G4INCL::CrossSectionsMultiPionsAndResonances Class Reference

Multipion and mesonic Resonances cross sections. More...

#include <G4INCLCrossSectionsMultiPionsAndResonances.hh>

Inheritance diagram for G4INCL::CrossSectionsMultiPionsAndResonances:

Public Member Functions
virtual G4double	calculateNNAngularSlope (G4double energyCM, G4int iso)
	Calculate the slope of the NN DDXS. More...
	CrossSectionsMultiPionsAndResonances ()
virtual G4double	elastic (Particle const *const p1, Particle const *const p2)
	new elastic particle-particle cross section More...
virtual G4double	etaNToPiN (Particle const *const p1, Particle const *const p2)
	Cross sections for mesonic resonance absorption on nucleon - piN Channel. More...
virtual G4double	etaNToPiPiN (Particle const *const p1, Particle const *const p2)
	Cross sections for mesonic resonance absorption on nucleon - pipiN Channel. More...
virtual G4double	etaPrimeNToPiN (Particle const *const p1, Particle const *const p2)
	Cross section for EtaPrimeN->PiN. More...
virtual G4double	NDeltaToDeltaLK (Particle const *const p1, Particle const *const p2)
virtual G4double	NDeltaToDeltaSK (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. More...
virtual G4double	NDeltaToNN (Particle const *const p1, Particle const *const p2)
	Cross section for NDelta->NN. More...
virtual G4double	NDeltaToNNKKb (Particle const *const p1, Particle const *const p2)
virtual G4double	NDeltaToNSK (Particle const *const p1, Particle const *const p2)
virtual G4double	NKbelastic (Particle const *const p1, Particle const *const p2)
virtual G4double	NKbToL2pi (Particle const *const p1, Particle const *const p2)
virtual G4double	NKbToLpi (Particle const *const p1, Particle const *const p2)
virtual G4double	NKbToNKb (Particle const *const p1, Particle const *const p2)
	Nucleon-antiKaon quasi-elastic and inelastic cross sections. More...
virtual G4double	NKbToNKb2pi (Particle const *const p1, Particle const *const p2)
virtual G4double	NKbToNKbpi (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	NKelastic (Particle const *const p1, Particle const *const p2)
virtual G4double	NKToNK (Particle const *const p1, Particle const *const p2)
	Nucleon-Kaon quasi-elastic and inelastic cross sections. More...
virtual G4double	NKToNK2pi (Particle const *const p1, Particle const *const p2)
virtual G4double	NKToNKpi (Particle const *const p1, Particle const *const p2)
virtual G4double	NLToNS (Particle const *const p1, Particle const *const p2)
	Nucleon-Hyperon cross sections. More...
virtual G4double	NNToMissingStrangeness (Particle const *const p1, Particle const *const p2)
virtual G4double	NNToNDelta (Particle const *const p1, Particle const *const p2)
	Cross section for Delta production - NN Channel. More...
virtual G4double	NNToNDeltaEta (Particle const *const p1, Particle const *const p2)
	Cross section for N-Delta-Eta production - NNEta Channel. More...
virtual G4double	NNToNDeltaOmega (Particle const *const p1, Particle const *const p2)
	Cross section for N-Delta-Eta production - NNOmega Channel. More...
virtual G4double	NNToNLK (Particle const *const p1, Particle const *const p2)
	Nucleon-Nucleon to Stange particles cross sections. More...
virtual G4double	NNToNLK2pi (Particle const *const p1, Particle const *const p2)
virtual G4double	NNToNLKpi (Particle const *const p1, Particle const *const p2)
virtual G4double	NNToNNEta (Particle const *const particle1, Particle const *const particle2)
	Cross section for Eta production (inclusive) - NN entrance channel. More...
virtual G4double	NNToNNEtaExclu (Particle const *const particle1, Particle const *const particle2)
	Cross section for Eta production (exclusive) - NN entrance channel. More...
virtual G4double	NNToNNEtaxPi (const G4int xpi, Particle const *const p1, Particle const *const p2)
	Cross section for X pion production - NNEta Channel. More...
virtual G4double	NNToNNKKb (Particle const *const p1, Particle const *const p2)
virtual G4double	NNToNNOmega (Particle const *const particle1, Particle const *const particle2)
	Cross section for Omega production (inclusive) - NN entrance channel. More...
virtual G4double	NNToNNOmegaExclu (Particle const *const particle1, Particle const *const particle2)
	Cross section for Omega production (exclusive) - NN entrance channel. More...
virtual G4double	NNToNNOmegaxPi (const G4int xpi, Particle const *const p1, Particle const *const p2)
	Cross section for X pion production - NNOmega Channel. More...
virtual G4double	NNToNSK (Particle const *const p1, Particle const *const p2)
virtual G4double	NNToNSK2pi (Particle const *const p1, Particle const *const p2)
virtual G4double	NNToNSKpi (Particle const *const p1, Particle const *const p2)
virtual G4double	NNToxPiNN (const G4int xpi, Particle const *const p1, Particle const *const p2)
	Cross section for X pion production - NN Channel. More...
virtual G4double	NpiToLK (Particle const *const p1, Particle const *const p2)
	Nucleon-Pion to Stange particles cross sections. More...
virtual G4double	NpiToLK2pi (Particle const *const p1, Particle const *const p2)
virtual G4double	NpiToLKpi (Particle const *const p1, Particle const *const p2)
virtual G4double	NpiToMissingStrangeness (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	NpiToSK2pi (Particle const *const p1, Particle const *const p2)
virtual G4double	NpiToSKpi (Particle const *const p1, Particle const *const p2)
virtual G4double	NSToNL (Particle const *const p1, Particle const *const p2)
virtual G4double	NSToNS (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 More...
virtual G4double	omegaNToPiN (Particle const *const p1, Particle const *const p2)
	Cross section for OmegaN->PiN. More...
virtual G4double	p_pimToSmKp (Particle const *const p1, Particle const *const p2)
virtual G4double	p_pimToSzKz (Particle const *const p1, Particle const *const p2)
virtual G4double	p_pizToSzKp (Particle const *const p1, Particle const *const p2)
virtual G4double	piNToDelta (Particle const *const p1, Particle const *const p2)
	Cross section for Delta production - piN Channel. More...
virtual G4double	piNToEtaN (Particle const *const p1, Particle const *const p2)
	Cross sections for mesonic resonance production - piN Channel. More...
virtual G4double	piNToEtaPrimeN (Particle const *const p1, Particle const *const p2)
	Cross section for PiN->EtaPrimeN. More...
virtual G4double	piNToOmegaN (Particle const *const p1, Particle const *const p2)
	Cross section for PiN->OmegaN. More...
virtual G4double	piNToxPiN (const G4int xpi, Particle const *const p1, Particle const *const p2)
	Cross section for X pion production - piN Channel (modified due to the mesonic resonances) More...
virtual G4double	total (Particle const *const p1, Particle const *const p2)
	new total particle-particle cross section More...

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

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

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

Detailed Description

Multipion and mesonic Resonances cross sections.

Definition at line 54 of file G4INCLCrossSectionsMultiPionsAndResonances.hh.

Constructor & Destructor Documentation

CrossSectionsMultiPionsAndResonances()

G4INCL::CrossSectionsMultiPionsAndResonances::CrossSectionsMultiPionsAndResonances

(

)

Definition at line 77 of file G4INCLCrossSectionsMultiPionsAndResonances.cc.

