Geant4 11.2.2
Toolkit for the simulation of the passage of particles through matter
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G4INCL::CrossSectionsStrangeness Class Reference

Multipion, mesonic Resonances and strange cross sections. More...

#include <G4INCLCrossSectionsStrangeness.hh>

+ Inheritance diagram for G4INCL::CrossSectionsStrangeness:

Public Member Functions

 CrossSectionsStrangeness ()
 
virtual G4double total (Particle const *const p1, Particle const *const p2)
 second new total particle-particle cross section
 
virtual G4double elastic (Particle const *const p1, Particle const *const p2)
 second new elastic particle-particle cross section
 
virtual G4double piNToxPiN (const G4int xpi, Particle const *const p1, Particle const *const p2)
 correction to old cross section
 
virtual G4double NNToxPiNN (const G4int xpi, Particle const *const p1, Particle const *const p2)
 Cross section for X pion production - NN Channel.
 
virtual G4double NYelastic (Particle const *const p1, Particle const *const p2)
 elastic scattering for Nucleon-Strange Particles cross sections
 
virtual G4double NKbelastic (Particle const *const p1, Particle const *const p2)
 
virtual G4double NKelastic (Particle const *const p1, Particle const *const p2)
 
virtual G4double NNToNLK (Particle const *const p1, Particle const *const p2)
 Nucleon-Nucleon to Stange particles cross sections.
 
virtual G4double NNToNSK (Particle const *const p1, Particle const *const p2)
 
virtual G4double NNToNLKpi (Particle const *const p1, Particle const *const p2)
 
virtual G4double NNToNSKpi (Particle const *const p1, Particle const *const p2)
 
virtual G4double NNToNLK2pi (Particle const *const p1, Particle const *const p2)
 
virtual G4double NNToNSK2pi (Particle const *const p1, Particle const *const p2)
 
virtual G4double NNToNNKKb (Particle const *const p1, Particle const *const p2)
 
virtual G4double NNToMissingStrangeness (Particle const *const p1, Particle const *const p2)
 
virtual G4double NDeltaToNLK (Particle const *const p1, Particle const *const p2)
 Nucleon-Delta to Stange particles cross sections.
 
virtual G4double NDeltaToNSK (Particle const *const p1, Particle const *const p2)
 
virtual G4double NDeltaToDeltaLK (Particle const *const p1, Particle const *const p2)
 
virtual G4double NDeltaToDeltaSK (Particle const *const p1, Particle const *const p2)
 
virtual G4double NDeltaToNNKKb (Particle const *const p1, Particle const *const p2)
 
virtual G4double NpiToLK (Particle const *const p1, Particle const *const p2)
 Nucleon-Pion to Stange particles cross sections.
 
G4double p_pimToLK0 (Particle const *const p1, Particle const *const p2)
 
virtual G4double NpiToSK (Particle const *const p1, Particle const *const p2)
 
G4double p_pipToSpKp (Particle const *const p1, Particle const *const p2)
 
virtual G4double p_pimToSzKz (Particle const *const p1, Particle const *const p2)
 
virtual G4double p_pimToSmKp (Particle const *const p1, Particle const *const p2)
 
virtual G4double p_pizToSzKp (Particle const *const p1, Particle const *const p2)
 
virtual G4double NpiToLKpi (Particle const *const p1, Particle const *const p2)
 
virtual G4double NpiToSKpi (Particle const *const p1, Particle const *const p2)
 
virtual G4double NpiToLK2pi (Particle const *const p1, Particle const *const p2)
 
virtual G4double NpiToSK2pi (Particle const *const p1, Particle const *const p2)
 
virtual G4double NpiToNKKb (Particle const *const p1, Particle const *const p2)
 
virtual G4double NpiToMissingStrangeness (Particle const *const p1, Particle const *const p2)
 
virtual G4double NLToNS (Particle const *const p1, Particle const *const p2)
 Nucleon-Hyperon quasi-elastic cross sections.
 
virtual G4double NSToNL (Particle const *const p1, Particle const *const p2)
 
virtual G4double NSToNS (Particle const *const p1, Particle const *const p2)
 
virtual G4double NKToNK (Particle const *const p1, Particle const *const p2)
 Nucleon-Kaon cross sections.
 
virtual G4double NKToNKpi (Particle const *const p1, Particle const *const p2)
 
virtual G4double NKToNK2pi (Particle const *const p1, Particle const *const p2)
 
virtual G4double NKbToNKb (Particle const *const p1, Particle const *const p2)
 Nucleon-antiKaon cross sections.
 
virtual G4double NKbToSpi (Particle const *const p1, Particle const *const p2)
 
virtual G4double NKbToLpi (Particle const *const p1, Particle const *const p2)
 
virtual G4double p_kmToL_pz (Particle const *const p1, Particle const *const p2)
 
virtual G4double NKbToS2pi (Particle const *const p1, Particle const *const p2)
 
virtual G4double NKbToL2pi (Particle const *const p1, Particle const *const p2)
 
virtual G4double p_kmToL_pp_pm (Particle const *const p1, Particle const *const p2)
 
virtual G4double NKbToNKbpi (Particle const *const p1, Particle const *const p2)
 
virtual G4double NKbToNKb2pi (Particle const *const p1, Particle const *const p2)
 
- Public Member Functions inherited from G4INCL::CrossSectionsMultiPionsAndResonances
 CrossSectionsMultiPionsAndResonances ()
 
virtual G4double piNToEtaN (Particle const *const p1, Particle const *const p2)
 Cross sections for mesonic resonance production - piN Channel.
 
virtual G4double piNToOmegaN (Particle const *const p1, Particle const *const p2)
 Cross section for PiN->OmegaN.
 
virtual G4double piNToEtaPrimeN (Particle const *const p1, Particle const *const p2)
 Cross section for PiN->EtaPrimeN.
 
virtual G4double etaNToPiN (Particle const *const p1, Particle const *const p2)
 Cross sections for mesonic resonance absorption on nucleon - piN Channel.
 
virtual G4double omegaNToPiN (Particle const *const p1, Particle const *const p2)
 Cross section for OmegaN->PiN.
 
virtual G4double etaPrimeNToPiN (Particle const *const p1, Particle const *const p2)
 Cross section for EtaPrimeN->PiN.
 
virtual G4double etaNToPiPiN (Particle const *const p1, Particle const *const p2)
 Cross sections for mesonic resonance absorption on nucleon - pipiN Channel.
 
virtual G4double NNToNNEta (Particle const *const particle1, Particle const *const particle2)
 Cross section for Eta production (inclusive) - NN entrance channel.
 
virtual G4double NNToNNEtaExclu (Particle const *const particle1, Particle const *const particle2)
 Cross section for Eta production (exclusive) - NN entrance channel.
 
virtual G4double NNToNNOmega (Particle const *const particle1, Particle const *const particle2)
 Cross section for Omega production (inclusive) - NN entrance channel.
 
virtual G4double NNToNNOmegaExclu (Particle const *const particle1, Particle const *const particle2)
 Cross section for Omega production (exclusive) - NN entrance channel.
 
virtual G4double NNToNNEtaxPi (const G4int xpi, Particle const *const p1, Particle const *const p2)
 Cross section for X pion production - NNEta Channel.
 
virtual G4double NNToNDeltaEta (Particle const *const p1, Particle const *const p2)
 Cross section for N-Delta-Eta production - NNEta Channel.
 
virtual G4double NNToNNOmegaxPi (const G4int xpi, Particle const *const p1, Particle const *const p2)
 Cross section for X pion production - NNOmega Channel.
 
virtual G4double NNToNDeltaOmega (Particle const *const p1, Particle const *const p2)
 Cross section for N-Delta-Eta production - NNOmega Channel.
 
- Public Member Functions inherited from G4INCL::CrossSectionsMultiPions
 CrossSectionsMultiPions ()
 
virtual G4double NDeltaToNN (Particle const *const p1, Particle const *const p2)
 Cross section for NDelta->NN.
 
virtual G4double NNToNDelta (Particle const *const p1, Particle const *const p2)
 Cross section for Delta production - NN Channel.
 
virtual G4double piNToDelta (Particle const *const p1, Particle const *const p2)
 Cross section for Delta production - piN Channel.
 
virtual G4double calculateNNAngularSlope (G4double energyCM, G4int iso)
 Calculate the slope of the NN DDXS.
 
virtual G4double NNbarElastic (Particle const *const p1, Particle const *const p2)
 antiparticle cross sections
 
virtual G4double NNbarCEX (Particle const *const p1, Particle const *const p2)
 
virtual G4double NNbarToLLbar (Particle const *const p1, Particle const *const p2)
 
virtual G4double NNbarToNNbarpi (Particle const *const p1, Particle const *const p2)
 Nucleon-AntiNucleon to Nucleon-AntiNucleon + pions cross sections.
 
virtual G4double NNbarToNNbar2pi (Particle const *const p1, Particle const *const p2)
 
virtual G4double NNbarToNNbar3pi (Particle const *const p1, Particle const *const p2)
 
virtual G4double NNbarToAnnihilation (Particle const *const p1, Particle const *const p2)
 Nucleon-AntiNucleon total annihilation cross sections.
 
- Public Member Functions inherited from G4INCL::ICrossSections
 ICrossSections ()
 
virtual ~ICrossSections ()
 

Protected Attributes

const HornerC7 s11pzHC
 Horner coefficients for s11pz.
 
const HornerC8 s01ppHC
 Horner coefficients for s01pp.
 
const HornerC4 s01pzHC
 Horner coefficients for s01pz.
 
const HornerC4 s11pmHC
 Horner coefficients for s11pm.
 
const HornerC5 s12pmHC
 Horner coefficients for s12pm.
 
const HornerC3 s12ppHC
 Horner coefficients for s12pp.
 
const HornerC4 s12zzHC
 Horner coefficients for s12zz.
 
const HornerC4 s02pzHC
 Horner coefficients for s02pz.
 
const HornerC6 s02pmHC
 Horner coefficients for s02pm.
 
const HornerC4 s12mzHC
 Horner coefficients for s12mz.
 
- Protected Attributes inherited from G4INCL::CrossSectionsMultiPionsAndResonances
const HornerC7 s11pzHC
 Horner coefficients for s11pz.
 
const HornerC8 s01ppHC
 Horner coefficients for s01pp.
 
const HornerC4 s01pzHC
 Horner coefficients for s01pz.
 
const HornerC4 s11pmHC
 Horner coefficients for s11pm.
 
const HornerC5 s12pmHC
 Horner coefficients for s12pm.
 
const HornerC3 s12ppHC
 Horner coefficients for s12pp.
 
const HornerC4 s12zzHC
 Horner coefficients for s12zz.
 
const HornerC4 s02pzHC
 Horner coefficients for s02pz.
 
const HornerC6 s02pmHC
 Horner coefficients for s02pm.
 
const HornerC4 s12mzHC
 Horner coefficients for s12mz.
 
- Protected Attributes inherited from G4INCL::CrossSectionsMultiPions
const HornerC7 s11pzHC
 Horner coefficients for s11pz.
 
const HornerC8 s01ppHC
 Horner coefficients for s01pp.
 
const HornerC4 s01pzHC
 Horner coefficients for s01pz.
 
const HornerC4 s11pmHC
 Horner coefficients for s11pm.
 
const HornerC5 s12pmHC
 Horner coefficients for s12pm.
 
const HornerC3 s12ppHC
 Horner coefficients for s12pp.
 
const HornerC4 s12zzHC
 Horner coefficients for s12zz.
 
const HornerC4 s02pzHC
 Horner coefficients for s02pz.
 
const HornerC6 s02pmHC
 Horner coefficients for s02pm.
 
const HornerC4 s12mzHC
 Horner coefficients for s12mz.
 

Static Protected Attributes

static const G4int nMaxPiNN = 4
 Maximum number of outgoing pions in NN collisions.
 
static const G4int nMaxPiPiN = 4
 Maximum number of outgoing pions in piN collisions.
 
- Static Protected Attributes inherited from G4INCL::CrossSectionsMultiPionsAndResonances
static const G4int nMaxPiNN = 4
 Maximum number of outgoing pions in NN collisions.
 
static const G4int nMaxPiPiN = 4
 Maximum number of outgoing pions in piN collisions.
 
static const G4double s11pzOOT = 0.0035761542037692665889
 One over threshold for s11pz.
 
static const G4double s01ppOOT = 0.003421025623481919853
 One over threshold for s01pp.
 
static const G4double s01pzOOT = 0.0035739814152966403123
 One over threshold for s01pz.
 
static const G4double s11pmOOT = 0.0034855350296270480281
 One over threshold for s11pm.
 
static const G4double s12pmOOT = 0.0016672224074691565119
 One over threshold for s12pm.
 
static const G4double s12ppOOT = 0.0016507643038726931312
 One over threshold for s12pp.
 
static const G4double s12zzOOT = 0.0011111111111111111111
 One over threshold for s12zz.
 
static const G4double s02pzOOT = 0.00125
 One over threshold for s02pz.
 
static const G4double s02pmOOT = 0.0016661112962345883443
 One over threshold for s02pm.
 
static const G4double s12mzOOT = 0.0017047391749062392793
 One over threshold for s12mz.
 
- Static Protected Attributes inherited from G4INCL::CrossSectionsMultiPions
static const G4int nMaxPiNN = 4
 Maximum number of outgoing pions in NN collisions.
 
static const G4int nMaxPiPiN = 4
 Maximum number of outgoing pions in piN collisions.
 
static const G4double s11pzOOT = 0.0035761542037692665889
 One over threshold for s11pz.
 
static const G4double s01ppOOT = 0.003421025623481919853
 One over threshold for s01pp.
 
static const G4double s01pzOOT = 0.0035739814152966403123
 One over threshold for s01pz.
 
static const G4double s11pmOOT = 0.0034855350296270480281
 One over threshold for s11pm.
 
static const G4double s12pmOOT = 0.0016672224074691565119
 One over threshold for s12pm.
 
static const G4double s12ppOOT = 0.0016507643038726931312
 One over threshold for s12pp.
 
static const G4double s12zzOOT = 0.0011111111111111111111
 One over threshold for s12zz.
 
static const G4double s02pzOOT = 0.00125
 One over threshold for s02pz.
 
static const G4double s02pmOOT = 0.0016661112962345883443
 One over threshold for s02pm.
 
static const G4double s12mzOOT = 0.0017047391749062392793
 One over threshold for s12mz.
 

Additional Inherited Members

- Protected Member Functions inherited from G4INCL::CrossSectionsMultiPionsAndResonances
G4double piMinuspToEtaN (Particle const *const p1, Particle const *const p2)
 Internal function for pion cross sections.
 
G4double piMinuspToEtaN (const G4double ECM)
 
G4double piMinuspToOmegaN (Particle const *const p1, Particle const *const p2)
 
G4double piMinuspToOmegaN (const G4double ECM)
 
virtual G4double NNToNNEtaIso (const G4double ener, const G4int iso)
 Cross section for One (more) pion production - piN entrance channel.
 
virtual G4double NNToNNEtaExcluIso (const G4double ener, const G4int iso)
 Isotopic Cross section for Eta production (exclusive) - NN entrance channel.
 
virtual G4double NNToNNEtaOnePi (Particle const *const part1, Particle const *const part2)
 Cross section for direct 1-pion production - NNEta channel.
 
virtual G4double NNToNNEtaOnePiOrDelta (Particle const *const part1, Particle const *const part2)
 Cross section for direct 1-pion production - NNEta channel.
 
virtual G4double NNToNNEtaTwoPi (Particle const *const part1, Particle const *const part2)
 Cross section for direct 2-pion production - NNEta channel.
 
virtual G4double NNToNNEtaThreePi (Particle const *const part1, Particle const *const part2)
 Cross section for direct 3-pion production - NNEta channel.
 
virtual G4double NNToNNEtaFourPi (Particle const *const part1, Particle const *const part2)
 Cross section for direct 4-pion production - NNEta channel.
 
virtual G4double NNToNNOmegaIso (const G4double ener, const G4int iso)
 Isotopic Cross section for Omega production (inclusive) - NN entrance channel.
 
virtual G4double NNToNNOmegaExcluIso (const G4double ener, const G4int iso)
 Isotopic Cross section for Omega production (exclusive) - NN entrance channel.
 
virtual G4double NNToNNOmegaOnePi (Particle const *const part1, Particle const *const part2)
 Cross section for direct 1-pion production - NNOmega channel.
 
virtual G4double NNToNNOmegaOnePiOrDelta (Particle const *const part1, Particle const *const part2)
 Cross section for direct 1-pion production - NNOmega channel.
 
virtual G4double NNToNNOmegaTwoPi (Particle const *const part1, Particle const *const part2)
 Cross section for direct 2-pion production - NNOmega channel.
 
virtual G4double NNToNNOmegaThreePi (Particle const *const part1, Particle const *const part2)
 Cross section for direct 3-pion production - NNOmega channel.
 
virtual G4double NNToNNOmegaFourPi (Particle const *const part1, Particle const *const part2)
 Cross section for direct 4-pion production - NNOmega channel.
 
virtual G4double etaNElastic (Particle const *const p1, Particle const *const p2)
 Cross sections for mesonic resonance absorption on nucleon - elastic Channel.
 
virtual G4double omegaNElastic (Particle const *const p1, Particle const *const p2)
 
virtual G4double omegaNInelastic (Particle const *const p1, Particle const *const p2)
 Cross sections for mesonic resonance absorption on nucleon - inelastic Channel.
 
virtual G4double omegaNToPiPiN (Particle const *const p1, Particle const *const p2)
 Cross sections for omega-induced 2Pi emission on nucleon.
 
