTION [60/141]

#define FUNCTION   DD_couplings_VectorSingletDM_Z2

General Boltzmann solver from DarkSUSY, using arbitrary Weff.

Routine for computing axion energy density today from vacuum misalignment, assuming no axion decays.

Definition at line 355 of file DarkBit_rollcall.hpp.

◆ FUNCTION [61/141]

#define FUNCTION   DD_couplings_MajoranaSingletDM_Z2

General Boltzmann solver from DarkSUSY, using arbitrary Weff.

Routine for computing axion energy density today from vacuum misalignment, assuming no axion decays.

Definition at line 355 of file DarkBit_rollcall.hpp.

◆ FUNCTION [62/141]

#define FUNCTION   DD_couplings_DiracSingletDM_Z2

General Boltzmann solver from DarkSUSY, using arbitrary Weff.

Routine for computing axion energy density today from vacuum misalignment, assuming no axion decays.

Definition at line 355 of file DarkBit_rollcall.hpp.

◆ FUNCTION [63/141]

#define FUNCTION   sigma_SI_vnqn

General Boltzmann solver from DarkSUSY, using arbitrary Weff.

Routine for computing axion energy density today from vacuum misalignment, assuming no axion decays.

Definition at line 355 of file DarkBit_rollcall.hpp.

◆ FUNCTION [64/141]

#define FUNCTION   sigma_SD_vnqn

General Boltzmann solver from DarkSUSY, using arbitrary Weff.

Routine for computing axion energy density today from vacuum misalignment, assuming no axion decays.

Definition at line 355 of file DarkBit_rollcall.hpp.

◆ FUNCTION [65/141]

#define FUNCTION   lnL_sigmas_sigmal

General Boltzmann solver from DarkSUSY, using arbitrary Weff.

Routine for computing axion energy density today from vacuum misalignment, assuming no axion decays.

Definition at line 355 of file DarkBit_rollcall.hpp.

◆ FUNCTION [66/141]

#define FUNCTION   lnL_deltaq

General Boltzmann solver from DarkSUSY, using arbitrary Weff.

Routine for computing axion energy density today from vacuum misalignment, assuming no axion decays.

Definition at line 355 of file DarkBit_rollcall.hpp.

◆ FUNCTION [67/141]

#define FUNCTION   capture_rate_Sun_const_xsec_DS5

General Boltzmann solver from DarkSUSY, using arbitrary Weff.

Routine for computing axion energy density today from vacuum misalignment, assuming no axion decays.

Definition at line 355 of file DarkBit_rollcall.hpp.

◆ FUNCTION [68/141]

#define FUNCTION   capture_rate_Sun_const_xsec

General Boltzmann solver from DarkSUSY, using arbitrary Weff.

Routine for computing axion energy density today from vacuum misalignment, assuming no axion decays.

Definition at line 355 of file DarkBit_rollcall.hpp.

◆ FUNCTION [69/141]

#define FUNCTION   capture_rate_Sun_const_xsec_capgen

General Boltzmann solver from DarkSUSY, using arbitrary Weff.

Routine for computing axion energy density today from vacuum misalignment, assuming no axion decays.

Definition at line 355 of file DarkBit_rollcall.hpp.

◆ FUNCTION [70/141]

#define FUNCTION   capture_rate_Sun_vnqn

General Boltzmann solver from DarkSUSY, using arbitrary Weff.

Routine for computing axion energy density today from vacuum misalignment, assuming no axion decays.

Definition at line 355 of file DarkBit_rollcall.hpp.

◆ FUNCTION [71/141]

#define FUNCTION   equilibration_time_Sun

General Boltzmann solver from DarkSUSY, using arbitrary Weff.

Routine for computing axion energy density today from vacuum misalignment, assuming no axion decays.

Definition at line 355 of file DarkBit_rollcall.hpp.

◆ FUNCTION [72/141]

#define FUNCTION   annihilation_rate_Sun

General Boltzmann solver from DarkSUSY, using arbitrary Weff.

Routine for computing axion energy density today from vacuum misalignment, assuming no axion decays.

Definition at line 355 of file DarkBit_rollcall.hpp.

◆ FUNCTION [73/141]

#define FUNCTION   nuyield_from_DS

General Boltzmann solver from DarkSUSY, using arbitrary Weff.

Routine for computing axion energy density today from vacuum misalignment, assuming no axion decays.

Definition at line 355 of file DarkBit_rollcall.hpp.

◆ FUNCTION [74/141]

#define FUNCTION   IC22_full

General Boltzmann solver from DarkSUSY, using arbitrary Weff.

Routine for computing axion energy density today from vacuum misalignment, assuming no axion decays.

Definition at line 355 of file DarkBit_rollcall.hpp.