                                                                               :
    s11pzHC(-2.228000000000294018,8.7560000000005723725,-0.61000000000023239325,-5.4139999999999780324,3.3338333333333348023,-0.75835000000000022049,0.060623611111111114688),
    s01ppHC(2.0570000000126518344,-6.029000000012135826,36.768500000002462784,-45.275666666666553533,25.112666666666611953,-7.2174166666666639187,1.0478875000000000275,-0.060804365079365080846),
    s01pzHC(0.18030000000000441851,7.8700999999999953598,-4.0548999999999990425,0.555199999999999959),
    s11pmHC(0.20590000000000031866,3.3450999999999993936,-1.4401999999999997825,0.17076666666666664973),
    s12pmHC(-0.77235999999999901328,4.2626599999999991117,-1.9008899999999997323,0.30192266666666663379,-0.012270833333333331986),
    s12ppHC(-0.75724999999999975664,2.0934399999999998565,-0.3803099999999999814),
    s12zzHC(-0.89599999999996965072,7.882999999999978632,-7.1049999999999961928,1.884333333333333089),
    s02pzHC(-1.0579999999999967036,11.113999999999994089,-8.5259999999999990196,2.0051666666666666525),
    s02pmHC(2.4009000000012553286,-7.7680000000013376183,20.619000000000433505,-16.429666666666723928,5.2525708333333363472,-0.58969166666666670206),
    s12mzHC(-0.21858699999999976269,1.9148999999999999722,-0.31727500000000001065,-0.027695000000000000486)
    {
    }

Member Function Documentation

calculateNNAngularSlope()

G4double G4INCL::CrossSectionsMultiPions::calculateNNAngularSlope ( G4double  energyCM, G4int  iso  )

virtualinherited

Calculate the slope of the NN DDXS.

Parameters

energyCM	energy in the CM frame, in MeV
iso	total isospin of the system

Returns

the slope of the angular distribution

Implements G4INCL::ICrossSections.

Definition at line 826 of file G4INCLCrossSectionsMultiPions.cc.

                                                                                  {
    G4double x = 0.001 * pl; // Change to GeV
    if(iso != 0) {
      if(pl <= 2000.0) {
        x = std::pow(x, 8);
        return 5.5e-6 * x/(7.7 + x);
      } else {
        return (5.34 + 0.67*(x - 2.0)) * 1.0e-6;
      }
    } else {
      if(pl < 800.0) {
        G4double b = (7.16 - 1.63*x) * 1.0e-6;
        return b/(1.0 + std::exp(-(x - 0.45)/0.05));
      } else if(pl < 1100.0) {
        return (9.87 - 4.88 * x) * 1.0e-6;
      } else {
        return (3.68 + 0.76*x) * 1.0e-6;
      }
    }
    return 0.0; // Should never reach this point
  }

elastic()

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

virtual

new elastic particle-particle cross section

Reimplemented from G4INCL::CrossSectionsMultiPions.

Reimplemented in G4INCL::CrossSectionsStrangeness.

Definition at line 118 of file G4INCLCrossSectionsMultiPionsAndResonances.cc.

                                                                                                               {
        if((p1->isNucleon()||p1->isDelta()) && (p2->isNucleon()||p2->isDelta())){
            return CrossSectionsMultiPions::elastic(p1, p2);
        }
        else if ((p1->isNucleon() && p2->isPion()) || (p2->isNucleon() && p1->isPion())){
            return CrossSectionsMultiPions::elastic(p1, p2);
        }
        else if ((p1->isNucleon() && p2->isEta()) || (p2->isNucleon() && p1->isEta())){
            return etaNElastic(p1, p2);
        }
        else if ((p1->isNucleon() && p2->isOmega()) || (p2->isNucleon() && p1->isOmega())){
            return omegaNElastic(p1, p2);
        }
        else {
            return 0.0;
        }
    }

References G4INCL::CrossSectionsMultiPions::elastic(), etaNElastic(), G4INCL::Particle::isDelta(), G4INCL::Particle::isEta(), G4INCL::Particle::isNucleon(), G4INCL::Particle::isOmega(), G4INCL::Particle::isPion(), and omegaNElastic().

Referenced by total().

etaNElastic()

G4double G4INCL::CrossSectionsMultiPionsAndResonances::etaNElastic ( Particle const *const  p1, Particle const *const  p2  )

protectedvirtual

Cross sections for mesonic resonance absorption on nucleon - elastic Channel.

Definition at line 340 of file G4INCLCrossSectionsMultiPionsAndResonances.cc.

                                                                                                                                 {
        //
        //     Eta-Nucleon elastic cross sections
        //
// assert((particle1->isNucleon() && particle2->isEta()) || (particle1->isEta() && particle2->isNucleon()));
        
        G4double sigma=0.;        
        
        const Particle *eta;
        const Particle *nucleon;
        
        if (particle1->isEta()) {
            eta = particle1;
            nucleon = particle2;
        }
        else {
            eta = particle2;
            nucleon = particle1;
        }
        
        const G4double pLab = KinematicsUtils::momentumInLab(eta, nucleon);
        
        if (pLab < 700.) 
            sigma = 3.6838e-15*std::pow(pLab,6) - 9.7815e-12*std::pow(pLab,5) + 9.7914e-9*std::pow(pLab,4) - 
            4.3222e-06*std::pow(pLab,3) + 7.9188e-04*std::pow(pLab,2) - 1.8379e-01*pLab + 84.965;            
        else if (pLab < 1400.) 
            sigma = 3.562630e-16*std::pow(pLab,6) - 2.384766e-12*std::pow(pLab,5) + 6.601312e-9*std::pow(pLab,4) - 
            9.667078e-06*std::pow(pLab,3) + 7.894845e-03*std::pow(pLab,2) - 3.409200*pLab + 609.8501;
        else if (pLab < 2025.)
            sigma = -1.041950E-03*pLab + 2.110529E+00;
        else    
            sigma=0.;
        
        if (sigma < 0.) sigma = 0.;
            return sigma; // Parameterization from the ANL-Osaka DCC model [PRC88(2013)035209]
        }

References G4INCL::Particle::isEta(), G4INCL::KinematicsUtils::momentumInLab(), and G4InuclParticleNames::nucleon().

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

etaNToPiN()

G4double G4INCL::CrossSectionsMultiPionsAndResonances::etaNToPiN ( Particle const *const  p1, Particle const *const  p2  )

virtual

Cross sections for mesonic resonance absorption on nucleon - piN Channel.

Reimplemented from G4INCL::CrossSectionsMultiPions.

Definition at line 256 of file G4INCLCrossSectionsMultiPionsAndResonances.cc.

                                                                                                                               {
        //
        //     Eta-Nucleon producing Pion cross sections
        //
// assert((particle1->isNucleon() && particle2->isEta()) || (particle1->isEta() && particle2->isNucleon()));
        
        const Particle *eta;
        const Particle *nucleon;
        
        if (particle1->isEta()) {
         eta = particle1;
         nucleon = particle2;
        }
        else {
         eta = particle2;
         nucleon = particle1;
        }
        
        const G4double pLab = KinematicsUtils::momentumInLab(eta, nucleon);
        G4double sigma=0.;        
        