- Protected Member Functions inherited from G4INCL::CrossSectionsMultiPions
G4double NNElastic (Particle const *const part1, Particle const *const part2)
 Internal implementation of the NN elastic cross section.
 
G4double NNElasticFixed (const G4double s, const G4int i)
 Internal implementation of the NN elastic cross section with fixed isospin.
 
G4double NNTot (Particle const *const part1, Particle const *const part2)
 Internal implementation of the NN total cross section.
 
G4double NNTotFixed (const G4double s, const G4int i)
 Internal implementation of the NN total cross section with fixed isospin.
 
G4double NNInelasticIso (const G4double ener, const G4int iso)
 Internal implementation of the isospin dependent NN reaction cross section.
 
virtual G4double NNOnePiOrDelta (const G4double ener, const G4int iso, const G4double xsiso)
 Cross section for direct 1-pion production + delta production - NN entrance channel.
 
virtual G4double NNTwoPi (const G4double ener, const G4int iso, const G4double xsiso)
 Cross section for direct 2-pion production - NN entrance channel.
 
virtual G4double NNThreePi (const G4double ener, const G4int iso, const G4double xsiso, const G4double xs1pi, const G4double xs2pi)
 Cross section for direct 3-pion production - NN entrance channel.
 
virtual G4double NNOnePi (Particle const *const part1, Particle const *const part2)
 Cross section for direct 1-pion production - NN entrance channel.
 
virtual G4double NNOnePiOrDelta (Particle const *const part1, Particle const *const part2)
 Cross section for direct 1-pion production - NN entrance channel.
 
virtual G4double NNTwoPi (Particle const *const part1, Particle const *const part2)
 Cross section for direct 2-pion production - NN entrance channel.
 
virtual G4double NNThreePi (Particle const *const part1, Particle const *const part2)
 Cross section for direct 3-pion production - NN entrance channel.
 
virtual G4double NNFourPi (Particle const *const part1, Particle const *const part2)
 Cross section for direct 4-pion production - NN entrance channel.
 
G4double spnPiPlusPHE (const G4double x)
 Internal function for pion cross sections.
 
G4double spnPiMinusPHE (const G4double x)
 Internal function for pion cross sections.
 
G4double piNIne (Particle const *const p1, Particle const *const p2)
 
G4double piNTot (Particle const *const p1, Particle const *const p2)
 
G4double piNTopiN (Particle const *const p1, Particle const *const p2)
 
G4double piPluspIne (Particle const *const p1, Particle const *const p2)
 
G4double piMinuspIne (Particle const *const p1, Particle const *const p2)
 
G4double piPluspOnePi (Particle const *const p1, Particle const *const p2)
 
G4double piMinuspOnePi (Particle const *const p1, Particle const *const p2)
 
G4double piPluspTwoPi (Particle const *const p1, Particle const *const p2)
 
G4double piMinuspTwoPi (Particle const *const p1, Particle const *const p2)
 
virtual G4double piNOnePi (Particle const *const p1, Particle const *const p2)
 Cross section for One (more) pion production - piN entrance channel.
 
virtual G4double piNTwoPi (Particle const *const p1, Particle const *const p2)
 Cross section for Two (more) pion production - piN entrance channel.
 

Detailed Description

Multipion, mesonic Resonances and strange cross sections.

Definition at line 55 of file G4INCLCrossSectionsStrangeness.hh.

Constructor & Destructor Documentation

◆ CrossSectionsStrangeness()

G4INCL::CrossSectionsStrangeness::CrossSectionsStrangeness ( )

Definition at line 66 of file G4INCLCrossSectionsStrangeness.cc.

66 :
67 s11pzHC(-2.228000000000294018,8.7560000000005723725,-0.61000000000023239325,-5.4139999999999780324,3.3338333333333348023,-0.75835000000000022049,0.060623611111111114688),
68 s01ppHC(2.0570000000126518344,-6.029000000012135826,36.768500000002462784,-45.275666666666553533,25.112666666666611953,-7.2174166666666639187,1.0478875000000000275,-0.060804365079365080846),
69 s01pzHC(0.18030000000000441851,7.8700999999999953598,-4.0548999999999990425,0.555199999999999959),
70 s11pmHC(0.20590000000000031866,3.3450999999999993936,-1.4401999999999997825,0.17076666666666664973),
71 s12pmHC(-0.77235999999999901328,4.2626599999999991117,-1.9008899999999997323,0.30192266666666663379,-0.012270833333333331986),
72 s12ppHC(-0.75724999999999975664,2.0934399999999998565,-0.3803099999999999814),
73 s12zzHC(-0.89599999999996965072,7.882999999999978632,-7.1049999999999961928,1.884333333333333089),
74 s02pzHC(-1.0579999999999967036,11.113999999999994089,-8.5259999999999990196,2.0051666666666666525),
75 s02pmHC(2.4009000000012553286,-7.7680000000013376183,20.619000000000433505,-16.429666666666723928,5.2525708333333363472,-0.58969166666666670206),
76 s12mzHC(-0.21858699999999976269,1.9148999999999999722,-0.31727500000000001065,-0.027695000000000000486)
77 {
78 }
const HornerC4 s02pzHC
Horner coefficients for s02pz.
const HornerC5 s12pmHC
Horner coefficients for s12pm.
const HornerC6 s02pmHC
Horner coefficients for s02pm.
const HornerC8 s01ppHC
Horner coefficients for s01pp.
const HornerC7 s11pzHC
Horner coefficients for s11pz.
const HornerC4 s12mzHC
Horner coefficients for s12mz.
const HornerC4 s12zzHC
Horner coefficients for s12zz.
const HornerC4 s11pmHC
Horner coefficients for s11pm.
const HornerC3 s12ppHC
Horner coefficients for s12pp.
const HornerC4 s01pzHC
Horner coefficients for s01pz.

Member Function Documentation

◆ elastic()

G4double G4INCL::CrossSectionsStrangeness::elastic ( Particle const *const p1,
Particle const *const p2 )
virtual

second new elastic particle-particle cross section

Reimplemented from G4INCL::CrossSectionsMultiPionsAndResonances.

Reimplemented in G4INCL::CrossSectionsAntiparticles.

Definition at line 119 of file G4INCLCrossSectionsStrangeness.cc.

119 {
120 if((p1->isNucleon()||p1->isDelta()) && (p2->isNucleon()||p2->isDelta())){ // N-N, N-Delta, Delta-Delta
122 }
123 else if ((p1->isNucleon() && p2->isPion()) || (p2->isNucleon() && p1->isPion())){
125 }
126 else if ((p1->isNucleon() && p2->isEta()) || (p2->isNucleon() && p1->isEta())){
128 }
129 else if ((p1->isNucleon() && p2->isHyperon()) || (p2->isNucleon() && p1->isHyperon())){
130 return NYelastic(p1, p2);
131 }
132 else if ((p1->isNucleon() && p2->isKaon()) || (p2->isNucleon() && p1->isKaon())){
133 return NKelastic(p1, p2);
134 }
135 else if ((p1->isNucleon() && p2->isAntiKaon()) || (p2->isNucleon() && p1->isAntiKaon())){
136 return NKbelastic(p1, p2);
137 }
138 else {
139 return 0.0;
140 }
141 }
virtual G4double etaNElastic(Particle const *const p1, Particle const *const p2)
Cross sections for mesonic resonance absorption on nucleon - elastic Channel.
virtual G4double elastic(Particle const *const p1, Particle const *const p2)
Elastic particle-particle cross section.
virtual G4double NKbelastic(Particle const *const p1, Particle const *const p2)
virtual G4double NKelastic(Particle const *const p1, Particle const *const p2)
virtual G4double NYelastic(Particle const *const p1, Particle const *const p2)
elastic scattering for Nucleon-Strange Particles cross sections

Referenced by total().

◆ NDeltaToDeltaLK()

G4double G4INCL::CrossSectionsStrangeness::NDeltaToDeltaLK ( Particle const *const p1,
Particle const *const p2 )
virtual

Reimplemented from G4INCL::CrossSectionsMultiPions.

Definition at line 831 of file G4INCLCrossSectionsStrangeness.cc.

831 {
832 // Nucleon-Delta producing Delta Lambda Kaon cross section
833 //
834 // XS from K. Tsushima, A. Sibirtsev, A. W. Thomas, and G. Q. Li. Phys.Rev.C 59, 369
835 //
836 // ratio
837 // D++ p -> L K+ D++ (4)
838 //
839 // D++ n -> L K+ D+ (3)
840 // D++ n -> L K0 D++ (4)
841 //
842 // D+ p -> L K0 D++ (3)
843 // D+ p -> L K+ D+ (2)
844 //
845 // D+ n -> L K+ D0 (4)
846 // D+ n -> L K0 D+ (2)
847
848 G4double a = 2.679;
849 G4double b = 2.280;
850 G4double c = 5.086;
851 G4double n_channel = 7.;
852
853// assert((p1->isNucleon() && p2->isResonance()) || (p2->isNucleon() && p1->isResonance()));
854
855 const G4double s = KinematicsUtils::squareTotalEnergyInCM(p1 ,p2); // Mev^^2
856 const G4double s0 = 8.096E6; // Mev^2
857 const G4int iso = ParticleTable::getIsospin(p1->getType()) + ParticleTable::getIsospin(p2->getType());
858
859 if(s <= s0)
860 return 0.;
861
862 G4double sigma = n_channel*a*std::pow(s/s0-1,b)*std::pow(s0/s,c);
863
864 if(iso == 0)// D+ n
865 sigma *= 6./22.;
866 else if (ParticleTable::getIsospin(p1->getType()) == ParticleTable::getIsospin(p2->getType()))// D+ p
867 sigma *= 5./22.;
868 else if (std::abs(iso) == 2)// D++ n
869 sigma *= 7./22.;
870 else // D++ p
871 sigma *= 4./22.;
872
873 return sigma;
874 }
double G4double
Definition G4Types.hh:83
int G4int
Definition G4Types.hh:85
G4double squareTotalEnergyInCM(Particle const *const p1, Particle const *const p2)
G4int getIsospin(const ParticleType t)
Get the isospin of a particle.

Referenced by G4INCL::CrossSectionsAntiparticles::total(), and total().

◆ NDeltaToDeltaSK()

G4double G4INCL::CrossSectionsStrangeness::NDeltaToDeltaSK ( Particle const *const p1,
Particle const *const p2 )
virtual

Reimplemented from G4INCL::CrossSectionsMultiPions.

Definition at line 875 of file G4INCLCrossSectionsStrangeness.cc.

875 {
876 // Nucleon-Delta producing Delta Sigma Kaon cross section
877 //
878 // XS from K. Tsushima, A. Sibirtsev, A. W. Thomas, and G. Q. Li. Phys.Rev.C 59, 369
879 //
880 // D++ p (9)
881 // D++ n (15)
882 // D+ p (11)
883 // D+ n (13)
884 //
885 // ratio
886 // D++ p -> S+ K+ D+ (a) (2)
887 // D++ p -> S0 K+ D++ (b) (1)
888 // D++ p -> S+ K0 D++ (c) (6)
889 //
890 // D++ n -> S+ K+ D0 *(d)* (2)
891 // D++ n -> S0 K+ D+ (e) (4)
892 // D++ n -> S- K+ D++ (f) (6)(c)*
893 // D++ n -> S+ K0 D+ (a)* (2)
894 // D++ n -> S0 K0 D++ (b)* (1)*
895 //
896 // D+ p -> S+ K+ D0 (i) (2)*
897 // D+ p -> S0 K+ D+ (j) (1)
898 // D+ p -> S- K+ D++ (k) (2)(g=a)*
899 // D+ p -> S+ K0 D+ (l) (2)
900 // D+ p -> S0 K0 D++ (m) (4)(e)*
901 //
902 // D+ n -> S+ K+ D- *(d)* (2)
903 // D+ n -> S0 K+ D0 (o) (4)
904 // D+ n -> S- K+ D+ (p) (2)*
905 // D+ n -> S+ K0 D0 (i)* (2)*
906 // D+ n -> S0 K0 D+ (j)* (1)*
907 // D+ n -> S- K0 D++ (k)* (2)*
908
909 G4double a = 8.407;
910 G4double b = 2.743;
911 G4double c = 21.18;
912 G4double n_channel = 19.;
913
914// assert((p1->isNucleon() && p2->isResonance()) || (p2->isNucleon() && p1->isResonance()));
915
916 const G4double s = KinematicsUtils::squareTotalEnergyInCM(p1 ,p2); // Mev^^2
917 const G4double s0 = 8.568E6; // Mev^2
918 const G4int iso = ParticleTable::getIsospin(p1->getType()) + ParticleTable::getIsospin(p2->getType());
919
920 if(s <= s0)
921 return 0.;
922
923 G4double sigma = n_channel*a*std::pow(s/s0-1,b)*std::pow(s0/s,c);
924
925 if(iso == 0)// D+ n
926 sigma *= 13./48.;
927 else if (ParticleTable::getIsospin(p1->getType()) == ParticleTable::getIsospin(p2->getType()))// D+ p
928 sigma *= 11./48.;
929 else if (std::abs(iso) == 2)// D++ n
930 sigma *= 15./48.;
931 else // D++ p
932 sigma *= 9./48.;
933
934 return sigma;
935 }

Referenced by G4INCL::CrossSectionsAntiparticles::total(), and total().

◆ NDeltaToNLK()

G4double G4INCL::CrossSectionsStrangeness::NDeltaToNLK ( Particle const *const p1,
Particle const *const p2 )
virtual

Nucleon-Delta to Stange particles cross sections.

NDelta to strange cross sections.

No experimental data Parametrization from Phys.Rev.C 59 1 (369) (1999)

Correction are applied on the isospin symetry provided in the paper

Reimplemented from G4INCL::CrossSectionsMultiPions.

Definition at line 732 of file G4INCLCrossSectionsStrangeness.cc.

732 {
733 // Nucleon-Delta producing Nucleon Lambda Kaon cross section
734 //
735 // XS from K. Tsushima, A. Sibirtsev, A. W. Thomas, and G. Q. Li. Phys.Rev.C 59, 369
736 //
737 // ratio
738 // D++ n -> p L K+ (3)
739 //
740 // D+ p -> p L K+ (1)
741 //
742 // D+ n -> p L K0 (1)
743 // D+ n -> n L K+ (1)
744
745 G4double a = 4.169;
746 G4double b = 2.227;
747 G4double c = 2.511;
748 G4double n_channel = 4.; // number of channel divided by 2. Here 8/2
749
750// assert((p1->isNucleon() && p2->isResonance()) || (p2->isNucleon() && p1->isResonance()));
751
752 const G4int iso = ParticleTable::getIsospin(p1->getType()) + ParticleTable::getIsospin(p2->getType());
753 if(std::abs(iso) == 4) return 0.;
754
755 G4double sigma = 0.;
756
757 const G4double s = KinematicsUtils::squareTotalEnergyInCM(p1 ,p2); // MeV^2
758 const G4double s0 = 6.511E6; // MeV^2
759
760 if(s <= s0) return 0.;
761
762 sigma = n_channel*a*std::pow(s/s0-1,b)*std::pow(s0/s,c);
763
764 //const G4double pLab = sdt::sqrt(s*s/(4*ParticleTable::effectiveNucleonMass2)-s)*0.001;
765 //sigma = 3*1.11875*std::pow((pLab-2.3508),1.0951)/std::pow((pLab+2.3508),2.0958); // NDelta sim to NN
766
767 if(iso == 0){ // D+ n
768 sigma *= 2./6.;
769 }
770 else if (ParticleTable::getIsospin(p1->getType()) == ParticleTable::getIsospin(p2->getType())){// D+ p
771 sigma *= 1./6.;
772 }
773 else{// D++ n
774 sigma *= 3./6.;
775 }
776 return sigma;
777 }

Referenced by G4INCL::CrossSectionsAntiparticles::total(), and total().