◆ FUNCTION [75/141]

#define FUNCTION   IC22_signal

General Boltzmann solver from DarkSUSY, using arbitrary Weff.

Routine for computing axion energy density today from vacuum misalignment, assuming no axion decays.

Definition at line 355 of file DarkBit_rollcall.hpp.

◆ FUNCTION [76/141]

#define FUNCTION   IC22_bg

General Boltzmann solver from DarkSUSY, using arbitrary Weff.

Routine for computing axion energy density today from vacuum misalignment, assuming no axion decays.

Definition at line 355 of file DarkBit_rollcall.hpp.

◆ FUNCTION [77/141]

#define FUNCTION   IC22_loglike

General Boltzmann solver from DarkSUSY, using arbitrary Weff.

Routine for computing axion energy density today from vacuum misalignment, assuming no axion decays.

Definition at line 355 of file DarkBit_rollcall.hpp.

◆ FUNCTION [78/141]

#define FUNCTION   IC22_bgloglike

General Boltzmann solver from DarkSUSY, using arbitrary Weff.

Routine for computing axion energy density today from vacuum misalignment, assuming no axion decays.

Definition at line 355 of file DarkBit_rollcall.hpp.

◆ FUNCTION [79/141]

#define FUNCTION   IC22_pvalue

General Boltzmann solver from DarkSUSY, using arbitrary Weff.

Routine for computing axion energy density today from vacuum misalignment, assuming no axion decays.

Definition at line 355 of file DarkBit_rollcall.hpp.

◆ FUNCTION [80/141]

#define FUNCTION   IC22_nobs

General Boltzmann solver from DarkSUSY, using arbitrary Weff.

Routine for computing axion energy density today from vacuum misalignment, assuming no axion decays.

Definition at line 355 of file DarkBit_rollcall.hpp.

◆ FUNCTION [81/141]

#define FUNCTION   IC79WH_full

General Boltzmann solver from DarkSUSY, using arbitrary Weff.

Routine for computing axion energy density today from vacuum misalignment, assuming no axion decays.

Definition at line 355 of file DarkBit_rollcall.hpp.

◆ FUNCTION [82/141]

#define FUNCTION   IC79WH_signal

General Boltzmann solver from DarkSUSY, using arbitrary Weff.

Routine for computing axion energy density today from vacuum misalignment, assuming no axion decays.

Definition at line 355 of file DarkBit_rollcall.hpp.

◆ FUNCTION [83/141]

#define FUNCTION   IC79WH_bg

General Boltzmann solver from DarkSUSY, using arbitrary Weff.

Routine for computing axion energy density today from vacuum misalignment, assuming no axion decays.

Definition at line 355 of file DarkBit_rollcall.hpp.

◆ FUNCTION [84/141]

#define FUNCTION   IC79WH_loglike

General Boltzmann solver from DarkSUSY, using arbitrary Weff.

Routine for computing axion energy density today from vacuum misalignment, assuming no axion decays.

Definition at line 355 of file DarkBit_rollcall.hpp.

◆ FUNCTION [85/141]

#define FUNCTION   IC79WH_bgloglike

General Boltzmann solver from DarkSUSY, using arbitrary Weff.

Routine for computing axion energy density today from vacuum misalignment, assuming no axion decays.

Definition at line 355 of file DarkBit_rollcall.hpp.

◆ FUNCTION [86/141]

#define FUNCTION   IC79WH_pvalue

General Boltzmann solver from DarkSUSY, using arbitrary Weff.

Routine for computing axion energy density today from vacuum misalignment, assuming no axion decays.

Definition at line 355 of file DarkBit_rollcall.hpp.

◆ FUNCTION [87/141]

#define FUNCTION   IC79WH_nobs

General Boltzmann solver from DarkSUSY, using arbitrary Weff.

Routine for computing axion energy density today from vacuum misalignment, assuming no axion decays.

Definition at line 355 of file DarkBit_rollcall.hpp.

◆ FUNCTION [88/141]

#define FUNCTION   IC79WL_full

General Boltzmann solver from DarkSUSY, using arbitrary Weff.

Routine for computing axion energy density today from vacuum misalignment, assuming no axion decays.

Definition at line 355 of file DarkBit_rollcall.hpp.

◆ FUNCTION [89/141]

#define FUNCTION   IC79WL_signal

General Boltzmann solver from DarkSUSY, using arbitrary Weff.

Routine for computing axion energy density today from vacuum misalignment, assuming no axion decays.

Definition at line 355 of file DarkBit_rollcall.hpp.

◆ FUNCTION [90/141]

#define FUNCTION   IC79WL_bg

General Boltzmann solver from DarkSUSY, using arbitrary Weff.

Routine for computing axion energy density today from vacuum misalignment, assuming no axion decays.

Definition at line 355 of file DarkBit_rollcall.hpp.