        if (pLab <= 574.) 
         sigma= 1.511147E-13*std::pow(pLab,6)- 3.603636E-10*std::pow(pLab,5)+ 3.443487E-07*std::pow(pLab,4)- 1.681980E-04*std::pow(pLab,3)+ 4.437913E-02*std::pow(pLab,2)- 6.172108E+00*pLab+ 4.031449E+02;
        else if (pLab <= 850.) 
         sigma= -8.00018E-14*std::pow(pLab,6)+ 3.50041E-10*std::pow(pLab,5)- 6.33891E-07*std::pow(pLab,4)+ 6.07658E-04*std::pow(pLab,3)- 3.24936E-01*std::pow(pLab,2)+ 9.18098E+01*pLab- 1.06943E+04;
        else if (pLab <= 1300.)
         sigma= 6.56364E-09*std::pow(pLab,3)- 2.07653E-05*std::pow(pLab,2)+ 1.84148E-02*pLab- 1.70427E+00;     
        else {
            G4double ECM=KinematicsUtils::totalEnergyInCM(eta, nucleon);
            G4double massPiZero=ParticleTable::getINCLMass(PiZero);
            G4double massPiMinus=ParticleTable::getINCLMass(PiMinus);
            G4double massProton=ParticleTable::getINCLMass(Proton);
            G4double masseta;
            G4double massnucleon;
            G4double pCM_eta;
            masseta=eta->getMass();
            massnucleon=nucleon->getMass();
            pCM_eta=KinematicsUtils::momentumInCM(ECM, masseta, massnucleon);         
            G4double pCM_PiZero=KinematicsUtils::momentumInCM(ECM, massPiZero, massProton);
            G4double pCM_PiMinus=KinematicsUtils::momentumInCM(ECM, massPiMinus, massProton); // = pCM_PiPlus (because massPiMinus = massPiPlus) 
            sigma = (piMinuspToEtaN(ECM)/2.) * std::pow((pCM_PiZero/pCM_eta), 2) + piMinuspToEtaN(ECM) * std::pow((pCM_PiMinus/pCM_eta), 2);            
        } 
        if (sigma < 0.) sigma=0.;
        
        return sigma;
    }

References G4INCL::ParticleTable::getINCLMass(), G4INCL::Particle::getMass(), G4INCL::Particle::isEta(), G4INCL::KinematicsUtils::momentumInCM(), G4INCL::KinematicsUtils::momentumInLab(), G4InuclParticleNames::nucleon(), G4INCL::PiMinus, piMinuspToEtaN(), G4INCL::PiZero, G4INCL::Proton, and G4INCL::KinematicsUtils::totalEnergyInCM().

Referenced by etaNToPiPiN(), total(), and G4INCL::CrossSectionsStrangeness::total().

etaNToPiPiN()

G4double G4INCL::CrossSectionsMultiPionsAndResonances::etaNToPiPiN ( Particle const *const  p1, Particle const *const  p2  )

virtual

Cross sections for mesonic resonance absorption on nucleon - pipiN Channel.

Reimplemented from G4INCL::CrossSectionsMultiPions.

Definition at line 303 of file G4INCLCrossSectionsMultiPionsAndResonances.cc.

                                                                                                                                 {
        //
        //     Eta-Nucleon producing Two Pions cross sections
        //
// assert((particle1->isNucleon() && particle2->isEta()) || (particle1->isEta() && particle2->isNucleon()));
 
        G4double sigma=0.;        
 
        const Particle *eta;
        const Particle *nucleon;
 
        if (particle1->isEta()) {
            eta = particle1;
            nucleon = particle2;
        }
        else {
            eta = particle2;
            nucleon = particle1;
        }
 
        const G4double pLab = KinematicsUtils::momentumInLab(eta, nucleon);
        
        if (pLab < 450.) 
            sigma = 2.01854221E-13*std::pow(pLab,6) - 3.49750459E-10*std::pow(pLab,5) + 2.46011585E-07*std::pow(pLab,4) - 9.01422901E-05*std::pow(pLab,3) + 1.83382964E-02*std::pow(pLab,2) - 2.03113098E+00*pLab + 1.10358550E+02;                
        else if (pLab < 600.) 
            sigma = 2.01854221E-13*std::pow(450.,6) - 3.49750459E-10*std::pow(450.,5) + 2.46011585E-07*std::pow(450.,4) - 9.01422901E-05*std::pow(450.,3) + 1.83382964E-02*std::pow(450.,2) - 2.03113098E+00*450. + 1.10358550E+02;                
        else if (pLab <= 1300.) 
            sigma = -6.32793049e-16*std::pow(pLab,6) + 3.95985900e-12*std::pow(pLab,5) - 1.01727714e-8*std::pow(pLab,4) + 
            1.37055547e-05*std::pow(pLab,3) - 1.01830486e-02*std::pow(pLab,2) + 3.93492126*pLab - 609.447145;
        else 
            sigma = etaNToPiN(particle1,particle2);
 
        if (sigma < 0.) sigma = 0.;
        return sigma; // Parameterization from the ANL-Osaka DCC model [PRC88(2013)035209] - eta p --> "pi+pi0 n" + "pi0 pi0 p" total XS
    }

References etaNToPiN(), G4INCL::Particle::isEta(), G4INCL::KinematicsUtils::momentumInLab(), and G4InuclParticleNames::nucleon().

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

etaPrimeNToPiN()

G4double G4INCL::CrossSectionsMultiPionsAndResonances::etaPrimeNToPiN ( Particle const *const  p1, Particle const *const  p2  )

virtual

Cross section for EtaPrimeN->PiN.

Reimplemented from G4INCL::CrossSectionsMultiPions.

Definition at line 493 of file G4INCLCrossSectionsMultiPionsAndResonances.cc.

                                                                                                                  {
#else
  G4double CrossSectionsMultiPionsAndResonances::etaPrimeNToPiN(Particle const * const particle1, Particle const * const particle2) {
#endif
        //
        //     EtaPrime-Nucleon producing Pion cross sections
        //
// assert((particle1->isNucleon() && particle2->isEtaPrime()) || (particle1->isEtaPrime() && particle2->isNucleon()));
        
        return 0.;
    }    

References etaPrimeNToPiN().

Referenced by etaPrimeNToPiN(), total(), and G4INCL::CrossSectionsStrangeness::total().

NDeltaToDeltaLK()

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

virtualinherited

Implements G4INCL::ICrossSections.

Reimplemented in G4INCL::CrossSectionsStrangeness.

Definition at line 1424 of file G4INCLCrossSectionsMultiPions.cc.

                                                                                                    {
        // Nucleon-Delta producing Delta Lambda Kaon cross section
        return 0;
    }

NDeltaToDeltaSK()

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

virtualinherited

Implements G4INCL::ICrossSections.

Reimplemented in G4INCL::CrossSectionsStrangeness.

Definition at line 1428 of file G4INCLCrossSectionsMultiPions.cc.

                                                                                                    {
        // Nucleon-Delta producing Delta Sigma Kaon cross section
        return 0;
    }

NDeltaToNLK()

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

virtualinherited

Nucleon-Delta to Stange particles cross sections.

Implements G4INCL::ICrossSections.

Reimplemented in G4INCL::CrossSectionsStrangeness.

Definition at line 1416 of file G4INCLCrossSectionsMultiPions.cc.

                                                                                                {
        // Nucleon-Delta producing Nucleon Lambda Kaon cross section
        return 0;
    }

NDeltaToNN()

G4double G4INCL::CrossSectionsMultiPions::NDeltaToNN ( Particle const *const  p1, Particle const *const  p2  )

virtualinherited

Cross section for NDelta->NN.

Implements G4INCL::ICrossSections.

Definition at line 749 of file G4INCLCrossSectionsMultiPions.cc.