◆ NDeltaToNNKKb()

G4double G4INCL::CrossSectionsStrangeness::NDeltaToNNKKb ( Particle const *const p1,
Particle const *const p2 )
virtual

Reimplemented from G4INCL::CrossSectionsMultiPions.

Definition at line 937 of file G4INCLCrossSectionsStrangeness.cc.

937 {
938 // Nucleon-Delta producing Nucleon-Nucleon Kaon antiKaon cross section
939 //
940 // Total = sigma(NN->NNKKb)*10
941 //
942 // D++ p (6)
943 // D++ n (9)
944 // D+ p (7)
945 // D+ n (8)
946 //
947 // ratio
948 // D++ p -> p p K+ K0b (6)
949 //
950 // D++ n -> p p K+ K- (3)
951 // D++ n -> p p K0 K0b (3)
952 // D++ n -> p n K+ K0b (3)
953 //
954 // D+ p -> p p K+ K- (3)
955 // D+ p -> p p K0 K0b (1)
956 // D+ p -> p n K+ K0b (3)
957 //
958 // D+ n -> p p K0 K- (2)
959 // D+ n -> p n K+ K- (1)
960 // D+ n -> p n K0 K0b (3)
961 // D+ n -> n n K+ K0b (2)
962 //
963
964// assert((p1->isNucleon() && p2->isResonance()) || (p2->isNucleon() && p1->isResonance()));
965
966 G4double sigma = 0.;
967 const G4int iso = ParticleTable::getIsospin(p1->getType()) + ParticleTable::getIsospin(p2->getType());
968 const G4double ener = 0.001*KinematicsUtils::totalEnergyInCM(p1, p2); // GeV
969
970 if(ener <= 2.872)
971 return 0.;
972
973 if(iso == 0)// D+ n
974 sigma = 8* 22./60. * 3. *std::pow(1.-2.872*2.872/(ener*ener),3.)*std::pow(2.872*2.872/(ener*ener),0.8);
975 else if (ParticleTable::getIsospin(p1->getType()) == ParticleTable::getIsospin(p2->getType()))// D+ p
976 sigma = 7* 22./60. * 3. *std::pow(1.-2.872*2.872/(ener*ener),3.)*std::pow(2.872*2.872/(ener*ener),0.8);
977 else if (std::abs(iso) == 2)// D++ n
978 sigma = 9* 22./60. * 3. *std::pow(1.-2.872*2.872/(ener*ener),3.)*std::pow(2.872*2.872/(ener*ener),0.8);
979 else // D++ p
980 sigma = 6* 22./60. * 3. *std::pow(1.-2.872*2.872/(ener*ener),3.)*std::pow(2.872*2.872/(ener*ener),0.8);
981
982 return sigma;
983 }
G4double totalEnergyInCM(Particle const *const p1, Particle const *const p2)

Referenced by G4INCL::CrossSectionsAntiparticles::total(), and total().

◆ NDeltaToNSK()

G4double G4INCL::CrossSectionsStrangeness::NDeltaToNSK ( Particle const *const p1,
Particle const *const p2 )
virtual

Reimplemented from G4INCL::CrossSectionsMultiPions.

Definition at line 778 of file G4INCLCrossSectionsStrangeness.cc.

778 {
779 // Nucleon-Delta producing Nucleon Sigma Kaon cross section
780 //
781 // XS from K. Tsushima, A. Sibirtsev, A. W. Thomas, and G. Q. Li. Phys.Rev.C 59, 369 ( X 1.25 (124/99) for isospin consideration)
782 //
783 // ratio
784 // D++ p -> p S+ K+ (6)
785 //
786 // D++ n -> p S+ K0 (3) ****
787 // D++ n -> p S0 K+ (3)
788 // D++ n -> n S+ K+ (3)
789 //
790 // D+ p -> p S+ K0 (2)
791 // D+ p -> p S0 K+ (2)
792 // D+ p -> n S+ K+ (3)
793 //
794 // D+ n -> p S0 K0 (3)
795 // D+ n -> p S- K+ (2)
796 // D+ n -> n S+ K0 (2)
797 // D+ n -> n S0 K+ (2)
798
799 G4double a = 39.54;
800 G4double b = 2.799;
801 G4double c = 6.303;
802 G4double n_channel = 11.;
803
804// assert((p1->isNucleon() && p2->isResonance()) || (p2->isNucleon() && p1->isResonance()));
805
806 G4double sigma = 0.;
807
808 const G4double s = KinematicsUtils::squareTotalEnergyInCM(p1 ,p2); // Mev^^2
809 const G4double s0 = 6.935E6; // Mev^2
810 const G4int iso = ParticleTable::getIsospin(p1->getType()) + ParticleTable::getIsospin(p2->getType());
811
812 if(s <= s0)
813 return 0.;
814
815 sigma = n_channel*a*std::pow(s/s0-1,b)*std::pow(s0/s,c);
816
817 //const G4double pLab = sdt::sqrt(s*s/(4*ParticleTable::effectiveNucleonMass2)-s)*0.001;
818 //sigma = 22./12./2. * 4.75*6.38*std::pow(pLab-2.593,2.1)/std::pow(pLab,4.162); // NDelta sim to NN
819
820 if(iso == 0)// D+ n
821 sigma *= 9./31.;
822 else if (ParticleTable::getIsospin(p1->getType()) == ParticleTable::getIsospin(p2->getType()))// D+ p
823 sigma *= 7./31.;
824 else if (std::abs(iso) == 2)// D++ n
825 sigma *= 9./31.;
826 else // D++ p
827 sigma *= 6./31.;
828
829 return sigma;
830 }

Referenced by G4INCL::CrossSectionsAntiparticles::total(), and total().

◆ NKbelastic()

G4double G4INCL::CrossSectionsStrangeness::NKbelastic ( Particle const *const p1,
Particle const *const p2 )
virtual

Reimplemented from G4INCL::CrossSectionsMultiPions.

Definition at line 372 of file G4INCLCrossSectionsStrangeness.cc.

372 {
373 //
374 // antiKaon-Nucleon elastic cross sections
375 //
376// assert((p1->isNucleon() && p2->isAntiKaon()) || (p1->isAntiKaon() && p2->isNucleon()));
377
378 G4double sigma=0.;
379
380 const Particle *antikaon;
381 const Particle *nucleon;
382
383 if (p1->isAntiKaon()) {
384 antikaon = p1;
385 nucleon = p2;
386 }
387 else {
388 antikaon = p2;
389 nucleon = p1;
390 }
391
392 const G4double pLab = 0.001*KinematicsUtils::momentumInLab(antikaon, nucleon); // GeV
393
394 if(pLab > 1E-6) // sigma = 287.823 [mb] -> rise very slowly, not cut needed
395 sigma = 6.132*std::pow(pLab,-0.2437)+12.98*std::exp(-std::pow(pLab-0.9902,2)/0.05558)+2.928*std::exp(-std::pow(pLab-1.649,2)/0.772)+564.3*std::exp(-std::pow(pLab+0.9901,2)/0.5995);
396
397 if (sigma < 0.) sigma = 0.; // should never happen
398 return sigma;
399 }
G4double momentumInLab(Particle const *const p1, Particle const *const p2)
gives the momentum in the lab frame of two particles.
G4bool nucleon(G4int ityp)

Referenced by G4INCL::CrossSectionsAntiparticles::elastic(), and elastic().

◆ NKbToL2pi()

G4double G4INCL::CrossSectionsStrangeness::NKbToL2pi ( Particle const *const p1,
Particle const *const p2 )
virtual

Reimplemented from G4INCL::CrossSectionsMultiPions.

Definition at line 1865 of file G4INCLCrossSectionsStrangeness.cc.

1865 {
1866 //
1867 // Nucleon-antiKaon producing Lambda-2pion cross sections
1868 //
1869 // ratio
1870 // p K0b -> L pi+ pi0 (1)
1871 // p K- -> L pi+ pi- (1)
1872 // p K- -> L pi0 pi0 (1/4)
1873
1874// assert((p1->isNucleon() && p2->isAntiKaon()) || (p1->isAntiKaon() && p2->isNucleon()));
1875
1876 G4double sigma = 0.;
1877 const G4int iso=ParticleTable::getIsospin(p1->getType()) + ParticleTable::getIsospin(p2->getType());
1878
1879 const Particle *antikaon;
1880 const Particle *nucleon;
1881
1882 if (p1->isAntiKaon()) {
1883 antikaon = p1;
1884 nucleon = p2;
1885 }
1886 else {
1887 antikaon = p2;
1888 nucleon = p1;
1889 }
1890
1891 if(iso == 0)
1892 sigma = 1.25*p_kmToL_pp_pm(antikaon,nucleon);
1893 else
1894 sigma = p_kmToL_pp_pm(antikaon,nucleon);
1895
1896 return sigma;
1897 }
virtual G4double p_kmToL_pp_pm(Particle const *const p1, Particle const *const p2)

Referenced by G4INCL::CrossSectionsAntiparticles::total(), and total().

◆ NKbToLpi()

G4double G4INCL::CrossSectionsStrangeness::NKbToLpi ( Particle const *const p1,
Particle const *const p2 )
virtual

Reimplemented from G4INCL::CrossSectionsMultiPions.

Definition at line 1764 of file G4INCLCrossSectionsStrangeness.cc.

1764 {
1765 //
1766 // Nucleon-antiKaon producing Lambda-pion cross sections
1767 //
1768 // ratio
1769 // p K0b (1) p K- (1/2)
1770 //
1771 // p K- -> L pi0 (1/2)
1772 // p K0b -> L pi+ (1)
1773// assert((p1->isNucleon() && p2->isAntiKaon()) || (p1->isAntiKaon() && p2->isNucleon()));
1774
1775 G4double sigma = 0.;
1776 const G4int iso=ParticleTable::getIsospin(p1->getType()) + ParticleTable::getIsospin(p2->getType());
1777
1778 const Particle *antikaon;
1779 const Particle *nucleon;
1780
1781 if (p1->isAntiKaon()) {
1782 antikaon = p1;
1783 nucleon = p2;
1784 }
1785 else {
1786 antikaon = p2;
1787 nucleon = p1;
1788 }
1789 if(iso == 0)
1790 sigma = p_kmToL_pz(antikaon,nucleon);
1791 else
1792 sigma = 2*p_kmToL_pz(antikaon,nucleon);
1793
1794 return sigma;
1795 }
virtual G4double p_kmToL_pz(Particle const *const p1, Particle const *const p2)

Referenced by G4INCL::CrossSectionsAntiparticles::total(), and total().

◆ NKbToNKb()

G4double G4INCL::CrossSectionsStrangeness::NKbToNKb ( Particle const *const p1,
Particle const *const p2 )
virtual

Nucleon-antiKaon cross sections.

NKb cross sections.

Reimplemented from G4INCL::CrossSectionsMultiPions.

Definition at line 1663 of file G4INCLCrossSectionsStrangeness.cc.

1663 {
1664 //
1665 // Nucleon-antiKaon quasi-elastic cross sections
1666 //
1667// assert((p1->isNucleon() && p2->isAntiKaon()) || (p1->isAntiKaon() && p2->isNucleon()));
1668
1669 G4double sigma=0.;
1670 const G4int iso=ParticleTable::getIsospin(p1->getType()) + ParticleTable::getIsospin(p2->getType());
1671
1672 const Particle *antikaon;
1673 const Particle *nucleon;
1674
1675 if (p1->isAntiKaon()) {
1676 antikaon = p1;
1677 nucleon = p2;
1678 }
1679 else {
1680 antikaon = p2;
1681 nucleon = p1;
1682 }
1683
1684 const G4double pLab = 0.001*KinematicsUtils::momentumInLab(antikaon, nucleon); // GeV
1685
1686 if(iso != 0) // K0b p and K- n -> forbidden: quasi-elastic diffusion only
1687 return 0;
1688 else if(nucleon->getType() == Proton){ // K- p -> K0b n
1689 if(pLab < 0.08921)
1690 return 0.;
1691 else if(pLab < 0.2)
1692 sigma = 0.4977*std::pow(pLab - 0.08921,0.5581)/std::pow(pLab,2.704);
1693 else if(pLab < 0.73)
1694 sigma = 2.*std::pow(pLab,-1.2) + 6.493*std::exp(-0.5*std::pow((pLab-0.3962)/0.02,2));
1695 else if(pLab < 1.38)
1696 sigma = 2.3*std::pow(pLab,-0.9) + 1.1*std::exp(-0.5*std::pow((pLab-0.82)/0.04,2)) + 5.*std::exp(-0.5*std::pow((pLab-1.04)/0.1,2));
1697 else if(pLab < 30.)
1698 sigma = 2.5*std::pow(pLab,-1.68) + 0.7*std::exp(-0.5*std::pow((pLab-1.6)/0.2,2)) + 0.2*std::exp(-0.5*std::pow((pLab-2.3)/0.2,2));
1699 else sigma = 0.;
1700 }
1701 else{ // K0b n -> K- p (same as K- p but without threshold)
1702 if(pLab < 0.1)
1703 sigma = 30.;
1704 else if(pLab < 0.73)
1705 sigma = 2.*std::pow(pLab,-1.2) + 6.493*std::exp(-0.5*std::pow((pLab-0.3962)/0.02,2));
1706 else if(pLab < 1.38)
1707 sigma = 2.3*std::pow(pLab,-0.9) + 1.1*std::exp(-0.5*std::pow((pLab-0.82)/0.04,2)) + 5.*std::exp(-0.5*std::pow((pLab-1.04)/0.1,2));
1708 else if(pLab < 30.)
1709 sigma = 2.5*std::pow(pLab,-1.68) + 0.7*std::exp(-0.5*std::pow((pLab-1.6)/0.2,2)) + 0.2*std::exp(-0.5*std::pow((pLab-2.3)/0.2,2));
1710 else sigma = 0.;
1711 }
1712 return sigma;
1713 }

Referenced by G4INCL::CrossSectionsAntiparticles::total(), and total().

◆ NKbToNKb2pi()

G4double G4INCL::CrossSectionsStrangeness::NKbToNKb2pi ( Particle const *const p1,
Particle const *const p2 )
virtual

Reimplemented from G4INCL::CrossSectionsMultiPions.

Definition at line 1957 of file G4INCLCrossSectionsStrangeness.cc.

1957 {
1958 //
1959 // Nucleon-antiKaon producing Nucleon-antiKaon-2pion cross sections
1960 //
1961 // ratio
1962 // p K0b (4.25) p K- (4.75)
1963 //
1964 // p K0b -> p K0b pi+ pi- (1)
1965 // p K0b -> p K0b pi0 pi0 (1/4)
1966 // p K0b -> p K- pi+ pi0 (1)
1967 // p K0b -> n K0b pi+ pi0 (1)
1968 // p K0b -> n K- pi+ pi+ (1)
1969 // p K- -> p K0b pi0 pi- (1)
1970 // p K- -> p K- pi+ pi- (1)
1971 // p K- -> p K- pi0 pi0 (1/4)
1972 // p K- -> n K0b pi+ pi- (1)
1973 // p K- -> n K0b pi0 pi0 (1/2)
1974 // p K- -> n K- pi+ pi0 (1)
1975
1976// assert((p1->isNucleon() && p2->isAntiKaon()) || (p1->isAntiKaon() && p2->isNucleon()));
1977
1978 G4double sigma=0.;
1979 const G4int iso=ParticleTable::getIsospin(p1->getType()) + ParticleTable::getIsospin(p2->getType());
1980
1981 const Particle *antikaon;
1982 const Particle *nucleon;
1983
1984 if (p1->isAntiKaon()) {
1985 antikaon = p1;
1986 nucleon = p2;
1987 }
1988 else {
1989 antikaon = p2;
1990 nucleon = p1;
1991 }
1992
1993 const G4double pLab = 0.001*KinematicsUtils::momentumInLab(antikaon, nucleon); // GeV
1994
1995 if(pLab < 0.85)
1996 return 0.;
1997
1998 if(iso == 0)
1999 sigma = 4.75 * 26.8*std::pow(pLab-0.85,4.9)/std::pow(pLab,6.34);
2000 else
2001 sigma = 4.25 * 26.8*std::pow(pLab-0.85,4.9)/std::pow(pLab,6.34);
2002
2003 return sigma;
2004 }

Referenced by G4INCL::CrossSectionsAntiparticles::total(), and total().