◆ FUNCTION [91/141]

#define FUNCTION   IC79WL_loglike

General Boltzmann solver from DarkSUSY, using arbitrary Weff.

Routine for computing axion energy density today from vacuum misalignment, assuming no axion decays.

Definition at line 355 of file DarkBit_rollcall.hpp.

◆ FUNCTION [92/141]

#define FUNCTION   IC79WL_bgloglike

General Boltzmann solver from DarkSUSY, using arbitrary Weff.

Routine for computing axion energy density today from vacuum misalignment, assuming no axion decays.

Definition at line 355 of file DarkBit_rollcall.hpp.

◆ FUNCTION [93/141]

#define FUNCTION   IC79WL_pvalue

General Boltzmann solver from DarkSUSY, using arbitrary Weff.

Routine for computing axion energy density today from vacuum misalignment, assuming no axion decays.

Definition at line 355 of file DarkBit_rollcall.hpp.

◆ FUNCTION [94/141]

#define FUNCTION   IC79WL_nobs

General Boltzmann solver from DarkSUSY, using arbitrary Weff.

Routine for computing axion energy density today from vacuum misalignment, assuming no axion decays.

Definition at line 355 of file DarkBit_rollcall.hpp.

◆ FUNCTION [95/141]

#define FUNCTION   IC79SL_full

General Boltzmann solver from DarkSUSY, using arbitrary Weff.

Routine for computing axion energy density today from vacuum misalignment, assuming no axion decays.

Definition at line 355 of file DarkBit_rollcall.hpp.

◆ FUNCTION [96/141]

#define FUNCTION   IC79SL_signal

General Boltzmann solver from DarkSUSY, using arbitrary Weff.

Routine for computing axion energy density today from vacuum misalignment, assuming no axion decays.

Definition at line 355 of file DarkBit_rollcall.hpp.

◆ FUNCTION [97/141]

#define FUNCTION   IC79SL_bg

General Boltzmann solver from DarkSUSY, using arbitrary Weff.

Routine for computing axion energy density today from vacuum misalignment, assuming no axion decays.

Definition at line 355 of file DarkBit_rollcall.hpp.

◆ FUNCTION [98/141]

#define FUNCTION   IC79SL_loglike

General Boltzmann solver from DarkSUSY, using arbitrary Weff.

Routine for computing axion energy density today from vacuum misalignment, assuming no axion decays.

Definition at line 355 of file DarkBit_rollcall.hpp.

◆ FUNCTION [99/141]

#define FUNCTION   IC79SL_bgloglike

General Boltzmann solver from DarkSUSY, using arbitrary Weff.

Routine for computing axion energy density today from vacuum misalignment, assuming no axion decays.

Definition at line 355 of file DarkBit_rollcall.hpp.

◆ FUNCTION [100/141]

#define FUNCTION   IC79SL_pvalue

General Boltzmann solver from DarkSUSY, using arbitrary Weff.

Routine for computing axion energy density today from vacuum misalignment, assuming no axion decays.

Definition at line 355 of file DarkBit_rollcall.hpp.

◆ FUNCTION [101/141]

#define FUNCTION   IC79SL_nobs

General Boltzmann solver from DarkSUSY, using arbitrary Weff.

Routine for computing axion energy density today from vacuum misalignment, assuming no axion decays.

Definition at line 355 of file DarkBit_rollcall.hpp.

◆ FUNCTION [102/141]

#define FUNCTION   IC79_loglike

General Boltzmann solver from DarkSUSY, using arbitrary Weff.

Routine for computing axion energy density today from vacuum misalignment, assuming no axion decays.

Definition at line 355 of file DarkBit_rollcall.hpp.

◆ FUNCTION [103/141]

#define FUNCTION   IC_loglike

General Boltzmann solver from DarkSUSY, using arbitrary Weff.

Routine for computing axion energy density today from vacuum misalignment, assuming no axion decays.

Definition at line 355 of file DarkBit_rollcall.hpp.

◆ FUNCTION [104/141]

#define FUNCTION   UnitTest_DarkBit

General Boltzmann solver from DarkSUSY, using arbitrary Weff.

Routine for computing axion energy density today from vacuum misalignment, assuming no axion decays.

Definition at line 355 of file DarkBit_rollcall.hpp.

◆ FUNCTION [105/141]

#define FUNCTION   SimYieldTable_DarkSUSY

General Boltzmann solver from DarkSUSY, using arbitrary Weff.

Routine for computing axion energy density today from vacuum misalignment, assuming no axion decays.

Definition at line 355 of file DarkBit_rollcall.hpp.

◆ FUNCTION [106/141]

#define FUNCTION   SimYieldTable_DS5

General Boltzmann solver from DarkSUSY, using arbitrary Weff.