                                                                                                   {
    const G4int isospin = ParticleTable::getIsospin(p1->getType()) + ParticleTable::getIsospin(p2->getType());
    if(isospin==4 || isospin==-4) return 0.0;
 
    G4double s = KinematicsUtils::squareTotalEnergyInCM(p1, p2);
    G4double Ecm = std::sqrt(s);
    G4int deltaIsospin;
    G4double deltaMass;
    if(p1->isDelta()) {
      deltaIsospin = ParticleTable::getIsospin(p1->getType());
      deltaMass = p1->getMass();
    } else {
      deltaIsospin = ParticleTable::getIsospin(p2->getType());
      deltaMass = p2->getMass();
    }
 
    if(Ecm <= 938.3 + deltaMass) {
      return 0.0;
    }
 
    if(Ecm < 938.3 + deltaMass + 2.0) {
      Ecm = 938.3 + deltaMass + 2.0;
      s = Ecm*Ecm;
    }
 
    const G4double x = (s - 4.*ParticleTable::effectiveNucleonMass2) /
      (s - std::pow(ParticleTable::effectiveNucleonMass + deltaMass, 2));
    const G4double y = s/(s - std::pow(deltaMass - ParticleTable::effectiveNucleonMass, 2));
    /* Concerning the way we calculate the lab momentum, see the considerations
     * in CrossSections::elasticNNLegacy().
     */
    G4double sDelta;
    const G4double xsiso2=NNInelasticIso(Ecm, 2);
    if (isospin != 0)
      sDelta = NNOnePiOrDelta(Ecm, isospin, xsiso2);
    else {
      const G4double xsiso0=NNInelasticIso(Ecm, 0);
      sDelta = 0.25*(NNOnePiOrDelta(Ecm, 0, xsiso0)+ NNOnePiOrDelta(Ecm, 2, xsiso2));
    }
    G4double result = 0.5 * x * y * sDelta;
    /* modification for pion-induced cascade (see JC and MC LEMAIRE,NPA489(88)781
     * result=3.*result
     * pi absorption increased also for internal pions (7/3/01)
     */
    result *= 3.*(32.0 + isospin * isospin * (deltaIsospin * deltaIsospin - 5))/64.0;
    result /= 1.0 + 0.25 * (isospin * isospin);
    return result;
  }

References G4INCL::ParticleTable::effectiveNucleonMass, G4INCL::ParticleTable::effectiveNucleonMass2, G4INCL::ParticleTable::getIsospin(), G4INCL::Particle::getMass(), G4INCL::Particle::getType(), G4INCL::Particle::isDelta(), G4INCL::CrossSectionsMultiPions::NNInelasticIso(), G4INCL::CrossSectionsMultiPions::NNOnePiOrDelta(), s, and G4INCL::KinematicsUtils::squareTotalEnergyInCM().

Referenced by G4INCL::CrossSectionsMultiPions::NNTot(), G4INCL::CrossSectionsMultiPions::total(), total(), and G4INCL::CrossSectionsStrangeness::total().

NDeltaToNNKKb()

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

virtualinherited

Implements G4INCL::ICrossSections.

Reimplemented in G4INCL::CrossSectionsStrangeness.

Definition at line 1433 of file G4INCLCrossSectionsMultiPions.cc.

                                                                                                  {
        // Nucleon-Delta producing Nucleon-Nucleon Kaon antiKaon cross section
        return 0;
    }

NDeltaToNSK()

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

virtualinherited

Implements G4INCL::ICrossSections.

Reimplemented in G4INCL::CrossSectionsStrangeness.

Definition at line 1420 of file G4INCLCrossSectionsMultiPions.cc.

                                                                                                {
        // Nucleon-Delta producing Nucleon Sigma Kaon cross section
        return 0;
    }

NKbelastic()

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

virtualinherited

Implements G4INCL::ICrossSections.

Reimplemented in G4INCL::CrossSectionsStrangeness.

Definition at line 1352 of file G4INCLCrossSectionsMultiPions.cc.

                                                                                                 {
        //
        //      antiKaon-Nucleon elastic cross sections
        //
        return 0.;
    }

NKbToL2pi()

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

virtualinherited

Implements G4INCL::ICrossSections.

Reimplemented in G4INCL::CrossSectionsStrangeness.

Definition at line 1574 of file G4INCLCrossSectionsMultiPions.cc.

                                                                                              {
        //
        //      Nucleon-antiKaon producing Lambda-2pion cross sections
        //
        return 0.;
    }

NKbToLpi()

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

virtualinherited

Implements G4INCL::ICrossSections.

Reimplemented in G4INCL::CrossSectionsStrangeness.

Definition at line 1560 of file G4INCLCrossSectionsMultiPions.cc.

                                                                                             {
        //
        //      Nucleon-antiKaon producing Lambda-pion cross sections
        //
        return 0.;
    }

NKbToNKb()

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

virtualinherited

Nucleon-antiKaon quasi-elastic and inelastic cross sections.

Implements G4INCL::ICrossSections.

Reimplemented in G4INCL::CrossSectionsStrangeness.

Definition at line 1546 of file G4INCLCrossSectionsMultiPions.cc.

                                                                                             {
        //
        //      Nucleon-antiKaon quasi-elastic cross sections
        //
        return 0.;
    }

NKbToNKb2pi()

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

virtualinherited

Implements G4INCL::ICrossSections.

Reimplemented in G4INCL::CrossSectionsStrangeness.

Definition at line 1588 of file G4INCLCrossSectionsMultiPions.cc.

                                                                                                {
        //
        //      Nucleon-antiKaon producing Nucleon-antiKaon-2pion cross sections
        //
        return 0.;
    }

NKbToNKbpi()

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

virtualinherited

Implements G4INCL::ICrossSections.

Reimplemented in G4INCL::CrossSectionsStrangeness.

Definition at line 1581 of file G4INCLCrossSectionsMultiPions.cc.

                                                                                               {
        //
        //      Nucleon-antiKaon producing Nucleon-antiKaon-pion cross sections
        //
        return 0.;
    }

NKbToS2pi()

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

virtualinherited

Implements G4INCL::ICrossSections.

Reimplemented in G4INCL::CrossSectionsStrangeness.

Definition at line 1567 of file G4INCLCrossSectionsMultiPions.cc.

                                                                                              {
        //
        //      Nucleon-antiKaon producing Sigma-2pion cross sections
        //
        return 0.;
    }

NKbToSpi()

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

virtualinherited

Implements G4INCL::ICrossSections.

Reimplemented in G4INCL::CrossSectionsStrangeness.

Definition at line 1553 of file G4INCLCrossSectionsMultiPions.cc.

                                                                                             {
        //
        //      Nucleon-antiKaon producing Sigma-pion cross sections
        //
        return 0.;
    }

NKelastic()

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

virtualinherited

Implements G4INCL::ICrossSections.

Reimplemented in G4INCL::CrossSectionsStrangeness.

Definition at line 1345 of file G4INCLCrossSectionsMultiPions.cc.

                                                                                                {
        //
        //      Kaon-Nucleon elastic cross sections
        //
        return 0.;
    }

NKToNK()

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

virtualinherited

Nucleon-Kaon quasi-elastic and inelastic cross sections.

Implements G4INCL::ICrossSections.

Reimplemented in G4INCL::CrossSectionsStrangeness.

Definition at line 1525 of file G4INCLCrossSectionsMultiPions.cc.

                                                                                           {
        //
        //      Nucleon-Kaon quasi-elastic cross sections
        //
        return 0.;
    }

NKToNK2pi()

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

virtualinherited

Implements G4INCL::ICrossSections.

Reimplemented in G4INCL::CrossSectionsStrangeness.

Definition at line 1539 of file G4INCLCrossSectionsMultiPions.cc.

                                                                                              {
        //
        //      Nucleon-Kaon producing Nucleon-Kaon-2pion cross sections
        //
        return 0.;
    }

NKToNKpi()

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

virtualinherited

Implements G4INCL::ICrossSections.

Reimplemented in G4INCL::CrossSectionsStrangeness.

Definition at line 1532 of file G4INCLCrossSectionsMultiPions.cc.