◆ NKbToNKbpi()

G4double G4INCL::CrossSectionsStrangeness::NKbToNKbpi ( Particle const *const p1,
Particle const *const p2 )
virtual

Reimplemented from G4INCL::CrossSectionsMultiPions.

Definition at line 1911 of file G4INCLCrossSectionsStrangeness.cc.

1911 {
1912 //
1913 // Nucleon-antiKaon producing Nucleon-antiKaon-pion cross sections
1914 //
1915 // ratio
1916 // p K- (28) p K0b (20)
1917 //
1918 // p K- -> p K- pi0 (6)*
1919 // p K- -> p K0b pi- (7)*
1920 // p K- -> n K- pi+ (9)*
1921 // p K- -> n K0b pi0 (6)
1922 // p K0b -> p K0b pi0 (4)
1923 // p K0b -> p K- pi+ (10)*
1924 // p K0b -> n K0b pi+ (6)*
1925 //
1926
1927// assert((p1->isNucleon() && p2->isAntiKaon()) || (p1->isAntiKaon() && p2->isNucleon()));
1928
1929 G4double sigma=0.;
1930 const G4int iso=ParticleTable::getIsospin(p1->getType()) + ParticleTable::getIsospin(p2->getType());
1931
1932 const Particle *antikaon;
1933 const Particle *nucleon;
1934
1935 if (p1->isAntiKaon()) {
1936 antikaon = p1;
1937 nucleon = p2;
1938 }
1939 else {
1940 antikaon = p2;
1941 nucleon = p1;
1942 }
1943
1944 const G4double pLab = 0.001*KinematicsUtils::momentumInLab(antikaon, nucleon); // GeV
1945
1946 if(pLab < 0.526)
1947 return 0.;
1948
1949 if(iso == 0)
1950 sigma = 28. * 10.13*std::pow(pLab-0.526,5.846)/std::pow(pLab,8.343);
1951 else
1952 sigma = 20. * 10.13*std::pow(pLab-0.526,5.846)/std::pow(pLab,8.343);
1953
1954 return sigma;
1955 }

Referenced by G4INCL::CrossSectionsAntiparticles::total(), and total().

◆ NKbToS2pi()

G4double G4INCL::CrossSectionsStrangeness::NKbToS2pi ( Particle const *const p1,
Particle const *const p2 )
virtual

Reimplemented from G4INCL::CrossSectionsMultiPions.

Definition at line 1813 of file G4INCLCrossSectionsStrangeness.cc.

1813 {
1814 //
1815 // Nucleon-antiKaon producing Sigma-2pion cross sections
1816 //
1817 // ratio
1818 // p K0b (29/12) p K- (59/24)
1819 //
1820 // p K0b -> S+ pi+ pi- (2/3)
1821 // p K0b -> S+ pi0 pi0 (1/4)
1822 // p K0b -> S0 pi+ pi0 (5/6)
1823 // p K0b -> S- pi+ pi+ (2/3)
1824 // p K- -> S+ pi0 pi- (1)
1825 // p K- -> S0 pi+ pi- (2/3)
1826 // p K- -> S0 pi0 pi0 (1/8)
1827 // p K- -> S- pi+ pi0 (2/3)
1828
1829// assert((p1->isNucleon() && p2->isAntiKaon()) || (p1->isAntiKaon() && p2->isNucleon()));
1830
1831 G4double sigma=0.;
1832 const G4int iso=ParticleTable::getIsospin(p1->getType()) + ParticleTable::getIsospin(p2->getType());
1833
1834 const Particle *antikaon;
1835 const Particle *nucleon;
1836
1837 if (p1->isAntiKaon()) {
1838 antikaon = p1;
1839 nucleon = p2;
1840 }
1841 else {
1842 antikaon = p2;
1843 nucleon = p1;
1844 }
1845
1846 const G4double pLab = 0.001*KinematicsUtils::momentumInLab(antikaon, nucleon); // GeV
1847
1848 if(pLab < 0.260)
1849 return 0.;
1850
1851 if(iso == 0)
1852 sigma = 29./12.*3./2.*(49.96*std::pow(pLab-0.260,6.398)/std::pow(pLab+0.260,9.732)+0.1451*std::exp(-std::pow(pLab-0.4031,2)/0.00115));
1853 else
1854 sigma = 54./24.*3./2.*(49.96*std::pow(pLab-0.260,6.398)/std::pow(pLab+0.260,9.732)+0.1451*std::exp(-std::pow(pLab-0.4031,2)/0.00115));
1855
1856 /*
1857 if(iso == 0)
1858 sigma = 29./12.*(85.46*std::pow(pLab-0.226,8.118)/std::pow(pLab+0.226,11.69)+0.1451*std::exp(-std::pow(pLab-0.4031,2)/0.00115));
1859 else
1860 sigma = 54./24.*(85.46*std::pow(pLab-0.226,8.118)/std::pow(pLab+0.226,11.69)+0.1451*std::exp(-std::pow(pLab-0.4031,2)/0.00115));*/
1861
1862 return sigma;
1863 }

Referenced by G4INCL::CrossSectionsAntiparticles::total(), and total().

◆ NKbToSpi()

G4double G4INCL::CrossSectionsStrangeness::NKbToSpi ( Particle const *const p1,
Particle const *const p2 )
virtual

Reimplemented from G4INCL::CrossSectionsMultiPions.

Definition at line 1715 of file G4INCLCrossSectionsStrangeness.cc.

1715 {
1716 //
1717 // Nucleon-antiKaon producing Sigma-pion cross sections
1718 //
1719 // ratio
1720 // p K0b (4/3) p K- (13/6)
1721 //
1722 // p K0b -> S+ pi0 (2/3)
1723 // p K0b -> S0 pi+ (2/3)
1724 // p K- -> S+ pi- (1)
1725 // p K- -> S0 pi0 (1/2)
1726 // p K- -> S- pi+ (2/3)
1727
1728// assert((p1->isNucleon() && p2->isAntiKaon()) || (p1->isAntiKaon() && p2->isNucleon()));
1729
1730 G4double sigma=0.;
1731 const G4int iso=ParticleTable::getIsospin(p1->getType()) + ParticleTable::getIsospin(p2->getType());
1732
1733 const Particle *antikaon;
1734 const Particle *nucleon;
1735
1736 if (p1->isAntiKaon()) {
1737 antikaon = p1;
1738 nucleon = p2;
1739 }
1740 else {
1741 antikaon = p2;
1742 nucleon = p1;
1743 }
1744
1745 const G4double pLab = 0.001*KinematicsUtils::momentumInLab(antikaon, nucleon); // GeV
1746
1747 if(iso == 0){
1748 if(pLab < 0.1)
1749 return 152.0; // 70.166*13/6
1750 else
1751 sigma = 13./6.*(1.4*std::pow(pLab,-1.7)+1.88*std::exp(-std::pow(pLab-0.747,2)/0.005)+8*std::exp(-std::pow(pLab-0.4,2)/0.002)+0.8*std::exp(-std::pow(pLab-1.07,2)/0.01));
1752 }
1753 else{
1754 if(pLab < 0.1)
1755 return 93.555; // 70.166*4/3
1756 else
1757 sigma = 4./3.*(1.4*std::pow(pLab,-1.7)+1.88*std::exp(-std::pow(pLab-0.747,2)/0.005)+8*std::exp(-std::pow(pLab-0.4,2)/0.002)+0.8*std::exp(-std::pow(pLab-1.07,2)/0.01));
1758 //sigma = 4./3.*(1.4*std::pow(pLab,-1.7)+1.88*std::exp(-std::pow(pLab-0.747,2)/0.005)+0.8*std::exp(-std::pow(pLab-1.07,2)/0.01));
1759 }
1760
1761 return sigma;
1762 }

Referenced by G4INCL::CrossSectionsAntiparticles::total(), and total().

◆ NKelastic()

G4double G4INCL::CrossSectionsStrangeness::NKelastic ( Particle const *const p1,
Particle const *const p2 )
virtual

Reimplemented from G4INCL::CrossSectionsMultiPions.

Definition at line 335 of file G4INCLCrossSectionsStrangeness.cc.

335 {
336 //
337 // Kaon-Nucleon elastic cross sections
338 //
339// assert((p1->isNucleon() && p2->isKaon()) || (p1->isKaon() && p2->isNucleon()));
340
341 G4double sigma=0.;
342
343 const Particle *kaon;
344 const Particle *nucleon;
345
346 if (p1->isKaon()) {
347 kaon = p1;
348 nucleon = p2;
349 }
350 else {
351 kaon = p2;
352 nucleon = p1;
353 }
354
355 const G4double pLab = KinematicsUtils::momentumInLab(kaon, nucleon); // MeV
356
357 if (pLab < 935.)
358 sigma = 12.;
359 else if (pLab < 2080.)
360 sigma = 17.4-3.*std::exp(6.3e-4*pLab);
361 else if (pLab < 5500.)
362 sigma = 832.*std::pow(pLab,-0.64);
363 else if (pLab < 30000.)
364 sigma = 3.36;
365 else
366 sigma=0.;
367
368 if (sigma < 0.) sigma = 0.; // should never happen
369 return sigma;
370 }

Referenced by G4INCL::CrossSectionsAntiparticles::elastic(), and elastic().

◆ NKToNK()

G4double G4INCL::CrossSectionsStrangeness::NKToNK ( Particle const *const p1,
Particle const *const p2 )
virtual

Nucleon-Kaon cross sections.

NK cross sections.

Reimplemented from G4INCL::CrossSectionsMultiPions.

Definition at line 1526 of file G4INCLCrossSectionsStrangeness.cc.

1526 {
1527 //
1528 // Nucleon-Kaon quasi-elastic cross sections
1529 //
1530// assert((p1->isNucleon() && p2->isKaon()) || (p2->isNucleon() && p1->isKaon()));
1531
1532 const G4int iso=ParticleTable::getIsospin(p1->getType()) + ParticleTable::getIsospin(p2->getType());
1533
1534 if(iso != 0)
1535 return 0.;
1536
1537 const Particle *particle1;
1538 const Particle *particle2;
1539
1540 if(p1->isKaon()){
1541 particle1 = p1;
1542 particle2 = p2;
1543 }
1544 else{
1545 particle1 = p2;
1546 particle2 = p1;
1547 }
1548
1549 G4double sigma = 0.;
1550 G4double pLab = 0.001 * KinematicsUtils::momentumInLab(particle1,particle2); // GeV
1551
1552 if(particle1->getType() == Proton)
1553 pLab += 2*0.0774;
1554
1555 if(pLab <= 0.0774)
1556 return 0.;
1557
1558 sigma = 12.84*std::pow((pLab-0.0774),18.19)/std::pow((pLab),20.41);
1559
1560 return sigma;
1561 }

Referenced by G4INCL::CrossSectionsAntiparticles::total(), and total().

◆ NKToNK2pi()

G4double G4INCL::CrossSectionsStrangeness::NKToNK2pi ( Particle const *const p1,
Particle const *const p2 )
virtual

Reimplemented from G4INCL::CrossSectionsMultiPions.

Definition at line 1607 of file G4INCLCrossSectionsStrangeness.cc.

1607 {
1608 //
1609 // Nucleon-Kaon producing Nucleon-Kaon-2pion cross sections
1610 //
1611 // p K+ (2.875) p K0 (3.125)
1612 //
1613 // p K+ -> p K+ pi+ pi- (1)
1614 // p K+ -> p K+ pi0 pi0 (1/8)
1615 // p K+ -> p K0 pi+ pi0 (1)
1616 // p K+ -> n K+ pi+ pi0 (1/2)
1617 // p K+ -> n K0 pi+ pi+ (1/4)
1618 // p K0 -> p K+ pi0 pi- (1)
1619 // p K0 -> p K0 pi+ pi- (1)
1620 // p K0 -> p K0 pi0 pi0 (1/8)
1621 // p K0 -> n K+ pi+ pi- (1/4)
1622 // p K0 -> n K+ pi0 pi0 (1/4)
1623 // p K0 -> n K0 pi+ pi0 (1/2)
1624
1625// assert((p1->isNucleon() && p2->isKaon()) || (p2->isNucleon() && p1->isKaon()));
1626
1627 const G4int iso=ParticleTable::getIsospin(p1->getType()) + ParticleTable::getIsospin(p2->getType());
1628
1629 const Particle *particle1;
1630 const Particle *particle2;
1631
1632 if(p1->isKaon()){
1633 particle1 = p1;
1634 particle2 = p2;
1635 }
1636 else{
1637 particle1 = p2;
1638 particle2 = p1;
1639 }
1640
1641 G4double sigma = 0.;
1642 const G4double pLab = 0.001 * KinematicsUtils::momentumInLab(particle1,particle2); // GeV
1643
1644 if(pLab < 0.812)
1645 sigma = 0.;
1646 else if(pLab < 1.744)
1647 sigma = 26.41*std::pow(pLab-0.812,7.138)/std::pow(pLab,5.337);
1648 else if(pLab < 3.728)
1649 sigma = 1572.*std::pow(pLab-0.812,9.069)/std::pow(pLab,12.44);
1650 else
1651 sigma = 60.23*std::pow(pLab-0.812,5.084)/std::pow(pLab,6.72);
1652
1653 if(iso == 0)
1654 sigma *= 3.125;
1655 else
1656 sigma *= 2.875;
1657
1658 return sigma;
1659 }

Referenced by G4INCL::CrossSectionsAntiparticles::total(), and total().

◆ NKToNKpi()

G4double G4INCL::CrossSectionsStrangeness::NKToNKpi ( Particle const *const p1,
Particle const *const p2 )
virtual

Reimplemented from G4INCL::CrossSectionsMultiPions.

Definition at line 1563 of file G4INCLCrossSectionsStrangeness.cc.

1563 {
1564 //
1565 // Nucleon-Kaon producing Nucleon-Kaon-pion cross sections
1566 //
1567 // Ratio determined by meson symmetry using only "resonante" diagram (with Delta or K*)
1568 //
1569 // ratio: K+ p (5) K0 p (5.545)
1570 //
1571 // K+ p -> p K+ pi0 1.2
1572 // K+ p -> p K0 pi+ 3
1573 // K+ p -> n K+ pi+ 0.8
1574 // K0 p -> p K+ pi- 1
1575 // K0 p -> p K0 pi0 0.845
1576 // K0 p -> n K+ pi0 1.47
1577 // K0 p -> n K0 pi+ 2.23
1578// assert((p1->isNucleon() && p2->isKaon()) || (p2->isNucleon() && p1->isKaon()));
1579
1580 const G4int iso=ParticleTable::getIsospin(p1->getType()) + ParticleTable::getIsospin(p2->getType());
1581
1582 const Particle *particle1;
1583 const Particle *particle2;
1584
1585 if(p1->isKaon()){
1586 particle1 = p1;
1587 particle2 = p2;
1588 }
1589 else{
1590 particle1 = p2;
1591 particle2 = p1;
1592 }
1593
1594 G4double sigma = 0.;
1595 const G4double pLab = 0.001 * KinematicsUtils::momentumInLab(particle1,particle2); // GeV
1596
1597 if(pLab <= 0.53)
1598 return 0.;
1599
1600 if(iso == 0)
1601 sigma = 5.55*116.8*std::pow(pLab-0.53,6.874)/std::pow(pLab,10.11);
1602 else
1603 sigma = 5.*116.8*std::pow(pLab-0.53,6.874)/std::pow(pLab,10.11);;
1604 return sigma;
1605 }

Referenced by G4INCL::CrossSectionsAntiparticles::total(), and total().