Routine for computing axion energy density today from vacuum misalignment, assuming no axion decays.

Definition at line 355 of file DarkBit_rollcall.hpp.

◆ FUNCTION [107/141]

#define FUNCTION   SimYieldTable_MicrOmegas

General Boltzmann solver from DarkSUSY, using arbitrary Weff.

Routine for computing axion energy density today from vacuum misalignment, assuming no axion decays.

Definition at line 355 of file DarkBit_rollcall.hpp.

◆ FUNCTION [108/141]

#define FUNCTION   SimYieldTable_PPPC

General Boltzmann solver from DarkSUSY, using arbitrary Weff.

Routine for computing axion energy density today from vacuum misalignment, assuming no axion decays.

Definition at line 355 of file DarkBit_rollcall.hpp.

◆ FUNCTION [109/141]

#define FUNCTION   DarkMatter_ID_ScalarSingletDM

General Boltzmann solver from DarkSUSY, using arbitrary Weff.

Routine for computing axion energy density today from vacuum misalignment, assuming no axion decays.

Definition at line 355 of file DarkBit_rollcall.hpp.

◆ FUNCTION [110/141]

#define FUNCTION   DarkMatter_ID_VectorSingletDM

General Boltzmann solver from DarkSUSY, using arbitrary Weff.

Routine for computing axion energy density today from vacuum misalignment, assuming no axion decays.

Definition at line 355 of file DarkBit_rollcall.hpp.

◆ FUNCTION [111/141]

#define FUNCTION   DarkMatter_ID_MajoranaSingletDM

General Boltzmann solver from DarkSUSY, using arbitrary Weff.

Routine for computing axion energy density today from vacuum misalignment, assuming no axion decays.

Definition at line 355 of file DarkBit_rollcall.hpp.

◆ FUNCTION [112/141]

#define FUNCTION   DarkMatter_ID_DiracSingletDM

General Boltzmann solver from DarkSUSY, using arbitrary Weff.

Routine for computing axion energy density today from vacuum misalignment, assuming no axion decays.

Definition at line 355 of file DarkBit_rollcall.hpp.

◆ FUNCTION [113/141]

#define FUNCTION   DarkMatter_ID_MSSM

General Boltzmann solver from DarkSUSY, using arbitrary Weff.

Routine for computing axion energy density today from vacuum misalignment, assuming no axion decays.

Definition at line 355 of file DarkBit_rollcall.hpp.

◆ FUNCTION [114/141]

#define FUNCTION   GalacticHalo_gNFW

General Boltzmann solver from DarkSUSY, using arbitrary Weff.

Routine for computing axion energy density today from vacuum misalignment, assuming no axion decays.

Definition at line 355 of file DarkBit_rollcall.hpp.

◆ FUNCTION [115/141]

#define FUNCTION   GalacticHalo_Einasto

General Boltzmann solver from DarkSUSY, using arbitrary Weff.

Routine for computing axion energy density today from vacuum misalignment, assuming no axion decays.

Definition at line 355 of file DarkBit_rollcall.hpp.

◆ FUNCTION [116/141]

#define FUNCTION   ExtractLocalMaxwellianHalo

General Boltzmann solver from DarkSUSY, using arbitrary Weff.

Routine for computing axion energy density today from vacuum misalignment, assuming no axion decays.

Definition at line 355 of file DarkBit_rollcall.hpp.

◆ FUNCTION [117/141]

#define FUNCTION   QCDAxion_ZeroTemperatureMass_Nuisance_lnL

General Boltzmann solver from DarkSUSY, using arbitrary Weff.

Routine for computing axion energy density today from vacuum misalignment, assuming no axion decays.

Definition at line 355 of file DarkBit_rollcall.hpp.

◆ FUNCTION [118/141]

#define FUNCTION   QCDAxion_TemperatureDependence_Nuisance_lnL

General Boltzmann solver from DarkSUSY, using arbitrary Weff.

Routine for computing axion energy density today from vacuum misalignment, assuming no axion decays.

Definition at line 355 of file DarkBit_rollcall.hpp.

◆ FUNCTION [119/141]

#define FUNCTION   QCDAxion_AxionPhotonConstant_Nuisance_lnL

General Boltzmann solver from DarkSUSY, using arbitrary Weff.

Routine for computing axion energy density today from vacuum misalignment, assuming no axion decays.

Definition at line 355 of file DarkBit_rollcall.hpp.

◆ FUNCTION [120/141]

#define FUNCTION   calc_ALPS1_signal_vac

General Boltzmann solver from DarkSUSY, using arbitrary Weff.

Routine for computing axion energy density today from vacuum misalignment, assuming no axion decays.

Definition at line 355 of file DarkBit_rollcall.hpp.