                                                                                             {
        //
        //      Nucleon-Kaon producing Nucleon-Kaon-pion cross sections
        //
        return 0.;
    }

NLToNS()

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

virtualinherited

Nucleon-Hyperon cross sections.

Implements G4INCL::ICrossSections.

Reimplemented in G4INCL::CrossSectionsStrangeness.

Definition at line 1504 of file G4INCLCrossSectionsMultiPions.cc.

                                                                                           {
        //
        //      Nucleon-Hyperon multiplet changing cross sections
        //
        return 0.;
    }

NNElastic()

G4double G4INCL::CrossSectionsMultiPions::NNElastic ( Particle const *const  part1, Particle const *const  part2  )

protectedinherited

Internal implementation of the NN elastic cross section.

Definition at line 85 of file G4INCLCrossSectionsMultiPions.cc.

                                                                                                        {
 
    /* The NN cross section is parametrised as a function of the lab momentum
     * of one of the nucleons. For NDelta or DeltaDelta, the physical
     * assumption is that the cross section is the same as NN *for the same
     * total CM energy*. Thus, we calculate s from the particles involved, and
     * we convert this value to the lab momentum of a nucleon *as if this were
     * an NN collision*.
     */
    const G4double s = KinematicsUtils::squareTotalEnergyInCM(part1, part2);
 
    if(part1->isNucleon() && part2->isNucleon()) {  // NN
      const G4int i = ParticleTable::getIsospin(part1->getType())
        + ParticleTable::getIsospin(part2->getType());
      return NNElasticFixed(s, i);
    }
    else {  // Nucleon-Delta and Delta-Delta
      const G4double plab = 0.001*KinematicsUtils::momentumInLab(s, ParticleTable::effectiveNucleonMass, ParticleTable::effectiveNucleonMass);
      if (plab < 0.440) {
        return 34.*std::pow(plab/0.4, (-2.104));
      }
      else if (plab < 0.800) {
        return 23.5+1000.*std::pow(plab-0.7, 4);
      }
      else if (plab <= 2.0) {
        return 1250./(50.+plab)-4.*std::pow(plab-1.3, 2);
      }
      else {
        return 77./(plab+1.5);
      }
    }
  }

References G4INCL::ParticleTable::effectiveNucleonMass, G4INCL::ParticleTable::getIsospin(), G4INCL::Particle::getType(), G4INCL::Particle::isNucleon(), G4INCL::KinematicsUtils::momentumInLab(), G4INCL::CrossSectionsMultiPions::NNElasticFixed(), s, and G4INCL::KinematicsUtils::squareTotalEnergyInCM().

Referenced by G4INCL::CrossSectionsMultiPions::elastic(), G4INCL::CrossSectionsTruncatedMultiPions::elastic(), and G4INCL::CrossSectionsMultiPions::NNFourPi().

NNElasticFixed()

G4double G4INCL::CrossSectionsMultiPions::NNElasticFixed ( const G4double  s, const G4int  i  )

protectedinherited

Internal implementation of the NN elastic cross section with fixed isospin.

Definition at line 118 of file G4INCLCrossSectionsMultiPions.cc.

                                                                                    {
 
      /* From NNElastic, with isospin fixed and for NN only.
      */
 
      G4double plab = 0.001*KinematicsUtils::momentumInLab(s, ParticleTable::effectiveNucleonMass, ParticleTable::effectiveNucleonMass);
      G4double sigma = 0.;
 
      if (i == 0) {  // pn
        if (plab < 0.446) {
          G4double alp=std::log(plab);
          sigma = 6.3555*std::exp(-3.2481*alp-0.377*alp*alp);
        }
        else if (plab < 0.851) {
          sigma = 33.+196.*std::pow(std::fabs(plab-0.95),2.5);
        }
        else if (plab <= 2.0) {
          sigma = 31./std::sqrt(plab);
        }
        else {
          sigma = 77./(plab+1.5);
        }
        //if(plab < 0.9 && plab > 0.802) sigma -= 0.1387*std::exp(-std::pow((plab-0.861),2)/0.0006861); //correction if totalcx-sumcx < 0.1
        //if(plab < 1.4 && plab > 1.31) sigma -= 0.1088*std::exp(-std::pow((plab-1.35),2)/0.00141); //correction if totalcx-sumcx < 0.1
        return sigma;
      }
      else {  // pp and nn
        if (plab < 0.440) {
          return 34.*std::pow(plab/0.4, (-2.104));
        }
        else if (plab < 0.8067) {
          return 23.5+1000.*std::pow(plab-0.7, 4);
        }
        else if (plab <= 2.0) {
          return 1250./(50.+plab)-4.*std::pow(plab-1.3, 2);
        }
        else if (plab <= 3.0956) {
          return 77./(plab+1.5);
        }
        else {
          G4double alp=std::log(plab);
          return 11.2+25.5*std::pow(plab, -1.12)+0.151*std::pow(alp, 2)-1.62*alp;
        }
      }
    }

References G4INCL::ParticleTable::effectiveNucleonMass, G4INCL::KinematicsUtils::momentumInLab(), and s.

Referenced by G4INCL::CrossSectionsMultiPions::NNElastic(), and G4INCL::CrossSectionsMultiPions::NNInelasticIso().

NNFourPi()

G4double G4INCL::CrossSectionsMultiPions::NNFourPi ( Particle const *const  part1, Particle const *const  part2  )

protectedvirtualinherited

Cross section for direct 4-pion production - NN entrance channel.

Definition at line 524 of file G4INCLCrossSectionsMultiPions.cc.

                                                                                                                 {
      const G4double s = KinematicsUtils::squareTotalEnergyInCM(particle1, particle2);
      if(s<6.25E6)
        return 0.;
      const G4double sigma = NNTot(particle1, particle2) - NNElastic(particle1, particle2) - NNOnePiOrDelta(particle1, particle2) - NNTwoPi(particle1, particle2) - NNThreePi(particle1, particle2);
      return ((sigma>1.e-9) ? sigma : 0.);
    }

References G4INCL::CrossSectionsMultiPions::NNElastic(), G4INCL::CrossSectionsMultiPions::NNOnePiOrDelta(), G4INCL::CrossSectionsMultiPions::NNThreePi(), G4INCL::CrossSectionsMultiPions::NNTot(), G4INCL::CrossSectionsMultiPions::NNTwoPi(), s, and G4INCL::KinematicsUtils::squareTotalEnergyInCM().

Referenced by G4INCL::CrossSectionsMultiPions::NNToxPiNN().

NNInelasticIso()

G4double G4INCL::CrossSectionsMultiPions::NNInelasticIso ( const G4double  ener, const G4int  iso  )

protectedinherited

Internal implementation of the isospin dependent NN reaction cross section.

Definition at line 224 of file G4INCLCrossSectionsMultiPions.cc.

                                                                                         {
 
      const G4double s = ener*ener;
      G4double sincl;
 
      if (iso != 0) {
        if(s>=4074595.287720512986) { // plab>800 MeV/c
          sincl = NNTotFixed(s, 2)-NNElasticFixed(s, 2);
        }
        else {
          sincl =  0. ;
        }
      } else {
        if(s>=4074595.287720512986) { // plab>800 MeV/c
          sincl = 2*(NNTotFixed(s, 0)-NNElasticFixed(s, 0))-(NNTotFixed(s, 2)-NNElasticFixed(s, 2));
        }
        else {
          return 0. ;
        }
      }
      if (sincl < 0.) sincl = 0.;
      return sincl;
    }

References G4INCL::CrossSectionsMultiPions::NNElasticFixed(), G4INCL::CrossSectionsMultiPions::NNTotFixed(), and s.