◆ NLToNS()

G4double G4INCL::CrossSectionsStrangeness::NLToNS ( Particle const *const p1,
Particle const *const p2 )
virtual

Nucleon-Hyperon quasi-elastic cross sections.

NY cross sections.

Reimplemented from G4INCL::CrossSectionsMultiPions.

Definition at line 1423 of file G4INCLCrossSectionsStrangeness.cc.

1423 {
1424 //
1425 // Nucleon-Lambda producing Nucleon-Sigma cross sections
1426 //
1427 // ratio
1428 // p L -> p S0 (1/2)
1429 // p L -> n S+ (1)
1430
1431
1432// assert((p1->isLambda() && p2->isNucleon()) || (p2->isLambda() && p1->isNucleon()));
1433
1434 G4double sigma = 0.;
1435
1436 const Particle *particle1;
1437 const Particle *particle2;
1438
1439 if(p1->isLambda()){
1440 particle1 = p1;
1441 particle2 = p2;
1442 }
1443 else{
1444 particle1 = p2;
1445 particle2 = p1;
1446 }
1447
1448 const G4double pLab = 0.001 * KinematicsUtils::momentumInLab(particle1,particle2);
1449
1450 if(pLab < 0.664)
1451 return 0.;
1452
1453 sigma = 3 * 8.74*std::pow((pLab-0.664),0.438)/std::pow(pLab,2.717); // 3 * L p -> S0 p
1454
1455 return sigma;
1456 }

Referenced by G4INCL::CrossSectionsAntiparticles::total(), and total().

◆ NNToMissingStrangeness()

G4double G4INCL::CrossSectionsStrangeness::NNToMissingStrangeness ( Particle const *const p1,
Particle const *const p2 )
virtual

Reimplemented from G4INCL::CrossSectionsMultiPions.

Definition at line 700 of file G4INCLCrossSectionsStrangeness.cc.

700 {
701 //
702 // Nucleon-Nucleon missing strangeness production cross sections
703 //
704// assert(p1->isNucleon() && p2->isNucleon());
705
706 G4double sigma = 0.;
707
708 const G4double pLab = 0.001 * KinematicsUtils::momentumInLab(p1,p2); // GeV
709 const G4int iso = ParticleTable::getIsospin(p1->getType()) + ParticleTable::getIsospin(p2->getType());
710
711 if(pLab < 6.) return 0.;
712
713 if(iso == 0){
714 if(pLab < 30.) sigma = 10.15*std::pow((pLab - 6.),2.157)/std::pow(pLab,2.333);
715 else return 0.;
716 }
717 else{
718 if(pLab < 30.) sigma = 8.12*std::pow((pLab - 6.),2.157)/std::pow(pLab,2.333);
719 else return 0.;
720 }
721 return sigma;
722 }

Referenced by NNToxPiNN().

◆ NNToNLK()

G4double G4INCL::CrossSectionsStrangeness::NNToNLK ( Particle const *const p1,
Particle const *const p2 )
virtual

Nucleon-Nucleon to Stange particles cross sections.

NN to strange cross sections.

Reimplemented from G4INCL::CrossSectionsMultiPions.

Definition at line 403 of file G4INCLCrossSectionsStrangeness.cc.

403 {
404 //
405 // Nucleon-Nucleon producing N-Lambda-Kaon cross sections
406 //
407 // ratio
408 // p p (1) p n (1)
409 //
410 // p p -> p L K+ (1)
411 // p n -> p L K0 (1/2)
412 // p n -> n L K+ (1/2)
413// assert(p1->isNucleon() && p2->isNucleon());
414
415 const Particle *particle1;
416 const Particle *particle2;
417
418 if(p2->getType() == Proton && p1->getType() == Neutron){
419 particle1 = p2;
420 particle2 = p1;
421 }
422 else{
423 particle1 = p1;
424 particle2 = p2;
425 }
426
427 G4double sigma = 0.;
428
429 const G4double pLab = 0.001 * KinematicsUtils::momentumInLab(particle1, particle2); // GeV
430
431 if(particle2->getType() == Proton){
432 if(pLab < 2.3393) return 0.;
433 else if (pLab < 30.) sigma = 1.11875*std::pow((pLab-2.3393),1.0951)/std::pow((pLab+2.3393),2.0958); // pLab = 30 Gev -> exess of energie = 5 GeV
434 else return 0.;
435 }
436 else{
437 if(pLab < 2.3508) return 0.;
438 else if (pLab < 30.) sigma = 1.11875*std::pow((pLab-2.3508),1.0951)/std::pow((pLab+2.3508),2.0958);
439 else return 0.;
440 }
441
442 return sigma;
443 }

Referenced by NNToNLKpi(), and NNToxPiNN().

◆ NNToNLK2pi()

G4double G4INCL::CrossSectionsStrangeness::NNToNLK2pi ( Particle const *const p1,
Particle const *const p2 )
virtual

Reimplemented from G4INCL::CrossSectionsMultiPions.

Definition at line 597 of file G4INCLCrossSectionsStrangeness.cc.

597 {
598 //
599 // Nucleon-Nucleon producing N-Lambda-Kaon-pion cross sections
600 //
601// assert(p1->isNucleon() && p2->isNucleon());
602
603 G4double sigma = 0.;
604 G4double ratio = 0.;
605 G4double ratio1 = 0.;
606 G4double ratio2 = 0.;
607 const G4double ener = KinematicsUtils::totalEnergyInCM(p1, p2) - 675.;
608 if( ener < p1->getMass() + p2->getMass())
609 return 0;
610 const G4int iso = ParticleTable::getIsospin(p1->getType()) + ParticleTable::getIsospin(p2->getType());
611
613 if (iso != 0){
614 ratio1 = CrossSectionsMultiPions::NNOnePiOrDelta(ener, iso, xsiso2);
615 ratio2 = CrossSectionsMultiPions::NNTwoPi(ener, 2, xsiso2);
616 }
617 else {
619 ratio1 = 0.5*(CrossSectionsMultiPions::NNOnePiOrDelta(ener, 0, xsiso0)+ CrossSectionsMultiPions::NNOnePiOrDelta(ener, 2, xsiso2));
620 ratio2 = 0.5*(CrossSectionsMultiPions::NNTwoPi(ener, 0, xsiso0)+ CrossSectionsMultiPions::NNTwoPi(ener, 2, xsiso2));
621 }
622
623 if( ratio1 == 0 || ratio2 == 0)
624 return 0.;
625
626 ratio = ratio2/ratio1;
627
628 sigma = ratio * NNToNLKpi(p1,p2);
629
630 return sigma;
631 }
virtual G4double NNTwoPi(const G4double ener, const G4int iso, const G4double xsiso)
Cross section for direct 2-pion production - NN entrance channel.
virtual G4double NNOnePiOrDelta(const G4double ener, const G4int iso, const G4double xsiso)
Cross section for direct 1-pion production + delta production - NN entrance channel.
G4double NNInelasticIso(const G4double ener, const G4int iso)
Internal implementation of the isospin dependent NN reaction cross section.
virtual G4double NNToNLKpi(Particle const *const p1, Particle const *const p2)

Referenced by NNToxPiNN().

◆ NNToNLKpi()

G4double G4INCL::CrossSectionsStrangeness::NNToNLKpi ( Particle const *const p1,
Particle const *const p2 )
virtual

Reimplemented from G4INCL::CrossSectionsMultiPions.

Definition at line 491 of file G4INCLCrossSectionsStrangeness.cc.

491 {
492 //
493 // Nucleon-Nucleon producing N-Lambda-Kaon-pion cross sections
494 //
495 // ratio (pure NN -> DLK)
496 // pp (12) pn (8)
497 //
498 // pp -> p pi+ L K0 (9)(3)
499 // pp -> p pi0 L K+ (2)(1*2/3)
500 // pp -> n pi+ L K+ (1)(1*1/3)
501 //
502 // pn -> p pi- L K+ (2)(2*1/3)
503 // pn -> n pi0 L K+ (4)(2*2/3)
504 // pn -> p pi0 L K0 (4)
505 // pn -> n pi+ L K0 (2)
506
507// assert(p1->isNucleon() && p2->isNucleon());
508
509 G4double sigma = 0.;
510 G4double ratio = 0.;
511 G4double ratio1 = 0.;
512 G4double ratio2 = 0.;
513 const G4double ener = KinematicsUtils::totalEnergyInCM(p1, p2) - 540.;
514 if( ener < p1->getMass() + p2->getMass())
515 return 0;
516 const G4int iso = ParticleTable::getIsospin(p1->getType()) + ParticleTable::getIsospin(p2->getType());
517
519 if (iso != 0){
520 ratio1 = CrossSectionsMultiPions::NNOnePiOrDelta(ener, iso, xsiso2);
521 ratio2 = CrossSectionsMultiPions::NNTwoPi(ener, 2, xsiso2);
522 }
523 else {
525 ratio1 = 0.5*(CrossSectionsMultiPions::NNOnePiOrDelta(ener, 0, xsiso0)+ CrossSectionsMultiPions::NNOnePiOrDelta(ener, 2, xsiso2));
526 ratio2 = 0.5*(CrossSectionsMultiPions::NNTwoPi(ener, 0, xsiso0)+ CrossSectionsMultiPions::NNTwoPi(ener, 2, xsiso2));
527 }
528
529 if( ratio1 == 0 || ratio2 == 0)
530 return 0.;
531
532 ratio = ratio2/ratio1;
533
534 sigma = ratio * NNToNLK(p1,p2) * 3;
535
536/* const G4double pLab = 0.001 * KinematicsUtils::momentumInLab(p1, p2); // GeV
537 if(pLab <= 2.77) return 0.;
538 sigma = 0.4 * std::pow(pLab-2.77,1.603)/std::pow(pLab,1.492);*/
539
540 return sigma;
541 }
virtual G4double NNToNLK(Particle const *const p1, Particle const *const p2)
Nucleon-Nucleon to Stange particles cross sections.

Referenced by NNToNLK2pi(), and NNToxPiNN().

◆ NNToNNKKb()

G4double G4INCL::CrossSectionsStrangeness::NNToNNKKb ( Particle const *const p1,
Particle const *const p2 )
virtual

Reimplemented from G4INCL::CrossSectionsMultiPions.

Definition at line 669 of file G4INCLCrossSectionsStrangeness.cc.

669 {
670 //
671 // Nucleon-Nucleon producing Nucleon-Nucleon-Kaon-antiKaon cross sections
672 //
673 // Channel strongly resonant; fit from Sibirtesev - Z. Phys. A 358, 101-106 (1997) (eq.21)
674 // ratio
675 // pp (6) pn (13)*2
676 // pp -> pp K+ K- (1)
677 // pp -> pp K0 K0 (1)
678 // pp -> pn K+ K0 (4)
679 // pn -> pp K0 K- (4)
680 // pn -> pn K+ K- (9)
681 //
682
683// assert(p1->isNucleon() && p2->isNucleon());
684
685 G4double sigma = 0.;
686 const G4int iso = ParticleTable::getIsospin(p1->getType()) + ParticleTable::getIsospin(p2->getType());
687 const G4double ener = 0.001*KinematicsUtils::totalEnergyInCM(p1, p2); // GeV
688
689 if(ener < 2.872)
690 return 0.;
691
692 if(iso == 0)
693 sigma = 26 * 5./19. * 0.3 *std::pow(1.-2.872*2.872/(ener*ener),3.)*std::pow(2.872*2.872/(ener*ener),0.8);
694 else
695 sigma = 6 * 5./19. * 0.3 *std::pow(1.-2.872*2.872/(ener*ener),3.)*std::pow(2.872*2.872/(ener*ener),0.8);
696
697 return sigma;
698 }

Referenced by NNToxPiNN().

◆ NNToNSK()

G4double G4INCL::CrossSectionsStrangeness::NNToNSK ( Particle const *const p1,
Particle const *const p2 )
virtual

Reimplemented from G4INCL::CrossSectionsMultiPions.

Definition at line 445 of file G4INCLCrossSectionsStrangeness.cc.

445 {
446 //
447 // Nucleon-Nucleon producing N-Sigma-Kaon cross sections
448 //
449 // Meson symmetry
450 // pp->pS+K0 (1/4)
451 // pp->pS0K+ (1/8) // HEM
452 // pp->pS0K+ (1/4) // Data
453 // pp->nS+K+ (1)
454 //
455 // pn->nS+K0 (1/4)
456 // pn->pS-K+ (1/4)
457 // pn->nS0K+ (5/8)
458 // pn->pS0K0 (5/8)
459 //
460// assert(p1->isNucleon() && p2->isNucleon());
461
462 const Particle *particle1;
463 const Particle *particle2;
464
465 if(p2->getType() == Proton && p1->getType() == Neutron){
466 particle1 = p2;
467 particle2 = p1;
468 }
469 else{
470 particle1 = p1;
471 particle2 = p2;
472 }
473
474 G4double sigma = 0.;
475
476 const G4double pLab = 0.001 * KinematicsUtils::momentumInLab(particle1, particle2); // GeV
477
478 if(pLab < 2.593)
479 return 0.;
480
481 if(p2->getType() == p1->getType())
482// sigma = 1.375*2*6.38*std::pow(pLab-2.57,2.1)/std::pow(pLab,4.162);
483 sigma = 1.5*6.38*std::pow(pLab-2.593,2.1)/std::pow(pLab,4.162);
484 else
485 sigma = 1.75*6.38*std::pow(pLab-2.593,2.1)/std::pow(pLab,4.162);
486
487
488 return sigma;
489 }

Referenced by NNToNSKpi(), and NNToxPiNN().

◆ NNToNSK2pi()

G4double G4INCL::CrossSectionsStrangeness::NNToNSK2pi ( Particle const *const p1,
Particle const *const p2 )
virtual

Reimplemented from G4INCL::CrossSectionsMultiPions.

Definition at line 633 of file G4INCLCrossSectionsStrangeness.cc.

633 {
634 //
635 // Nucleon-Nucleon producing N-Sigma-Kaon-pion cross sections
636 //
637// assert(p1->isNucleon() && p2->isNucleon());
638
639 G4double sigma = 0.;
640 G4double ratio = 0.;
641 G4double ratio1 = 0.;
642 G4double ratio2 = 0.;
643 const G4double ener = KinematicsUtils::totalEnergyInCM(p1, p2) - 755.;
644 if( ener < p1->getMass() + p2->getMass())
645 return 0;
646 const G4int iso = ParticleTable::getIsospin(p1->getType()) + ParticleTable::getIsospin(p2->getType());
647
649 if (iso != 0){
650 ratio1 = CrossSectionsMultiPions::NNOnePiOrDelta(ener, iso, xsiso2);
651 ratio2 = CrossSectionsMultiPions::NNTwoPi(ener, 2, xsiso2);
652 }
653 else {
655 ratio1 = 0.5*(CrossSectionsMultiPions::NNOnePiOrDelta(ener, 0, xsiso0)+ CrossSectionsMultiPions::NNOnePiOrDelta(ener, 2, xsiso2));
656 ratio2 = 0.5*(CrossSectionsMultiPions::NNTwoPi(ener, 0, xsiso0)+ CrossSectionsMultiPions::NNTwoPi(ener, 2, xsiso2));
657 }
658
659 if( ratio1 == 0 || ratio2 == 0)
660 return 0.;
661
662 ratio = ratio2/ratio1;
663
664 sigma = ratio * NNToNSKpi(p1,p2);
665
666 return sigma;
667 }
virtual G4double NNToNSKpi(Particle const *const p1, Particle const *const p2)

Referenced by NNToxPiNN().

◆ NNToNSKpi()

G4double G4INCL::CrossSectionsStrangeness::NNToNSKpi ( Particle const *const p1,
Particle const *const p2 )
virtual

Reimplemented from G4INCL::CrossSectionsMultiPions.

Definition at line 543 of file G4INCLCrossSectionsStrangeness.cc.