◆ FUNCTION [121/141]

#define FUNCTION   calc_ALPS1_signal_gas

General Boltzmann solver from DarkSUSY, using arbitrary Weff.

Routine for computing axion energy density today from vacuum misalignment, assuming no axion decays.

Definition at line 355 of file DarkBit_rollcall.hpp.

◆ FUNCTION [122/141]

#define FUNCTION   calc_lnL_ALPS1

General Boltzmann solver from DarkSUSY, using arbitrary Weff.

Routine for computing axion energy density today from vacuum misalignment, assuming no axion decays.

Definition at line 355 of file DarkBit_rollcall.hpp.

◆ FUNCTION [123/141]

#define FUNCTION   calc_CAST2007_signal_vac

General Boltzmann solver from DarkSUSY, using arbitrary Weff.

Routine for computing axion energy density today from vacuum misalignment, assuming no axion decays.

Definition at line 355 of file DarkBit_rollcall.hpp.

◆ FUNCTION [124/141]

#define FUNCTION   calc_CAST2017_signal_vac

General Boltzmann solver from DarkSUSY, using arbitrary Weff.

Routine for computing axion energy density today from vacuum misalignment, assuming no axion decays.

Definition at line 355 of file DarkBit_rollcall.hpp.

◆ FUNCTION [125/141]

#define FUNCTION   calc_lnL_CAST2007

General Boltzmann solver from DarkSUSY, using arbitrary Weff.

Routine for computing axion energy density today from vacuum misalignment, assuming no axion decays.

Definition at line 355 of file DarkBit_rollcall.hpp.

◆ FUNCTION [126/141]

#define FUNCTION   calc_lnL_CAST2017

General Boltzmann solver from DarkSUSY, using arbitrary Weff.

Routine for computing axion energy density today from vacuum misalignment, assuming no axion decays.

Definition at line 355 of file DarkBit_rollcall.hpp.

◆ FUNCTION [127/141]

#define FUNCTION   calc_Haloscope_signal

General Boltzmann solver from DarkSUSY, using arbitrary Weff.

Routine for computing axion energy density today from vacuum misalignment, assuming no axion decays.

Definition at line 355 of file DarkBit_rollcall.hpp.

◆ FUNCTION [128/141]

#define FUNCTION   calc_lnL_Haloscope_ADMX1

General Boltzmann solver from DarkSUSY, using arbitrary Weff.

Routine for computing axion energy density today from vacuum misalignment, assuming no axion decays.

Definition at line 355 of file DarkBit_rollcall.hpp.

◆ FUNCTION [129/141]

#define FUNCTION   calc_lnL_Haloscope_ADMX2

General Boltzmann solver from DarkSUSY, using arbitrary Weff.

Routine for computing axion energy density today from vacuum misalignment, assuming no axion decays.

Definition at line 355 of file DarkBit_rollcall.hpp.

◆ FUNCTION [130/141]

#define FUNCTION   calc_lnL_Haloscope_RBF

General Boltzmann solver from DarkSUSY, using arbitrary Weff.

Routine for computing axion energy density today from vacuum misalignment, assuming no axion decays.

Definition at line 355 of file DarkBit_rollcall.hpp.

◆ FUNCTION [131/141]

#define FUNCTION   calc_lnL_Haloscope_UF

General Boltzmann solver from DarkSUSY, using arbitrary Weff.

Routine for computing axion energy density today from vacuum misalignment, assuming no axion decays.

Definition at line 355 of file DarkBit_rollcall.hpp.

◆ FUNCTION [132/141]

#define FUNCTION   calc_RParameter

General Boltzmann solver from DarkSUSY, using arbitrary Weff.

Routine for computing axion energy density today from vacuum misalignment, assuming no axion decays.

Definition at line 355 of file DarkBit_rollcall.hpp.

◆ FUNCTION [133/141]

#define FUNCTION   calc_lnL_RParameter

General Boltzmann solver from DarkSUSY, using arbitrary Weff.

Routine for computing axion energy density today from vacuum misalignment, assuming no axion decays.

Definition at line 355 of file DarkBit_rollcall.hpp.

◆ FUNCTION [134/141]

#define FUNCTION   calc_lnL_WDVar_G117B15A

General Boltzmann solver from DarkSUSY, using arbitrary Weff.

Routine for computing axion energy density today from vacuum misalignment, assuming no axion decays.

Definition at line 355 of file DarkBit_rollcall.hpp.

◆ FUNCTION [135/141]

#define FUNCTION   calc_lnL_WDVar_R548

General Boltzmann solver from DarkSUSY, using arbitrary Weff.

Routine for computing axion energy density today from vacuum misalignment, assuming no axion decays.

Definition at line 355 of file DarkBit_rollcall.hpp.