Referenced by G4INCL::CrossSectionsMultiPions::NDeltaToNN(), G4INCL::CrossSectionsMultiPions::NNOnePi(), G4INCL::CrossSectionsMultiPions::NNOnePiOrDelta(), G4INCL::CrossSectionsMultiPions::NNThreePi(), NNToNDeltaEta(), NNToNDeltaOmega(), G4INCL::CrossSectionsStrangeness::NNToNLK2pi(), G4INCL::CrossSectionsStrangeness::NNToNLKpi(), NNToNNEtaFourPi(), NNToNNEtaOnePi(), NNToNNEtaOnePiOrDelta(), NNToNNEtaThreePi(), NNToNNEtaTwoPi(), NNToNNEtaxPi(), NNToNNOmegaFourPi(), NNToNNOmegaOnePi(), NNToNNOmegaOnePiOrDelta(), NNToNNOmegaThreePi(), NNToNNOmegaTwoPi(), NNToNNOmegaxPi(), G4INCL::CrossSectionsStrangeness::NNToNSK2pi(), G4INCL::CrossSectionsStrangeness::NNToNSKpi(), and G4INCL::CrossSectionsMultiPions::NNTwoPi().

NNOnePi()

G4double G4INCL::CrossSectionsMultiPions::NNOnePi ( Particle const *const  part1, Particle const *const  part2  )

protectedvirtualinherited

Cross section for direct 1-pion production - NN entrance channel.

Definition at line 455 of file G4INCLCrossSectionsMultiPions.cc.

                                                                                                                {
        // Cross section for nucleon-nucleon directly producing one pion
 
        const G4int iso=ParticleTable::getIsospin(particle1->getType()) + ParticleTable::getIsospin(particle2->getType());
        if (iso!=0) // If pp or nn we choose to always pass by the N-N to N-Delta channel
          return 0.;
 
        const G4double ener=KinematicsUtils::totalEnergyInCM(particle1, particle2);
 
        const G4double xsiso2=NNInelasticIso(ener, 2);
        const G4double xsiso0=NNInelasticIso(ener, 0);
        return 0.25*(NNOnePiOrDelta(ener, 0, xsiso0)+ NNOnePiOrDelta(ener, 2, xsiso2));
    }

References G4INCL::ParticleTable::getIsospin(), G4INCL::Particle::getType(), G4INCL::CrossSectionsMultiPions::NNInelasticIso(), G4INCL::CrossSectionsMultiPions::NNOnePiOrDelta(), and G4INCL::KinematicsUtils::totalEnergyInCM().

Referenced by G4INCL::CrossSectionsMultiPions::NNToxPiNN().

NNOnePiOrDelta() [1/2]

G4double G4INCL::CrossSectionsMultiPions::NNOnePiOrDelta ( const G4double  ener, const G4int  iso, const G4double  xsiso  )

protectedvirtualinherited

Cross section for direct 1-pion production + delta production - NN entrance channel.

Definition at line 248 of file G4INCLCrossSectionsMultiPions.cc.

                                                                                                               {
 
        /* Article J. Physique 48 (1987)1901-1924 "Energy dependence of
         nucleon-cucleon inelastic total cross-sections."
         J. Bystricky, P. La France, F. Lehar, F. Perrot, T. Siemiarczuk & P. Winternitz
         S11PZ= section pp->pp pi0
         S01PP= section pp->pn pi+
         S01PZ= section pn->pn pi0
         S11PM= section pn->pp pi-
         S= X-Section, 1st number : 1 if pp and 0 if pn
         2nd number = number of pions, PP= pi+; PZ= pi0 ; PM= pi-
         */
 
        const G4double s = ener*ener;
        G4double plab = 0.001*KinematicsUtils::momentumInLab(s, ParticleTable::effectiveNucleonMass, ParticleTable::effectiveNucleonMass);
 
        G4double snnpit1=0.;
        G4double snnpit=0.;
        G4double s11pz=0.;
        G4double s01pp=0.;
        G4double s01pz=0.;
        G4double s11pm=0.;
 
        if ((iso != 0) && (plab < 2.1989)) {
            snnpit = xsiso - NNTwoPi(ener, iso, xsiso);
            if (snnpit < 1.e-8) snnpit=0.;
            return snnpit;
        }
        else if ((iso == 0) && (plab < 1.7369)) {
            snnpit = xsiso;
            if (snnpit < 1.e-8) snnpit=0.;
            return snnpit;
        }
 
//s11pz
        if (plab > 18.) {
            s11pz=55.185/std::pow((0.1412*plab+5),2);
        }
        else if (plab > 13.9) {
            G4double alp=std::log(plab);
            s11pz=6.67-13.3*std::pow(plab, -6.18)+0.456*alp*alp-3.29*alp;
        }
        else if (plab >= 0.7765) {
            const G4double b=BystrickyEvaluator<7>::eval(plab,s11pzOOT,s11pzHC);
            s11pz=b*b;
        }
//s01pp
        if (plab >= 0.79624) {
            const G4double b=BystrickyEvaluator<8>::eval(plab,s01ppOOT,s01ppHC);
            s01pp=b*b;
        }
 
// channel T=1
        snnpit1=s11pz+s01pp;
        if (snnpit1 < 1.e-8) snnpit1=0.;
        if (iso != 0) {
            return snnpit1;
        }
 
//s01pz
        if (plab > 4.5) {
            s01pz=15289.4/std::pow((11.573*plab+5),2);
        }
        else if (plab >= 0.777) {
            const G4double b=BystrickyEvaluator<4>::eval(plab,s01pzOOT,s01pzHC);
            s01pz=b*b;
        }
//s11pm
        if (plab > 14.) {
            s11pm=46.68/std::pow((0.2231*plab+5),2);
        }
        else if (plab >= 0.788) {
            const G4double b=BystrickyEvaluator<4>::eval(plab,s11pmOOT,s11pmHC);
            s11pm=b*b;
        }
 
// channel T=0
//        snnpit=s01pz+2*s11pm-snnpit1; //modif 2*(s01pz+2*s11pm)-snnpit1;
        snnpit = 2*(s01pz+2*s11pm)-snnpit1;
        if (snnpit < 1.e-8) snnpit=0.;
        return snnpit;
    }

References G4INCL::ParticleTable::effectiveNucleonMass, G4INCL::BystrickyEvaluator< N >::eval(), G4INCL::KinematicsUtils::momentumInLab(), G4INCL::CrossSectionsMultiPions::NNTwoPi(), s, G4INCL::CrossSectionsMultiPions::s01ppHC, G4INCL::CrossSectionsMultiPions::s01ppOOT, G4INCL::CrossSectionsMultiPions::s01pzHC, G4INCL::CrossSectionsMultiPions::s01pzOOT, G4INCL::CrossSectionsMultiPions::s11pmHC, G4INCL::CrossSectionsMultiPions::s11pmOOT, G4INCL::CrossSectionsMultiPions::s11pzHC, and G4INCL::CrossSectionsMultiPions::s11pzOOT.

Referenced by G4INCL::CrossSectionsMultiPions::NDeltaToNN(), G4INCL::CrossSectionsMultiPions::NNFourPi(), G4INCL::CrossSectionsMultiPions::NNOnePi(), G4INCL::CrossSectionsMultiPions::NNOnePiOrDelta(), G4INCL::CrossSectionsMultiPions::NNThreePi(), G4INCL::CrossSectionsMultiPions::NNToNDelta(), G4INCL::CrossSectionsStrangeness::NNToNLK2pi(), G4INCL::CrossSectionsStrangeness::NNToNLKpi(), NNToNNEtaOnePi(), NNToNNEtaOnePiOrDelta(), NNToNNEtaThreePi(), NNToNNOmegaOnePi(), NNToNNOmegaOnePiOrDelta(), NNToNNOmegaThreePi(), G4INCL::CrossSectionsStrangeness::NNToNSK2pi(), G4INCL::CrossSectionsStrangeness::NNToNSKpi(), and G4INCL::CrossSectionsMultiPions::NNTwoPi().