543 {
544 //
545 // Nucleon-Nucleon producing N-Sigma-Kaon-pion cross sections
546 //
547 // ratio (pure NN -> DSK)
548 // pp (36) pn (36)
549 //
550 // pp -> p pi+ S- K+ (9)
551 // pp -> p pi+ S0 K0 (9)
552 // pp -> p pi0 S+ K0 (4)
553 // pp -> n pi+ S+ K0 (2)
554 // pp -> p pi0 S0 K+ (4)
555 // pp -> n pi+ S0 K+ (2)
556 // pp -> p pi- S+ K+ (2)
557 // pp -> n pi0 S+ K+ (4)
558
559 // pn -> p pi0 S- K+ (4)
560 // pn -> n pi+ S- K+ (2)
561 // pn -> p pi0 S0 K0 (2)
562 // pn -> n pi+ S0 K0 (1)
563 // pn -> p pi+ S- K0 (9)
564
565// assert(p1->isNucleon() && p2->isNucleon());
566
567 G4double sigma = 0.;
568 G4double ratio = 0.;
569 G4double ratio1 = 0.;
570 G4double ratio2 = 0.;
571 const G4double ener = KinematicsUtils::totalEnergyInCM(p1, p2) - 620.;
572 if( ener < p1->getMass() + p2->getMass())
573 return 0;
574 const G4int iso = ParticleTable::getIsospin(p1->getType()) + ParticleTable::getIsospin(p2->getType());
575
577 if (iso != 0){
578 ratio1 = CrossSectionsMultiPions::NNOnePiOrDelta(ener, iso, xsiso2);
579 ratio2 = CrossSectionsMultiPions::NNTwoPi(ener, 2, xsiso2);
580 }
581 else {
583 ratio1 = 0.5*(CrossSectionsMultiPions::NNOnePiOrDelta(ener, 0, xsiso0)+ CrossSectionsMultiPions::NNOnePiOrDelta(ener, 2, xsiso2));
584 ratio2 = 0.5*(CrossSectionsMultiPions::NNTwoPi(ener, 0, xsiso0)+ CrossSectionsMultiPions::NNTwoPi(ener, 2, xsiso2));
585 }
586
587 if( ratio1 == 0 || ratio2 == 0)
588 return 0.;
589
590 ratio = ratio2/ratio1;
591
592 sigma = ratio * NNToNSK(p1,p2) * 3;
593
594 return sigma;
595 }
virtual G4double NNToNSK(Particle const *const p1, Particle const *const p2)

Referenced by NNToNSK2pi(), and NNToxPiNN().

◆ NNToxPiNN()

G4double G4INCL::CrossSectionsStrangeness::NNToxPiNN ( const G4int xpi,
Particle const *const p1,
Particle const *const p2 )
virtual

Cross section for X pion production - NN Channel.

Reimplemented from G4INCL::CrossSectionsMultiPionsAndResonances.

Definition at line 213 of file G4INCLCrossSectionsStrangeness.cc.

213 {
214 //
215 // Nucleon-Nucleon producing xpi pions cross sections corrected
216 //
217// assert(xpi>0 && xpi<=nMaxPiNN);
218// assert(particle1->isNucleon() && particle2->isNucleon());
219
220 G4double oldXS1Pi=CrossSectionsMultiPions::NNToxPiNN(1,particle1, particle2);
221 G4double oldXS2Pi=CrossSectionsMultiPions::NNToxPiNN(2,particle1, particle2);
222 G4double oldXS3Pi=CrossSectionsMultiPions::NNToxPiNN(3,particle1, particle2);
223 G4double oldXS4Pi=CrossSectionsMultiPions::NNToxPiNN(4,particle1, particle2);
225
226 const G4double xs1=NNToNLK(particle1, particle2);
227 const G4double xs2=NNToNSK(particle1, particle2);
228 const G4double xs3=NNToNLKpi(particle1, particle2);
229 const G4double xs4=NNToNSKpi(particle1, particle2);
230 const G4double xs5=NNToNLK2pi(particle1, particle2);
231 const G4double xs6=NNToNSK2pi(particle1, particle2);
232 const G4double xs7=NNToNNKKb(particle1, particle2);
233 const G4double xs8=NNToMissingStrangeness(particle1, particle2);
234 const G4double xs0 = xs1 + xs2 + xs3 + xs4 + xs5 + xs6 + xs7 + xs8;
235 G4double newXS1Pi=0.;
236 G4double newXS2Pi=0.;
237 G4double newXS3Pi=0.;
238 G4double newXS4Pi=0.;
239
240 if (xpi == 1) {
241 if (oldXS4Pi != 0. || oldXS3Pi != 0.)
242 newXS1Pi=oldXS1Pi;
243 else if (oldXS2Pi != 0.) {
244 newXS2Pi=oldXS2Pi-xsEta-xs0;
245 if (newXS2Pi < 0.)
246 newXS1Pi=oldXS1Pi-(xsEta+xs0-oldXS2Pi);
247 else
248 newXS1Pi=oldXS1Pi;
249 }
250 else
251 newXS1Pi=oldXS1Pi-xsEta-xs0;
252 return newXS1Pi;
253 }
254 else if (xpi == 2) {
255 if (oldXS4Pi != 0.){
256 newXS2Pi=oldXS2Pi;
257 }
258 else if (oldXS3Pi != 0.) {
259 newXS3Pi=oldXS3Pi-xsEta-xs0;
260 if (newXS3Pi < 0.)
261 newXS2Pi = oldXS2Pi-(xsEta+xs0-oldXS3Pi);
262 else
263 newXS2Pi = oldXS2Pi;
264 }
265 else {
266 newXS2Pi = oldXS2Pi-xsEta-xs0;
267 if (newXS2Pi < 0.)
268 newXS2Pi = 0.;
269 }
270 return newXS2Pi;
271 }
272 else if (xpi == 3) {
273 if (oldXS4Pi != 0.) {
274 newXS4Pi=oldXS4Pi-xsEta-xs0;
275 if (newXS4Pi < 0.)
276 newXS3Pi=oldXS3Pi-(xsEta+xs0-oldXS4Pi);
277 else
278 newXS3Pi=oldXS3Pi;
279 }
280 else {
281 newXS3Pi=oldXS3Pi-xsEta-xs0;
282 if (newXS3Pi < 0.)
283 newXS3Pi=0.;
284 }
285 return newXS3Pi;
286 }
287 else if (xpi == 4) {
288 newXS4Pi=oldXS4Pi-xsEta-xs0;
289 if (newXS4Pi < 0.)
290 newXS4Pi=0.;
291 return newXS4Pi;
292 }
293
294 else // should never reach this point
295 return 0.;
296 }
virtual G4double NNToNNEta(Particle const *const particle1, Particle const *const particle2)
Cross section for Eta production (inclusive) - NN entrance channel.
virtual G4double NNToNNOmega(Particle const *const particle1, Particle const *const particle2)
Cross section for Omega production (inclusive) - NN entrance channel.
virtual G4double NNToxPiNN(const G4int xpi, Particle const *const p1, Particle const *const p2)
Cross section for X pion production - NN Channel.
virtual G4double NNToNLK2pi(Particle const *const p1, Particle const *const p2)
virtual G4double NNToNSK2pi(Particle const *const p1, Particle const *const p2)
virtual G4double NNToNNKKb(Particle const *const p1, Particle const *const p2)
virtual G4double NNToMissingStrangeness(Particle const *const p1, Particle const *const p2)

◆ NpiToLK()

G4double G4INCL::CrossSectionsStrangeness::NpiToLK ( Particle const *const p1,
Particle const *const p2 )
virtual

Nucleon-Pion to Stange particles cross sections.

piN to strange cross sections

Reimplemented from G4INCL::CrossSectionsMultiPions.

Definition at line 987 of file G4INCLCrossSectionsStrangeness.cc.

987 {
988 //
989 // Pion-Nucleon producing Lambda-Kaon cross sections
990 //
991 // ratio
992 // p pi0 -> L K+ (1/2)
993 // p pi- -> L K0 (1)
994
995// assert((p1->isPion() && p2->isNucleon()) || (p2->isPion() && p1->isNucleon()));
996
997 const Particle *pion;
998 const Particle *nucleon;
999 const G4int iso=ParticleTable::getIsospin(p1->getType()) + ParticleTable::getIsospin(p2->getType());
1000 if(iso == 3 || iso == -3)
1001 return 0.;
1002
1003 if(p1->isPion()){
1004 pion = p1;
1005 nucleon = p2;
1006 }
1007 else{
1008 nucleon = p1;
1009 pion = p2;
1010 }
1011 G4double sigma = 0.;
1012
1013 if(pion->getType() == PiZero)
1014 sigma = 0.5 * p_pimToLK0(pion,nucleon);
1015 else
1016 sigma = p_pimToLK0(pion,nucleon);
1017 return sigma;
1018 }
G4double p_pimToLK0(Particle const *const p1, Particle const *const p2)

Referenced by piNToxPiN().

◆ NpiToLK2pi()

G4double G4INCL::CrossSectionsStrangeness::NpiToLK2pi ( Particle const *const p1,
Particle const *const p2 )
virtual

Reimplemented from G4INCL::CrossSectionsMultiPions.

Definition at line 1225 of file G4INCLCrossSectionsStrangeness.cc.

1225 {
1226 //
1227 // Pion-Nucleon producing Lambda-Kaon-2pion cross sections
1228 //
1229 // p pi+ (2) p pi0 (1.75) p pi- (2.5)
1230 //
1231 // p pi+ -> L K+ pi+ pi0 (1)
1232 // p pi+ -> L K0 pi+ pi+ (1)
1233 // p pi0 -> L K+ pi0 pi0 (1/4)
1234 // p pi0 -> L K+ pi+ pi- (1)
1235 // p pi0 -> L K0 pi+ pi0 (1/2)
1236 // p pi- -> L K+ pi0 pi- (1)
1237 // p pi- -> L K0 pi+ pi- (1)
1238 // p pi- -> L K0 pi0 pi0 (1/2)
1239
1240// assert((p1->isPion() && p2->isNucleon()) || (p2->isPion() && p1->isNucleon()));
1241
1242 G4double sigma=0.;
1243 const Particle *pion;
1244 const Particle *nucleon;
1245
1246 if(p1->isPion()){
1247 pion = p1;
1248 nucleon = p2;
1249 }
1250 else{
1251 nucleon = p1;
1252 pion = p2;
1253 }
1254 const G4int iso=ParticleTable::getIsospin(p1->getType()) + ParticleTable::getIsospin(p2->getType());
1255 const G4double pLab = 0.001*KinematicsUtils::momentumInLab(pion, nucleon); // GeV
1256
1257 if(pLab <= 1.4162)
1258 return 0.;
1259
1260 if(iso == 3 || iso == -3)
1261 sigma = 2*18.77*std::pow(pLab-1.4162,4.597)/std::pow(pLab,6.877);
1262 else if(pion->getType() == PiZero)
1263 sigma = 1.75*18.77*std::pow(pLab-1.4162,4.597)/std::pow(pLab,6.877);
1264 else
1265 sigma = 2.5*18.77*std::pow(pLab-1.4162,4.597)/std::pow(pLab,6.877);
1266
1267 return sigma;
1268 }

Referenced by piNToxPiN().

◆ NpiToLKpi()

G4double G4INCL::CrossSectionsStrangeness::NpiToLKpi ( Particle const *const p1,
Particle const *const p2 )
virtual

Reimplemented from G4INCL::CrossSectionsMultiPions.

Definition at line 1134 of file G4INCLCrossSectionsStrangeness.cc.

1134 {
1135 //
1136 // Pion-Nucleon producing Lambda-Kaon-pion cross sections
1137 //
1138 // ratio
1139 // p pi+ (1) p pi0 (3/2) p pi- (2)
1140 //
1141 // p pi0 -> L K+ pi0 (1/2)
1142 // all the others (1)
1143 //
1144// assert((p1->isPion() && p2->isNucleon()) || (p2->isPion() && p1->isNucleon()));
1145
1146 G4double sigma=0.;
1147 const Particle *pion;
1148 const Particle *nucleon;
1149
1150 if(p1->isPion()){
1151 pion = p1;
1152 nucleon = p2;
1153 }
1154 else{
1155 nucleon = p1;
1156 pion = p2;
1157 }
1158 const G4int iso=ParticleTable::getIsospin(p1->getType()) + ParticleTable::getIsospin(p2->getType());
1159 const G4double pLab = 0.001*KinematicsUtils::momentumInLab(pion, nucleon); // GeV
1160
1161 if(pLab < 1.147)
1162 return 0.;
1163
1164 if(iso == 3 || iso == -3)
1165 sigma = 146.2*std::pow(pLab-1.147,1.996)/std::pow(pLab+1.147,5.921);
1166 else if(pion->getType() == PiZero)
1167 sigma = 1.5*146.2*std::pow(pLab-1.147,1.996)/std::pow(pLab+1.147,5.921);
1168 else
1169 sigma = 2*146.2*std::pow(pLab-1.147,1.996)/std::pow(pLab+1.147,5.921);
1170
1171 return sigma;
1172 }

Referenced by piNToxPiN().

◆ NpiToMissingStrangeness()

G4double G4INCL::CrossSectionsStrangeness::NpiToMissingStrangeness ( Particle const *const p1,
Particle const *const p2 )
virtual

Reimplemented from G4INCL::CrossSectionsMultiPions.

Definition at line 1383 of file G4INCLCrossSectionsStrangeness.cc.

1383 {
1384 //
1385 // Pion-Nucleon missing strangeness production cross sections
1386 //
1387// assert((p1->isPion() && p2->isNucleon()) || (p2->isPion() && p1->isNucleon()));
1388
1389 const Particle *pion;
1390 const Particle *nucleon;
1391
1392 if(p1->isPion()){
1393 pion = p1;
1394 nucleon = p2;
1395 }
1396 else{
1397 pion = p2;
1398 nucleon = p1;
1399 }
1400
1401 G4double sigma = 0.;
1402
1403 const G4double pLab = 0.001 * KinematicsUtils::momentumInLab(pion,nucleon); // GeV
1404 if(pLab < 2.2) return 0.;
1405
1406 if(pion->getType() == PiZero){
1407 if(pLab < 30.) sigma = 4.4755*std::pow((pLab - 2.2),1.927)/std::pow(pLab,1.89343);
1408 else return 0.;
1409 }
1410 else if((pion->getType() == PiPlus && nucleon->getType() == Neutron) || (pion->getType() == PiMinus && nucleon->getType() == Proton)){
1411 if(pLab < 30.) sigma = 5.1*std::pow((pLab - 2.2),1.854)/std::pow(pLab,1.904);
1412 else return 0.;
1413 }
1414 else{
1415 if(pLab < 30.) sigma = 3.851*std::pow((pLab - 2.2),2)/std::pow(pLab,1.88286);
1416 else return 0.;
1417 }
1418 return sigma;
1419 }

Referenced by piNToxPiN().

◆ NpiToNKKb()

G4double G4INCL::CrossSectionsStrangeness::NpiToNKKb ( Particle const *const p1,
Particle const *const p2 )
virtual

Reimplemented from G4INCL::CrossSectionsMultiPions.

Definition at line 1332 of file G4INCLCrossSectionsStrangeness.cc.

1332 {
1333 //
1334 // Pion-Nucleon producing Nucleon-Kaon-antiKaon cross sections
1335 //
1336 // ratio
1337 // p pi+ (1/2) p pi0 (3/2) p pi- (5/2)
1338 //
1339 // p pi+ -> p K+ K0b (1/2)
1340 // p pi0 -> p K0 K0b (1/4)
1341 // p pi0 -> p K+ K- (1/4)
1342 // p pi0 -> n K+ K0b (1)
1343 // p pi- -> p K0 K- (1/2)
1344 // p pi- -> n K+ K- (1)
1345 // p pi- -> n K0 K0b (1)
1346
1347// assert((p1->isPion() && p2->isNucleon()) || (p2->isPion() && p1->isNucleon()));
1348
1349 const Particle *particle1;
1350 const Particle *particle2;
1351
1352 if(p1->isPion()){
1353 particle1 = p1;
1354 particle2 = p2;
1355 }
1356 else{
1357 particle1 = p2;
1358 particle2 = p1;
1359 }
1360
1361 G4double sigma = 0.;
1362
1363 const G4double pLab = 0.001 * KinematicsUtils::momentumInLab(particle1,particle2); // GeV
1364
1365 if(particle1->getType() == PiZero){
1366 if(pLab < 1.5066) return 0.;
1367 else if(pLab < 30.) sigma = 3./2.*2.996*std::pow((pLab - 1.5066),1.929)/std::pow(pLab,3.582);
1368 else return 0.;
1369 }
1370 else if((particle1->getType() == PiPlus && particle2->getType() == Neutron) || (particle1->getType() == PiMinus && particle2->getType() == Proton)){
1371 if(pLab < 1.5066) return 0.;
1372 else if(pLab < 30.) sigma = 5./2.*2.996*std::pow((pLab - 1.5066),1.929)/std::pow(pLab,3.582);
1373 else return 0.;
1374 }
1375 else{
1376 if(pLab < 1.5066) return 0.;
1377 else if(pLab < 30.) sigma = 1./2.*2.996*std::pow((pLab - 1.5066),1.929)/std::pow(pLab,3.582);
1378 else return 0.;
1379 }
1380 return sigma;
1381 }

Referenced by piNToxPiN().