◆ FUNCTION [136/141]

#define FUNCTION   calc_lnL_WDVar_PG1351489

General Boltzmann solver from DarkSUSY, using arbitrary Weff.

Routine for computing axion energy density today from vacuum misalignment, assuming no axion decays.

Definition at line 355 of file DarkBit_rollcall.hpp.

◆ FUNCTION [137/141]

#define FUNCTION   calc_lnL_WDVar_L192

General Boltzmann solver from DarkSUSY, using arbitrary Weff.

Routine for computing axion energy density today from vacuum misalignment, assuming no axion decays.

Definition at line 355 of file DarkBit_rollcall.hpp.

◆ FUNCTION [138/141]

#define FUNCTION   calc_lnL_SN1987A

General Boltzmann solver from DarkSUSY, using arbitrary Weff.

Routine for computing axion energy density today from vacuum misalignment, assuming no axion decays.

Definition at line 355 of file DarkBit_rollcall.hpp.

◆ FUNCTION [139/141]

#define FUNCTION   calc_PhotonFluence_SN1987A_Conversion

General Boltzmann solver from DarkSUSY, using arbitrary Weff.

Routine for computing axion energy density today from vacuum misalignment, assuming no axion decays.

Definition at line 355 of file DarkBit_rollcall.hpp.

◆ FUNCTION [140/141]

#define FUNCTION   calc_lnL_HESS_GCMF

General Boltzmann solver from DarkSUSY, using arbitrary Weff.

Routine for computing axion energy density today from vacuum misalignment, assuming no axion decays.

Definition at line 355 of file DarkBit_rollcall.hpp.

◆ FUNCTION [141/141]

#define FUNCTION   calc_AxionOscillationTemperature

General Boltzmann solver from DarkSUSY, using arbitrary Weff.

Routine for computing axion energy density today from vacuum misalignment, assuming no axion decays.

Definition at line 355 of file DarkBit_rollcall.hpp.

◆ MODULE

#define MODULE   DarkBit

Definition at line 92 of file DarkBit_rollcall.hpp.

◆ SET_BACKEND_OPTION

#define SET_BACKEND_OPTION (   EXPERIMENT,
  VERSIONS 
)
Value:
LONG_BACKEND_OPTION(MODULE, CAT(EXPERIMENT,_Calculate), CAT(EXPERIMENT,_Calc), \
VERSIONS, (needs_DDCalc)) \
LONG_BACKEND_OPTION(MODULE, CAT(EXPERIMENT,_Events), CAT(EXPERIMENT,_GetEvents), \
VERSIONS, (needs_DDCalc)) \
LONG_BACKEND_OPTION(MODULE, CAT(EXPERIMENT,_Background), \
CAT(EXPERIMENT,_GetBackground), VERSIONS, (needs_DDCalc)) \
LONG_BACKEND_OPTION(MODULE, CAT(EXPERIMENT,_Signal), CAT(EXPERIMENT,_GetSignal), \
VERSIONS, (needs_DDCalc)) \
LONG_BACKEND_OPTION(MODULE, CAT(EXPERIMENT,_SignalSI), \
CAT(EXPERIMENT,_GetSignalSI), VERSIONS, (needs_DDCalc)) \
LONG_BACKEND_OPTION(MODULE, CAT(EXPERIMENT,_SignalSD), \
CAT(EXPERIMENT,_GetSignalSD), VERSIONS, (needs_DDCalc)) \
LONG_BACKEND_OPTION(MODULE, CAT(EXPERIMENT,_Bins), CAT(EXPERIMENT,_GetBins), \
VERSIONS, (needs_DDCalc)) \
LONG_BACKEND_OPTION(MODULE, CAT(EXPERIMENT,_LogLikelihood), \
CAT(EXPERIMENT,_GetLogLikelihood), VERSIONS, (needs_DDCalc)) \
LONG_BACKEND_OPTION(MODULE, CAT(EXPERIMENT,_BinEvents), \
CAT(EXPERIMENT,_GetBinEvents), VERSIONS, (needs_DDCalc)) \
LONG_BACKEND_OPTION(MODULE, CAT(EXPERIMENT,_BinBackground), \
CAT(EXPERIMENT,_GetBinBackground), VERSIONS, (needs_DDCalc)) \
LONG_BACKEND_OPTION(MODULE, CAT(EXPERIMENT,_BinSignal), \
CAT(EXPERIMENT,_GetBinSignal), VERSIONS, (needs_DDCalc)) \
#define MODULE
#define LONG_BACKEND_OPTION(MODULE, CAPABILITY, FUNCTION, BACKEND_AND_VERSIONS, TAGS)
#define CAT(X, Y)
Concatenate macro arguments for 2-7 arguments.
Definition: cats.hpp:22

Function Documentation

◆ ALLOW_MODELS()

◆ BACKEND_OPTION() [1/7]

double DS_HMCOM DS_HMFRAMEVELCOM ds6 BACKEND_OPTION ( (DarkSUSY_generic_wimp, 6.1.1, 6.2.2)  ,
(ds6  
)

◆ BACKEND_OPTION() [2/7]

RD_spectrum_type DS_RDPARS double double double int int int ds6 RD_spectrum_type double double double double double int const str DS5_RDMGEV DS_RDPARS DS_RDLUN DS_RDDOF DS_RDTIME int int double int int int DS_RDTIME BACKEND_OPTION ( (DarkSUSY, 5.1.3)  ,
(ds5  
)

Routine for cross checking relic density results, using DarkSUSY5.