NNOnePiOrDelta() [2/2]

G4double G4INCL::CrossSectionsMultiPions::NNOnePiOrDelta ( Particle const *const  part1, Particle const *const  part2  )

protectedvirtualinherited

Cross section for direct 1-pion production - NN entrance channel.

Definition at line 469 of file G4INCLCrossSectionsMultiPions.cc.

                                                                                                                       {
        // Cross section for nucleon-nucleon directly producing one pion or producing a nucleon-delta pair
        const G4double ener=KinematicsUtils::totalEnergyInCM(particle1, particle2);
        const G4int iso=ParticleTable::getIsospin(particle1->getType()) + ParticleTable::getIsospin(particle2->getType());
 
        const G4double xsiso2=NNInelasticIso(ener, 2);
        if (iso != 0)
          return NNOnePiOrDelta(ener, iso, xsiso2);
        else {
          const G4double xsiso0=NNInelasticIso(ener, 0);
          return 0.5*(NNOnePiOrDelta(ener, 0, xsiso0)+ NNOnePiOrDelta(ener, 2, xsiso2));
        }
    }

References G4INCL::ParticleTable::getIsospin(), G4INCL::Particle::getType(), G4INCL::CrossSectionsMultiPions::NNInelasticIso(), G4INCL::CrossSectionsMultiPions::NNOnePiOrDelta(), and G4INCL::KinematicsUtils::totalEnergyInCM().

NNThreePi() [1/2]

G4double G4INCL::CrossSectionsMultiPions::NNThreePi ( const G4double  ener, const G4int  iso, const G4double  xsiso, const G4double  xs1pi, const G4double  xs2pi  )

protectedvirtualinherited

Cross section for direct 3-pion production - NN entrance channel.

Definition at line 423 of file G4INCLCrossSectionsMultiPions.cc.

                                                                                                                                                      {
 
        const G4double s = ener*ener;
        G4double plab = 0.001*KinematicsUtils::momentumInLab(s, ParticleTable::effectiveNucleonMass, ParticleTable::effectiveNucleonMass);
 
        G4double snn3pit=0.;
 
        if (iso == 0) {
// channel T=0
            if (plab > 7.2355) {
                return 46.72/std::pow((plab - 5.8821),2);
            }
            else {
                snn3pit=xsiso-xs1pi-xs2pi;
                if (snn3pit < 1.e-8) snn3pit=0.;
                return snn3pit;
            }
        }
        else {
// channel T=1
            if (plab > 7.206) {
                return 5592.92/std::pow((plab+14.9764),2);
            }
            else if (plab > 2.1989){
                snn3pit=xsiso-xs1pi-xs2pi;
                if (snn3pit < 1.e-8) snn3pit=0.;
                return snn3pit;
            }
            else return snn3pit;
        }
    }

References G4INCL::ParticleTable::effectiveNucleonMass, G4INCL::KinematicsUtils::momentumInLab(), and s.

Referenced by G4INCL::CrossSectionsMultiPions::NNFourPi(), G4INCL::CrossSectionsMultiPions::NNThreePi(), NNToNNEtaThreePi(), NNToNNOmegaThreePi(), and G4INCL::CrossSectionsMultiPions::NNToxPiNN().

NNThreePi() [2/2]

G4double G4INCL::CrossSectionsMultiPions::NNThreePi ( Particle const *const  part1, Particle const *const  part2  )

protectedvirtualinherited

Cross section for direct 3-pion production - NN entrance channel.

Definition at line 502 of file G4INCLCrossSectionsMultiPions.cc.

                                                                                                                  {
        //
        //     Nucleon-Nucleon producing one pion cross sections
        //
 
        const G4double ener=KinematicsUtils::totalEnergyInCM(particle1, particle2);
        const G4int iso=ParticleTable::getIsospin(particle1->getType()) + ParticleTable::getIsospin(particle2->getType());
 
 
        const G4double xsiso2=NNInelasticIso(ener, 2);
        const G4double xs1pi2=NNOnePiOrDelta(ener, 2, xsiso2);
        const G4double xs2pi2=NNTwoPi(ener, 2, xsiso2);
        if (iso != 0)
          return NNThreePi(ener, 2, xsiso2, xs1pi2, xs2pi2);
        else {
          const G4double xsiso0=NNInelasticIso(ener, 0);
          const G4double xs1pi0=NNOnePiOrDelta(ener, 0, xsiso0);
          const G4double xs2pi0=NNTwoPi(ener, 0, xsiso0);
          return 0.5*(NNThreePi(ener, 0, xsiso0, xs1pi0, xs2pi0)+ NNThreePi(ener, 2, xsiso2, xs1pi2, xs2pi2));
        }
    }

References G4INCL::ParticleTable::getIsospin(), G4INCL::Particle::getType(), G4INCL::CrossSectionsMultiPions::NNInelasticIso(), G4INCL::CrossSectionsMultiPions::NNOnePiOrDelta(), G4INCL::CrossSectionsMultiPions::NNThreePi(), G4INCL::CrossSectionsMultiPions::NNTwoPi(), and G4INCL::KinematicsUtils::totalEnergyInCM().

NNToMissingStrangeness()

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

virtualinherited

Implements G4INCL::ICrossSections.

Reimplemented in G4INCL::CrossSectionsStrangeness.

Definition at line 1409 of file G4INCLCrossSectionsMultiPions.cc.

                                                                                                           {
        //
        //      Nucleon-Nucleon missing strangeness production cross sections
        //
        return 0.;
    }

NNToNDelta()

G4double G4INCL::CrossSectionsMultiPions::NNToNDelta ( Particle const *const  p1, Particle const *const  p2  )

virtualinherited

Cross section for Delta production - NN Channel.

Implements G4INCL::ICrossSections.

Definition at line 798 of file G4INCLCrossSectionsMultiPions.cc.

                                                                                                   {
// assert(p1->isNucleon() && p2->isNucleon());
    const G4int isospin = ParticleTable::getIsospin(p1->getType()) + ParticleTable::getIsospin(p2->getType());
    G4double sigma = NNOnePiOrDelta(p1, p2);
    if(isospin==0)
      sigma *= 0.5;
    return sigma;
  }

References G4INCL::ParticleTable::getIsospin(), G4INCL::Particle::getType(), and G4INCL::CrossSectionsMultiPions::NNOnePiOrDelta().

NNToNDeltaEta()

G4double G4INCL::CrossSectionsMultiPionsAndResonances::NNToNDeltaEta ( Particle const *const  p1, Particle const *const  p2  )

virtual

Cross section for N-Delta-Eta production - NNEta Channel.

Reimplemented from G4INCL::CrossSectionsMultiPions.

Definition at line 1092 of file G4INCLCrossSectionsMultiPionsAndResonances.cc.