◆ NpiToSK()

G4double G4INCL::CrossSectionsStrangeness::NpiToSK ( Particle const *const p1,
Particle const *const p2 )
virtual

Reimplemented from G4INCL::CrossSectionsMultiPions.

Definition at line 1033 of file G4INCLCrossSectionsStrangeness.cc.

1033 {
1034 //
1035 // Pion-Nucleon producing Sigma-Kaon cross sections
1036 //
1037 // ratio
1038 // p pi+ (5/3) p pi0 (11/6) p pi- (2)
1039 //
1040 // p pi+ -> S+ K+ (10)
1041 // p pi0 -> S+ K0 (6)*
1042 // p pi0 -> S0 K+ (5)
1043 // p pi- -> S0 K0 (6)*
1044 // p pi- -> S- K+ (6)
1045
1046// assert((p1->isPion() && p2->isNucleon()) || (p2->isPion() && p1->isNucleon()));
1047
1048 const Particle *pion;
1049 const Particle *nucleon;
1050 const G4int iso=ParticleTable::getIsospin(p1->getType()) + ParticleTable::getIsospin(p2->getType());
1051
1052 if(p1->isPion()){
1053 pion = p1;
1054 nucleon = p2;
1055 }
1056 else{
1057 nucleon = p1;
1058 pion = p2;
1059 }
1060 G4double sigma = 0.;
1061
1062 if(iso == 3 || iso == -3)
1063 sigma = p_pipToSpKp(pion,nucleon);
1064 else if(pion->getType() == PiZero)
1065 sigma = p_pizToSzKp(pion,nucleon)+p_pimToSzKz(pion,nucleon);
1066 else if(iso == 1 || iso == -1)
1067 sigma = p_pimToSzKz(pion,nucleon)+p_pimToSmKp(pion,nucleon);
1068 else // should never append
1069 sigma = 0.;
1070
1071 return sigma;
1072 }
virtual G4double p_pimToSzKz(Particle const *const p1, Particle const *const p2)
virtual G4double p_pizToSzKp(Particle const *const p1, Particle const *const p2)
G4double p_pipToSpKp(Particle const *const p1, Particle const *const p2)
virtual G4double p_pimToSmKp(Particle const *const p1, Particle const *const p2)

Referenced by piNToxPiN().

◆ NpiToSK2pi()

G4double G4INCL::CrossSectionsStrangeness::NpiToSK2pi ( Particle const *const p1,
Particle const *const p2 )
virtual

Reimplemented from G4INCL::CrossSectionsMultiPions.

Definition at line 1270 of file G4INCLCrossSectionsStrangeness.cc.

1270 {
1271 //
1272 // Pion-Nucleon producing Lambda-Kaon-2pion cross sections
1273 //
1274 // ratio
1275 // p pi+ (3.25) p pi0 (3.5) p pi- (3.75)
1276 //
1277 // p pi+ -> S+ K+ pi+ pi- (1)
1278 // p pi+ -> S+ K+ pi0 pi0 (1/4)
1279 // p pi+ -> S0 K+ pi+ pi0 (1/2)
1280 // p pi+ -> S- K+ pi+ pi+ (1/4)
1281 // p pi+ -> S+ K0 pi+ pi0 (1)
1282 // p pi+ -> S0 K0 pi+ pi+ (1/4)
1283 //
1284 // p pi0 -> S+ K+ pi0 pi- (1/2)
1285 // p pi0 -> S0 K+ pi+ pi- (1/2)
1286 // p pi0 -> S0 K+ pi0 pi0 (1/4)
1287 // p pi0 -> S- K+ pi+ pi0 (1/4)
1288 // p pi0 -> S+ K0 pi+ pi- (1)
1289 // p pi0 -> S+ K0 pi0 pi0 (1/4)
1290 // p pi0 -> S0 K0 pi+ pi0 (1/4)
1291 // p pi0 -> S- K0 pi+ pi+ (1/2)
1292 //
1293 // p pi- -> S+ K+ pi- pi- (1/4)
1294 // p pi- -> S0 K+ pi0 pi- (1/2)
1295 // p pi- -> S- K+ pi+ pi- (1/4)
1296 // p pi- -> S- K+ pi0 pi0 (1/4)
1297 // p pi- -> S+ K0 pi0 pi- (1/2)
1298 // p pi- -> S0 K0 pi+ pi- (1)
1299 // p pi- -> S0 K0 pi0 pi0 (1/2)
1300 // p pi- -> S- K0 pi+ pi0 (1/2)
1301
1302// assert((p1->isPion() && p2->isNucleon()) || (p2->isPion() && p1->isNucleon()));
1303
1304 G4double sigma=0.;
1305 const Particle *pion;
1306 const Particle *nucleon;
1307
1308 if(p1->isPion()){
1309 pion = p1;
1310 nucleon = p2;
1311 }
1312 else{
1313 nucleon = p1;
1314 pion = p2;
1315 }
1316 const G4int iso=ParticleTable::getIsospin(p1->getType()) + ParticleTable::getIsospin(p2->getType());
1317 const G4double pLab = 0.001*KinematicsUtils::momentumInLab(pion, nucleon); // GeV
1318
1319 if(pLab <= 1.5851)
1320 return 0.;
1321
1322 if(iso == 3 || iso == -3)
1323 sigma = 3.25*137.6*std::pow(pLab-1.5851,5.856)/std::pow(pLab,9.295);
1324 else if(pion->getType() == PiZero)
1325 sigma = 3.5*137.6*std::pow(pLab-1.5851,5.856)/std::pow(pLab,9.295);
1326 else
1327 sigma = 3.75*137.6*std::pow(pLab-1.5851,5.856)/std::pow(pLab,9.295);
1328
1329 return sigma;
1330 }

Referenced by piNToxPiN().

◆ NpiToSKpi()

G4double G4INCL::CrossSectionsStrangeness::NpiToSKpi ( Particle const *const p1,
Particle const *const p2 )
virtual

Reimplemented from G4INCL::CrossSectionsMultiPions.

Definition at line 1174 of file G4INCLCrossSectionsStrangeness.cc.

1174 {
1175 //
1176 // Pion-Nucleon producing Sigma-Kaon-pion cross sections
1177 //
1178 //ratio
1179 // p pi+ (2.25) p pi0 (2.625) p pi-(3)
1180 //
1181 // p pi+ -> S+ pi+ K0 (5/4)
1182 // p pi+ -> S+ pi0 K+ (3/4)
1183 // p pi+ -> S0 pi+ K+ (1/4)
1184 // p pi0 -> S+ pi0 K0 (1/2)
1185 // p pi0 -> S+ pi- K+ (1/2)
1186 // p pi0 -> S0 pi+ K0 (3/4)
1187 // p pi0 -> S0 pi0 K+ (3/8)
1188 // p pi0 -> S- pi+ K+ (1/2)
1189 // p pi- -> S+ pi- K0 (3/8)
1190 // p pi- -> S0 pi0 K0 (5/8)
1191 // p pi- -> S0 pi- K+ (5/8)
1192 // p pi- -> S- pi+ K0 (1)
1193 // p pi- -> S- pi0 K+ (3/8)
1194
1195// assert((p1->isPion() && p2->isNucleon()) || (p2->isPion() && p1->isNucleon()));
1196
1197 G4double sigma=0.;
1198 const Particle *pion;
1199 const Particle *nucleon;
1200
1201 if(p1->isPion()){
1202 pion = p1;
1203 nucleon = p2;
1204 }
1205 else{
1206 nucleon = p1;
1207 pion = p2;
1208 }
1209 const G4int iso=ParticleTable::getIsospin(p1->getType()) + ParticleTable::getIsospin(p2->getType());
1210 const G4double pLab = 0.001*KinematicsUtils::momentumInLab(pion, nucleon); // GeV
1211
1212 if(pLab <= 1.3041)
1213 return 0.;
1214
1215 if(iso == 3 || iso == -3)
1216 sigma = 2.25*8.139*std::pow(pLab-1.3041,2.431)/std::pow(pLab,5.298);
1217 else if(pion->getType() == PiZero)
1218 sigma = 2.625*8.139*std::pow(pLab-1.3041,2.431)/std::pow(pLab,5.298);
1219 else
1220 sigma = 3.*8.139*std::pow(pLab-1.3041,2.431)/std::pow(pLab,5.298);
1221
1222 return sigma;
1223 }

Referenced by piNToxPiN().

◆ NSToNL()

G4double G4INCL::CrossSectionsStrangeness::NSToNL ( Particle const *const p1,
Particle const *const p2 )
virtual

Reimplemented from G4INCL::CrossSectionsMultiPions.

Definition at line 1458 of file G4INCLCrossSectionsStrangeness.cc.

1458 {
1459 //
1460 // Nucleon-Lambda producing Nucleon-Sigma cross sections
1461 //
1462 // ratio
1463 // p S0 -> p L (1/2)
1464 // p S- -> n L (1)
1465
1466// assert((p1->isSigma() && p2->isNucleon()) || (p2->isSigma() && p1->isNucleon()));
1467
1468 const G4int iso=ParticleTable::getIsospin(p1->getType()) + ParticleTable::getIsospin(p2->getType());
1469 if(iso == 3 || iso == -3)
1470 return 0.;
1471
1472 G4double sigma;
1473 const Particle *particle1;
1474 const Particle *particle2;
1475
1476 if(p1->isSigma()){
1477 particle1 = p1;
1478 particle2 = p2;
1479 }
1480 else{
1481 particle1 = p2;
1482 particle2 = p1;
1483 }
1484 const G4double pLab = 0.001 * KinematicsUtils::momentumInLab(particle1,particle2); // GeV
1485
1486 if(particle1->getType() == SigmaZero){
1487 if(pLab < 0.1) return 100.; // cut-max
1488 sigma = 8.23*std::pow(pLab,-1.087);
1489 }
1490 else{
1491 if(pLab < 0.1) return 200.; // cut-max
1492 sigma = 16.46*std::pow(pLab,-1.087);
1493 }
1494 return sigma;
1495 }

Referenced by G4INCL::CrossSectionsAntiparticles::total(), and total().

◆ NSToNS()

G4double G4INCL::CrossSectionsStrangeness::NSToNS ( Particle const *const p1,
Particle const *const p2 )
virtual

Reimplemented from G4INCL::CrossSectionsMultiPions.

Definition at line 1497 of file G4INCLCrossSectionsStrangeness.cc.

1497 {
1498
1499// assert((p1->isSigma() && p2->isNucleon()) || (p2->isSigma() && p1->isNucleon()));
1500
1501 const G4int iso=ParticleTable::getIsospin(p1->getType()) + ParticleTable::getIsospin(p2->getType());
1502 if(iso == 3 || iso == -3)
1503 return 0.; // only quasi-elastic here
1504
1505 const Particle *particle1;
1506 const Particle *particle2;
1507
1508 if(p1->isSigma()){
1509 particle1 = p1;
1510 particle2 = p2;
1511 }
1512 else{
1513 particle1 = p2;
1514 particle2 = p1;
1515 }
1516 const G4double pLab = 0.001 * KinematicsUtils::momentumInLab(particle1,particle2); // GeV
1517
1518 if(particle2->getType() == Neutron && pLab < 0.162) return 0.;
1519 else if(pLab < 0.1035) return 200.; // cut-max
1520
1521 return 13.79*std::pow(pLab,-1.181);
1522 }

Referenced by G4INCL::CrossSectionsAntiparticles::total(), and total().

◆ NYelastic()

G4double G4INCL::CrossSectionsStrangeness::NYelastic ( Particle const *const p1,
Particle const *const p2 )
virtual

elastic scattering for Nucleon-Strange Particles cross sections

elastic cross sections

Reimplemented from G4INCL::CrossSectionsMultiPions.

Definition at line 300 of file G4INCLCrossSectionsStrangeness.cc.

300 {
301 //
302 // Hyperon-Nucleon elastic cross sections
303 //
304// assert((p1->isNucleon() && p2->isHyperon()) || (p1->isHyperon() && p2->isNucleon()));
305
306 G4double sigma = 0.;
307
308 const Particle *hyperon;
309 const Particle *nucleon;
310
311 if (p1->isHyperon()) {
312 hyperon = p1;
313 nucleon = p2;
314 }
315 else {
316 hyperon = p2;
317 nucleon = p1;
318 }
319
320 const G4double pLab = KinematicsUtils::momentumInLab(hyperon, nucleon); // MeV
321
322 if (pLab < 145.)
323 sigma = 200.;
324 else if (pLab < 425.)
325 sigma = 869.*std::exp(-pLab/100.);
326 else if (pLab < 30000.)
327 sigma = 12.8*std::exp(-6.2e-5*pLab);
328 else
329 sigma=0.;
330
331 if (sigma < 0.) sigma = 0.; // should never happen
332 return sigma;
333 }

Referenced by G4INCL::CrossSectionsAntiparticles::elastic(), and elastic().

◆ p_kmToL_pp_pm()

G4double G4INCL::CrossSectionsStrangeness::p_kmToL_pp_pm ( Particle const *const p1,
Particle const *const p2 )
virtual

Definition at line 1898 of file G4INCLCrossSectionsStrangeness.cc.

1898 {
1899 const G4double pLab = 0.001*KinematicsUtils::momentumInLab(p1, p2); // GeV
1900 G4double sigma = 0.;
1901 if(pLab < 0.97)
1902 sigma = 6364.*std::pow(pLab,6.07)/std::pow(pLab+1.,10.58)+2.158*std::exp(-std::pow((pLab-0.395)/.01984,2)/2.);
1903 else if(pLab < 30)
1904 sigma = 46.3*std::pow(pLab,0.62)/std::pow(pLab+1.,3.565);
1905 else
1906 sigma = 0.;
1907
1908 return sigma;
1909 }

Referenced by NKbToL2pi().

◆ p_kmToL_pz()

G4double G4INCL::CrossSectionsStrangeness::p_kmToL_pz ( Particle const *const p1,
Particle const *const p2 )
virtual

Definition at line 1796 of file G4INCLCrossSectionsStrangeness.cc.

1796 {
1797 const G4double pLab = 0.001*KinematicsUtils::momentumInLab(p1, p2); // GeV
1798 G4double sigma = 0.;
1799 if(pLab < 0.086636)
1800 sigma = 40.24;
1801 else if(pLab < 0.5)
1802 sigma = 0.97*std::pow(pLab,-1.523);
1803 else if(pLab < 2.)
1804 sigma = 1.23*std::pow(pLab,-1.467)+0.872*std::exp(-std::pow(pLab-0.749,2)/0.0045)+2.337*std::exp(-std::pow(pLab-0.957,2)/0.017)+0.476*std::exp(-std::pow(pLab-1.434,2)/0.136);
1805 else if(pLab < 30.)
1806 sigma = 3.*std::pow(pLab,-2.57);
1807 else
1808 sigma = 0.;
1809
1810 return sigma;
1811 }

Referenced by NKbToLpi().

◆ p_pimToLK0()

G4double G4INCL::CrossSectionsStrangeness::p_pimToLK0 ( Particle const *const p1,
Particle const *const p2 )

Definition at line 1020 of file G4INCLCrossSectionsStrangeness.cc.

1020 {
1021
1022 G4double sigma = 0.;
1023 const G4double pLab = 0.001 * KinematicsUtils::momentumInLab(p1,p2); // GeV
1024
1025 if(pLab < 0.911)
1026 return 0.;
1027
1028 sigma = 0.3936*std::pow(pLab,-1.357)-6.052*std::exp(-std::pow(pLab-0.7154,2)/0.02026)-0.16*std::exp(-std::pow(pLab-0.9684,2)/0.001432)+0.489*std::exp(-std::pow(pLab-0.8886,2)/0.08378);
1029 if(sigma < 0.) return 0;
1030 return sigma;
1031 }

Referenced by NpiToLK().