Routine for cross checking relic density results, using MicrOmegas.

◆ BACKEND_OPTION() [3/7]

RD_spectrum_type const str& BACKEND_OPTION ( (DarkSUSY_MSSM, 6.1.1, 6.2.2)  ,
(ds6  
)

◆ BACKEND_OPTION() [4/7]

RD_spectrum_type DS_RDPARS double double double int int int& BACKEND_OPTION ( (DarkSUSY_MSSM)  ,
(ds6  
)

◆ BACKEND_OPTION() [5/7]

double double double BACKEND_OPTION ( (MicrOmegas_MSSM)  ,
(gimmemicro  
)

◆ BACKEND_OPTION() [6/7]

double double double gimmemicro BACKEND_OPTION ( (MicrOmegas_ScalarSingletDM_Z3)  ,
(gimmemicro  
)

◆ BACKEND_OPTION() [7/7]

double double double gimmemicro gimmemicro BACKEND_OPTION ( (MicrOmegas_MajoranaSingletDM_Z2)  ,
(gimmemicro  
)

◆ BACKEND_REQ() [1/20]

double DS5_HMCOM BACKEND_REQ ( dshmisodf  ,
(ds5 ,
DS_HMISODF   
)

◆ BACKEND_REQ() [2/20]

double DS5_HMCOM DS_HMFRAMEVELCOM BACKEND_REQ ( dshmnoclue  ,
(ds5 ,
DS_HMNOCLUE   
)

◆ BACKEND_REQ() [3/20]

double DS_HMCOM BACKEND_REQ ( dshmisodf  ,
(ds6 ,
DS_HMISODF   
)

◆ BACKEND_REQ() [4/20]

double DS_HMCOM DS_HMFRAMEVELCOM BACKEND_REQ ( dshmnoclue  ,
(ds6 ,
DS_HMNOCLUE   
)

◆ BACKEND_REQ() [5/20]

RD_spectrum_type DS_RDPARS double double double int int int ds6 RD_spectrum_type double double double double double int const str & BACKEND_REQ ( widths  ,
(ds5 ,
DS5_WIDTHS   
)

◆ BACKEND_REQ() [6/20]

DS5_MSPCTM DS_INTDOF BACKEND_REQ ( pacodes  ,
(ds5 ,
DS5_PACODES   
)

◆ BACKEND_REQ() [7/20]

RD_spectrum_type BACKEND_REQ ( rdmgev  ,
(ds5 ,
DS5_RDMGEV   
)

◆ BACKEND_REQ() [8/20]

RD_spectrum_type BACKEND_REQ ( dsancoann  ,
(ds6 ,
DS_DSANCOANN   
)

◆ BACKEND_REQ() [9/20]

RD_spectrum_type const str int BACKEND_REQ ( dsanwx  ,
(ds5 ,
double  ,
(double &)   
)

◆ BACKEND_REQ() [10/20]

int BACKEND_REQ ( dsanwx  ,
(ds6 ,
double  ,
(double &)   
)

◆ BACKEND_REQ() [11/20]

RD_spectrum_type DS_RDPARS BACKEND_REQ ( rdtime  ,
(ds6 ,
DS_RDTIME   
)

◆ BACKEND_REQ() [12/20]

RD_spectrum_type DS_RDPARS BACKEND_REQ ( dsrdstart  ,
(ds6 ,
void  ,
(int &, double(&)[1000], double(&)[1000], int &, double(&)[1000], double(&)[1000], int &, double(&)[1000])   
)

◆ BACKEND_REQ() [13/20]

RD_spectrum_type DS_RDPARS double double double int int int ds6 RD_spectrum_type BACKEND_REQ ( dsrdtab  ,
(ds5 ,
void  ,
(double(*)(double &), double &, int &)   
)

◆ BACKEND_REQ() [14/20]

RD_spectrum_type DS_RDPARS double double double int int int ds6 RD_spectrum_type double double double double double int& BACKEND_REQ ( dsrdwintp  ,
(ds5 ,
double  ,
(double &)   
)

◆ BACKEND_REQ() [15/20]