◆ p_pimToSmKp()

G4double G4INCL::CrossSectionsStrangeness::p_pimToSmKp ( Particle const *const p1,
Particle const *const p2 )
virtual

Reimplemented from G4INCL::CrossSectionsMultiPions.

Definition at line 1073 of file G4INCLCrossSectionsStrangeness.cc.

1073 {
1074
1075 G4double sigma = 0.;
1076 const G4double pLab = 0.001 * KinematicsUtils::momentumInLab(p1,p2); // GeV
1077
1078 if(pLab < 1.0356)
1079 return 0.;
1080
1081 sigma = 4.352*std::pow(pLab-1.0356,1.006)/(std::pow(pLab+1.0356,0.0978)*std::pow(pLab,5.375));
1082
1083 if(sigma < 0.) // should never append
1084 return 0;
1085
1086 return sigma;
1087 }

Referenced by NpiToSK().

◆ p_pimToSzKz()

G4double G4INCL::CrossSectionsStrangeness::p_pimToSzKz ( Particle const *const p1,
Particle const *const p2 )
virtual

Reimplemented from G4INCL::CrossSectionsMultiPions.

Definition at line 1118 of file G4INCLCrossSectionsStrangeness.cc.

1118 {
1119
1120 G4double sigma = 0.;
1121 const G4double pLab = 0.001 * KinematicsUtils::momentumInLab(p1,p2); // GeV
1122
1123 if((p1->getType() == PiZero && pLab < 1.0356) || (pLab < 1.034))
1124 return 0.;
1125
1126 sigma = 0.3474*std::pow(pLab-1.034,0.07678)/std::pow(pLab,1.627);
1127
1128 if(sigma < 0.) // should never append
1129 return 0;
1130
1131 return sigma;
1132 }

Referenced by NpiToSK().

◆ p_pipToSpKp()

G4double G4INCL::CrossSectionsStrangeness::p_pipToSpKp ( Particle const *const p1,
Particle const *const p2 )

Definition at line 1088 of file G4INCLCrossSectionsStrangeness.cc.

1088 {
1089
1090 G4double sigma = 0.;
1091 const G4double pLab = 0.001 * KinematicsUtils::momentumInLab(p1,p2); // GeV
1092
1093 if(pLab < 1.0428)
1094 return 0.;
1095
1096 sigma = 0.001897*std::pow(pLab-1.0428,2.869)/(std::pow(pLab+1.0428,-16.68)*std::pow(pLab,19.1));
1097
1098 if(sigma < 0.) // should never append
1099 return 0;
1100
1101 return sigma;
1102 }

Referenced by NpiToSK().

◆ p_pizToSzKp()

G4double G4INCL::CrossSectionsStrangeness::p_pizToSzKp ( Particle const *const p1,
Particle const *const p2 )
virtual

Reimplemented from G4INCL::CrossSectionsMultiPions.

Definition at line 1103 of file G4INCLCrossSectionsStrangeness.cc.

1103 {
1104
1105 G4double sigma = 0.;
1106 const G4double pLab = 0.001 * KinematicsUtils::momentumInLab(p1,p2); // GeV
1107
1108 if(pLab < 1.0356)
1109 return 0.;
1110
1111 sigma = 3.624*std::pow(pLab-1.0356,1.4)/std::pow(pLab,5.14);
1112
1113 if(sigma < 0.) // should never append
1114 return 0;
1115
1116 return sigma;
1117 }

Referenced by NpiToSK().

◆ piNToxPiN()

G4double G4INCL::CrossSectionsStrangeness::piNToxPiN ( const G4int xpi,
Particle const *const p1,
Particle const *const p2 )
virtual

correction to old cross section

Reimplemented from G4INCL::CrossSectionsMultiPionsAndResonances.

Definition at line 143 of file G4INCLCrossSectionsStrangeness.cc.

143 {
144 //
145 // pion-Nucleon producing xpi pions cross sections (corrected due to new particles)
146 //
147// assert(xpi>1 && xpi<=nMaxPiPiN);
148// assert((particle1->isNucleon() && particle2->isPion()) || (particle1->isPion() && particle2->isNucleon()));
149
150 const G4double oldXS2Pi=CrossSectionsMultiPions::piNToxPiN(2,particle1, particle2);
151 const G4double oldXS3Pi=CrossSectionsMultiPions::piNToxPiN(3,particle1, particle2);
152 const G4double oldXS4Pi=CrossSectionsMultiPions::piNToxPiN(4,particle1, particle2);
153 const G4double xsEta=CrossSectionsMultiPionsAndResonances::piNToEtaN(particle1, particle2);
154 const G4double xsOmega=CrossSectionsMultiPionsAndResonances::piNToOmegaN(particle1, particle2);
155 const G4double xs1=NpiToLK(particle2, particle1);
156 const G4double xs2=NpiToSK(particle1, particle2);
157 const G4double xs3=NpiToLKpi(particle1, particle2);
158 const G4double xs4=NpiToSKpi(particle1, particle2);
159 const G4double xs5=NpiToLK2pi(particle1, particle2);
160 const G4double xs6=NpiToSK2pi(particle1, particle2);
161 const G4double xs7=NpiToNKKb(particle1, particle2);
162 const G4double xs8=NpiToMissingStrangeness(particle1, particle2);
163 const G4double xs0 = xs1 + xs2 + xs3 + xs4 + xs5 + xs6 + xs7 +xs8;
164 G4double newXS2Pi=0.;
165 G4double newXS3Pi=0.;
166 G4double newXS4Pi=0.;
167
168 if (xpi == 2) {
169 if (oldXS4Pi != 0.)
170 newXS2Pi=oldXS2Pi;
171 else if (oldXS3Pi != 0.) {
172 newXS3Pi=oldXS3Pi-xsEta-xsOmega-xs0;
173 if (newXS3Pi < 1.e-09)
174 newXS2Pi=oldXS2Pi-(xsEta+xsOmega+xs0-oldXS3Pi);
175 else
176 newXS2Pi=oldXS2Pi;
177 }
178 else {
179 newXS2Pi=oldXS2Pi-xsEta-xsOmega-xs0;
180 if (newXS2Pi < 1.e-09 && newXS2Pi!=0.){
181 newXS2Pi=0.;
182 }
183 }
184 return newXS2Pi;
185 }
186 else if (xpi == 3) {
187 if (oldXS4Pi != 0.) {
188 newXS4Pi=oldXS4Pi-xsEta-xsOmega-xs0;
189 if (newXS4Pi < 1.e-09)
190 newXS3Pi=oldXS3Pi-(xsEta+xsOmega+xs0-oldXS4Pi);
191 else
192 newXS3Pi=oldXS3Pi;
193 }
194 else {
195 newXS3Pi=oldXS3Pi-xsEta-xsOmega-xs0;
196 if (newXS3Pi < 1.e-09){
197 newXS3Pi=0.;
198 }
199 }
200 return newXS3Pi;
201 }
202 else if (xpi == 4) {
203 newXS4Pi=oldXS4Pi-xsEta-xsOmega-xs0;
204 if (newXS4Pi < 1.e-09){
205 newXS4Pi=0.;
206 }
207 return newXS4Pi;
208 }
209 else // should never reach this point
210 return 0.;
211 }
virtual G4double piNToEtaN(Particle const *const p1, Particle const *const p2)
Cross sections for mesonic resonance production - piN Channel.
virtual G4double piNToOmegaN(Particle const *const p1, Particle const *const p2)
Cross section for PiN->OmegaN.
virtual G4double piNToxPiN(const G4int xpi, Particle const *const p1, Particle const *const p2)
Cross section for X pion production - piN Channel.
virtual G4double NpiToLKpi(Particle const *const p1, Particle const *const p2)
virtual G4double NpiToNKKb(Particle const *const p1, Particle const *const p2)
virtual G4double NpiToSK(Particle const *const p1, Particle const *const p2)
virtual G4double NpiToLK2pi(Particle const *const p1, Particle const *const p2)
virtual G4double NpiToMissingStrangeness(Particle const *const p1, Particle const *const p2)
virtual G4double NpiToSKpi(Particle const *const p1, Particle const *const p2)
virtual G4double NpiToLK(Particle const *const p1, Particle const *const p2)
Nucleon-Pion to Stange particles cross sections.
virtual G4double NpiToSK2pi(Particle const *const p1, Particle const *const p2)

◆ total()

G4double G4INCL::CrossSectionsStrangeness::total ( Particle const *const p1,
Particle const *const p2 )
virtual

second new total particle-particle cross section

redefining previous cross sections

Reimplemented from G4INCL::CrossSectionsMultiPionsAndResonances.

Reimplemented in G4INCL::CrossSectionsAntiparticles.

Definition at line 82 of file G4INCLCrossSectionsStrangeness.cc.

82 {
83 G4double inelastic;
84 if(p1->isNucleon() && p2->isNucleon()) {
85 return CrossSectionsMultiPions::NNTot(p1, p2);
86 } else if((p1->isNucleon() && p2->isDelta()) ||
87 (p1->isDelta() && p2->isNucleon())) {
88 inelastic = CrossSectionsMultiPions::NDeltaToNN(p1, p2) + NDeltaToNLK(p1, p2) + NDeltaToNSK(p1, p2) + NDeltaToDeltaLK(p1, p2) + NDeltaToDeltaSK(p1, p2) + NDeltaToNNKKb(p1, p2);
89 } else if((p1->isNucleon() && p2->isPion()) ||
90 (p1->isPion() && p2->isNucleon())) {
92 } else if((p1->isNucleon() && p2->isEta()) ||
93 (p1->isEta() && p2->isNucleon())) {
95 } else if((p1->isNucleon() && p2->isOmega()) ||
96 (p1->isOmega() && p2->isNucleon())) {
98 } else if((p1->isNucleon() && p2->isEtaPrime()) ||
99 (p1->isEtaPrime() && p2->isNucleon())) {
101 } else if((p1->isNucleon() && p2->isLambda()) ||
102 (p1->isLambda() && p2->isNucleon())) {
103 inelastic = NLToNS(p1,p2);
104 } else if((p1->isNucleon() && p2->isSigma()) ||
105 (p1->isSigma() && p2->isNucleon())) {
106 inelastic = NSToNL(p1,p2) + NSToNS(p1,p2);
107 } else if((p1->isNucleon() && p2->isKaon()) ||
108 (p1->isKaon() && p2->isNucleon())) {
109 inelastic = NKToNK(p1,p2) + NKToNKpi(p1,p2) + NKToNK2pi(p1,p2);
110 } else if((p1->isNucleon() && p2->isAntiKaon()) ||
111 (p1->isAntiKaon() && p2->isNucleon())) {
112 inelastic = NKbToLpi(p1,p2) + NKbToSpi(p1,p2) + NKbToL2pi(p1,p2) + NKbToS2pi(p1,p2) + NKbToNKb(p1,p2) + NKbToNKbpi(p1,p2) + NKbToNKb2pi(p1,p2);
113 } else {
114 inelastic = 0.;
115 }
116 return inelastic + elastic(p1, p2);
117 }
virtual G4double etaNToPiPiN(Particle const *const p1, Particle const *const p2)
Cross sections for mesonic resonance absorption on nucleon - pipiN Channel.
virtual G4double omegaNInelastic(Particle const *const p1, Particle const *const p2)
Cross sections for mesonic resonance absorption on nucleon - inelastic Channel.
virtual G4double etaPrimeNToPiN(Particle const *const p1, Particle const *const p2)
Cross section for EtaPrimeN->PiN.
virtual G4double etaNToPiN(Particle const *const p1, Particle const *const p2)
Cross sections for mesonic resonance absorption on nucleon - piN Channel.
G4double piNTot(Particle const *const p1, Particle const *const p2)
G4double NNTot(Particle const *const part1, Particle const *const part2)
Internal implementation of the NN total cross section.
virtual G4double NDeltaToNN(Particle const *const p1, Particle const *const p2)
Cross section for NDelta->NN.
virtual G4double NKbToNKb2pi(Particle const *const p1, Particle const *const p2)
virtual G4double NKbToNKbpi(Particle const *const p1, Particle const *const p2)
virtual G4double NKbToL2pi(Particle const *const p1, Particle const *const p2)
virtual G4double NLToNS(Particle const *const p1, Particle const *const p2)
Nucleon-Hyperon quasi-elastic cross sections.
virtual G4double NKToNK2pi(Particle const *const p1, Particle const *const p2)
virtual G4double NDeltaToDeltaSK(Particle const *const p1, Particle const *const p2)
virtual G4double NKToNKpi(Particle const *const p1, Particle const *const p2)
virtual G4double NDeltaToNSK(Particle const *const p1, Particle const *const p2)
virtual G4double NKbToLpi(Particle const *const p1, Particle const *const p2)
virtual G4double NSToNS(Particle const *const p1, Particle const *const p2)
virtual G4double NSToNL(Particle const *const p1, Particle const *const p2)
virtual G4double NKbToS2pi(Particle const *const p1, Particle const *const p2)
virtual G4double NKbToSpi(Particle const *const p1, Particle const *const p2)
virtual G4double NKToNK(Particle const *const p1, Particle const *const p2)
Nucleon-Kaon cross sections.
virtual G4double elastic(Particle const *const p1, Particle const *const p2)
second new elastic particle-particle cross section
virtual G4double NDeltaToNNKKb(Particle const *const p1, Particle const *const p2)
virtual G4double NDeltaToDeltaLK(Particle const *const p1, Particle const *const p2)
virtual G4double NDeltaToNLK(Particle const *const p1, Particle const *const p2)
Nucleon-Delta to Stange particles cross sections.
virtual G4double NKbToNKb(Particle const *const p1, Particle const *const p2)
Nucleon-antiKaon cross sections.

Member Data Documentation

◆ nMaxPiNN

const G4int G4INCL::CrossSectionsStrangeness::nMaxPiNN = 4
staticprotected

Maximum number of outgoing pions in NN collisions.

Definition at line 132 of file G4INCLCrossSectionsStrangeness.hh.

◆ nMaxPiPiN

const G4int G4INCL::CrossSectionsStrangeness::nMaxPiPiN = 4
staticprotected

Maximum number of outgoing pions in piN collisions.

Definition at line 135 of file G4INCLCrossSectionsStrangeness.hh.

◆ s01ppHC

const HornerC8 G4INCL::CrossSectionsStrangeness::s01ppHC
protected

Horner coefficients for s01pp.

Definition at line 140 of file G4INCLCrossSectionsStrangeness.hh.

◆ s01pzHC

const HornerC4 G4INCL::CrossSectionsStrangeness::s01pzHC
protected

Horner coefficients for s01pz.

Definition at line 142 of file G4INCLCrossSectionsStrangeness.hh.

◆ s02pmHC

const HornerC6 G4INCL::CrossSectionsStrangeness::s02pmHC
protected

Horner coefficients for s02pm.

Definition at line 154 of file G4INCLCrossSectionsStrangeness.hh.

◆ s02pzHC

const HornerC4 G4INCL::CrossSectionsStrangeness::s02pzHC
protected

Horner coefficients for s02pz.

Definition at line 152 of file G4INCLCrossSectionsStrangeness.hh.

◆ s11pmHC

const HornerC4 G4INCL::CrossSectionsStrangeness::s11pmHC
protected

Horner coefficients for s11pm.

Definition at line 144 of file G4INCLCrossSectionsStrangeness.hh.

◆ s11pzHC

const HornerC7 G4INCL::CrossSectionsStrangeness::s11pzHC
protected

Horner coefficients for s11pz.

Definition at line 138 of file G4INCLCrossSectionsStrangeness.hh.

◆ s12mzHC

const HornerC4 G4INCL::CrossSectionsStrangeness::s12mzHC
protected

Horner coefficients for s12mz.

Definition at line 156 of file G4INCLCrossSectionsStrangeness.hh.

◆ s12pmHC

const HornerC5 G4INCL::CrossSectionsStrangeness::s12pmHC
protected

Horner coefficients for s12pm.

Definition at line 146 of file G4INCLCrossSectionsStrangeness.hh.

◆ s12ppHC

const HornerC3 G4INCL::CrossSectionsStrangeness::s12ppHC
protected

Horner coefficients for s12pp.

Definition at line 148 of file G4INCLCrossSectionsStrangeness.hh.

◆ s12zzHC

const HornerC4 G4INCL::CrossSectionsStrangeness::s12zzHC
protected

Horner coefficients for s12zz.

Definition at line 150 of file G4INCLCrossSectionsStrangeness.hh.


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