RD_spectrum_type DS_RDPARS double double double int int int ds6 RD_spectrum_type double double double double double int const str DS5_RDMGEV BACKEND_REQ ( rdpth  ,
(ds5 ,
DS_RDPTH   
)

◆ BACKEND_REQ() [16/20]

RD_spectrum_type DS_RDPARS double double double int int int ds6 RD_spectrum_type double double double double double int const str DS5_RDMGEV DS_RDPARS BACKEND_REQ ( rdswitch  ,
(ds5 ,
DS_RDSWITCH   
)

◆ BACKEND_REQ() [17/20]

RD_spectrum_type DS_RDPARS double double double int int int ds6 RD_spectrum_type double double double double double int const str DS5_RDMGEV DS_RDPARS DS_RDLUN BACKEND_REQ ( rdpadd  ,
(ds5 ,
DS_RDPADD   
)

◆ BACKEND_REQ() [18/20]

RD_spectrum_type DS_RDPARS double double double int int int ds6 RD_spectrum_type double double double double double int const str DS5_RDMGEV DS_RDPARS DS_RDLUN DS_RDDOF DS_RDTIME int int double int int int & BACKEND_REQ ( rderrors  ,
(ds5 ,
DS_RDERRORS   
)

◆ BACKEND_REQ() [19/20]

double BACKEND_REQ ( momegas_print_channels  ,
()  ,
double  ,
(double, double, double, int, FILE *)   
)

Contributions of semi-annihilation to the relic density.

◆ BACKEND_REQ() [20/20]

double double BACKEND_REQ ( get_oneChannel  ,
(gimmemicro ,
double  ,
(double, double, char *, char *, char *, char *)   
)

◆ DEPENDENCY() [1/4]

double DEPENDENCY ( LocalHalo  ,
LocalMaxwellianHalo   
)

◆ DEPENDENCY() [2/4]

TH_ProcessCatalog DEPENDENCY ( DarkMatter_ID  ,
std::string   
)

◆ DEPENDENCY() [3/4]

RD_spectrum_type DS_RDPARS double double double int int int ds6 RD_spectrum_type DEPENDENCY ( RD_eff_annrate  ,
fptr_dd   
)

◆ DEPENDENCY() [4/4]

double DEPENDENCY ( T_cmb  ,
double   
)

Get oh2 and Xf simultaneously.

◆ FORCE_SAME_BACKEND()

RD_spectrum_type DS_RDPARS double double double int int int ds6 FORCE_SAME_BACKEND ( ds6  )

◆ START_FUNCTION() [1/5]

START_FUNCTION ( bool  )

◆ START_FUNCTION() [2/5]

START_FUNCTION ( RD_spectrum_type  )

◆ START_FUNCTION() [3/5]

START_FUNCTION ( int  )

◆ START_FUNCTION() [4/5]

START_FUNCTION ( fptr_dd  )

◆ START_FUNCTION() [5/5]

START_FUNCTION ( double  )

Variable Documentation

◆ DiracSingletDM_Z2

TH_ProcessCatalog DiracSingletDM_Z2

Definition at line 149 of file DarkBit_rollcall.hpp.

◆ double

double double

Definition at line 225 of file DarkBit_rollcall.hpp.

◆ ds5

RD_spectrum_type DS_RDPARS double double double int int int ds6 RD_spectrum_type double double double double double int const str DS5_RDMGEV DS_RDPARS DS_RDLUN DS_RDDOF DS_RDTIME int int double int int int ds5

Definition at line 102 of file DarkBit_rollcall.hpp.

◆ ds6

RD_spectrum_type DS_RDPARS ds6

Definition at line 116 of file DarkBit_rollcall.hpp.

◆ gimmemicro

double gimmemicro

Definition at line 288 of file DarkBit_rollcall.hpp.

◆ int

◆ MajoranaSingletDM_Z2

TH_ProcessCatalog MajoranaSingletDM_Z2

Definition at line 149 of file DarkBit_rollcall.hpp.

◆ ScalarSingletDM_Z2_running

TH_ProcessCatalog ScalarSingletDM_Z2_running

Definition at line 149 of file DarkBit_rollcall.hpp.

◆ ScalarSingletDM_Z3

DS5_MSPCTM DS_INTDOF const str TH_ProcessCatalog ScalarSingletDM_Z3

Definition at line 149 of file DarkBit_rollcall.hpp.

◆ ScalarSingletDM_Z3_running

DS5_MSPCTM DS_INTDOF const str TH_ProcessCatalog ScalarSingletDM_Z3_running

Definition at line 149 of file DarkBit_rollcall.hpp.

◆ void

RD_spectrum_type DS_RDPARS double double double int int int ds6 RD_spectrum_type void

Definition at line 223 of file DarkBit_rollcall.hpp.