                                                                                                                     {
// assert(p1->isNucleon() && p2->isNucleon());
        const G4int i = ParticleTable::getIsospin(p1->getType()) + ParticleTable::getIsospin(p2->getType());
        const G4double ener=KinematicsUtils::totalEnergyInCM(p1, p2) - 581.437; // 581.437 MeV translation to open pion production in NNEta
        if (ener < 2018.563) return 0.;
        G4double xsinelas;
        if (i!=0) 
            xsinelas=CrossSectionsMultiPions::NNInelasticIso(ener, 2);
        else 
            xsinelas=0.5*(CrossSectionsMultiPions::NNInelasticIso(ener, 0)+CrossSectionsMultiPions::NNInelasticIso(ener, 2));
        if (xsinelas <= 1.e-9) return 0.;
        G4double ratio=(NNToNNEta(p1, p2)-NNToNNEtaExclu(p1, p2))/xsinelas;
        G4double sigma = NNToNNEtaOnePiOrDelta(p1, p2)*ratio;
        if(i==0)
            sigma *= 0.5;
        return sigma;
    }

References G4INCL::ParticleTable::getIsospin(), G4INCL::Particle::getType(), G4INCL::CrossSectionsMultiPions::NNInelasticIso(), NNToNNEta(), NNToNNEtaExclu(), NNToNNEtaOnePiOrDelta(), and G4INCL::KinematicsUtils::totalEnergyInCM().

NNToNDeltaOmega()

G4double G4INCL::CrossSectionsMultiPionsAndResonances::NNToNDeltaOmega ( Particle const *const  p1, Particle const *const  p2  )

virtual

Cross section for N-Delta-Eta production - NNOmega Channel.

Reimplemented from G4INCL::CrossSectionsMultiPions.

Definition at line 1241 of file G4INCLCrossSectionsMultiPionsAndResonances.cc.

                                                                                                                       {
// assert(p1->isNucleon() && p2->isNucleon());
//jcd to be removed
//        return 0.;
//jcd    
        const G4int i = ParticleTable::getIsospin(p1->getType()) + ParticleTable::getIsospin(p2->getType());
        const G4double ener=KinematicsUtils::totalEnergyInCM(p1, p2) - 783.437; // 783.437 MeV translation to open pion production in NNOmega
        if (ener < 2018.563) return 0.;
        G4double xsinelas;
        if (i!=0) 
            xsinelas=CrossSectionsMultiPions::NNInelasticIso(ener, 2);
        else 
            xsinelas=0.5*(CrossSectionsMultiPions::NNInelasticIso(ener, 0)+CrossSectionsMultiPions::NNInelasticIso(ener, 2));
        if (xsinelas <= 1.e-9) return 0.;
        G4double ratio=(NNToNNOmega(p1, p2)-NNToNNOmegaExclu(p1, p2))/xsinelas;
        G4double sigma = NNToNNOmegaOnePiOrDelta(p1, p2)*ratio;
        if(i==0)
            sigma *= 0.5;
        return sigma;
    }

References G4INCL::ParticleTable::getIsospin(), G4INCL::Particle::getType(), G4INCL::CrossSectionsMultiPions::NNInelasticIso(), NNToNNOmega(), NNToNNOmegaExclu(), NNToNNOmegaOnePiOrDelta(), and G4INCL::KinematicsUtils::totalEnergyInCM().

NNToNLK()

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

virtualinherited

Nucleon-Nucleon to Stange particles cross sections.

Implements G4INCL::ICrossSections.

Reimplemented in G4INCL::CrossSectionsStrangeness.

Definition at line 1360 of file G4INCLCrossSectionsMultiPions.cc.

                                                                                            {
        //
        //      Nucleon-Nucleon producing N-Lambda-Kaon cross sections
        //
        return 0.;
    }

NNToNLK2pi()

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

virtualinherited

Implements G4INCL::ICrossSections.

Reimplemented in G4INCL::CrossSectionsStrangeness.

Definition at line 1388 of file G4INCLCrossSectionsMultiPions.cc.

                                                                                               {
        //
        //     Nucleon-Nucleon producing N-Lambda-Kaon-2pion cross sections
        //
        return 0.;
    }

NNToNLKpi()

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

virtualinherited

Implements G4INCL::ICrossSections.

Reimplemented in G4INCL::CrossSectionsStrangeness.

Definition at line 1374 of file G4INCLCrossSectionsMultiPions.cc.

                                                                                              {
        //
        //      Nucleon-Nucleon producing N-Lambda-Kaon-pion cross sections
        //
        return 0.;
    }

NNToNNEta()

G4double G4INCL::CrossSectionsMultiPionsAndResonances::NNToNNEta ( Particle const *const  particle1, Particle const *const  particle2  )

virtual

Cross section for Eta production (inclusive) - NN entrance channel.

Reimplemented from G4INCL::CrossSectionsMultiPions.

Definition at line 691 of file G4INCLCrossSectionsMultiPionsAndResonances.cc.

                                                                                                                               {
 
        const G4double ener=KinematicsUtils::totalEnergyInCM(particle1, particle2);
        const G4int iso=ParticleTable::getIsospin(particle1->getType()) + ParticleTable::getIsospin(particle2->getType());
 
        if (iso != 0) {
            return NNToNNEtaIso(ener, iso);
        }
        else {
            return 0.5*(NNToNNEtaIso(ener, 0)+NNToNNEtaIso(ener, 2));
        }
    }

References G4INCL::ParticleTable::getIsospin(), G4INCL::Particle::getType(), NNToNNEtaIso(), and G4INCL::KinematicsUtils::totalEnergyInCM().

Referenced by NNToNDeltaEta(), NNToNNEtaFourPi(), NNToNNEtaxPi(), NNToxPiNN(), and G4INCL::CrossSectionsStrangeness::NNToxPiNN().

NNToNNEtaExclu()

G4double G4INCL::CrossSectionsMultiPionsAndResonances::NNToNNEtaExclu ( Particle const *const  particle1, Particle const *const  particle2  )

virtual

Cross section for Eta production (exclusive) - NN entrance channel.

Reimplemented from G4INCL::CrossSectionsMultiPions.

Definition at line 767 of file G4INCLCrossSectionsMultiPionsAndResonances.cc.

                                                                                                                                    {
 
        const G4double ener=KinematicsUtils::totalEnergyInCM(particle1, particle2);
        const G4int iso=ParticleTable::getIsospin(particle1->getType()) + ParticleTable::getIsospin(particle2->getType());
 
        if (iso != 0) {
            return NNToNNEtaExcluIso(ener, iso);
        }
        else {
            return 0.5*(NNToNNEtaExcluIso(ener, 0)+NNToNNEtaExcluIso(ener, 2));
        }
    }

References G4INCL::ParticleTable::getIsospin(), G4INCL::Particle::getType(), NNToNNEtaExcluIso(), and G4INCL::KinematicsUtils::totalEnergyInCM().

Referenced by NNToNDeltaEta(), NNToNNEtaFourPi(), and NNToNNEtaxPi().

NNToNNEtaExcluIso()

G4double G4INCL::CrossSectionsMultiPionsAndResonances::NNToNNEtaExcluIso ( const G4double  ener, const G4int  iso  )

protectedvirtual

Isotopic Cross section for Eta production (exclusive) - NN entrance channel.

Definition at line 704 of file G4INCLCrossSectionsMultiPionsAndResonances.cc.

                                                                                                         {
 
        const G4double Ecm=0.001*ener;
        G4double sNNEta; // pp->pp+eta
        G4double sNNEta1; // np->np+eta
        G4double sNNEta2; // np->d+eta (d wil be considered as np - How far is this right?)
 
        if(Ecm>=3.875) { // By hand (JCD)
            sNNEta = -13.008*Ecm*Ecm + 84.531*Ecm + 36.234;
        }
        else if(Ecm>=2.725) { // By hand (JCD)
            sNNEta = -913.2809*std::pow(Ecm,5) + 15564.27*std::pow(Ecm,4) - 105054.9*std::pow(Ecm,3) + 351294.2*std::pow(Ecm,2) - 582413.9*Ecm + 383474.7;
        }
        else if(Ecm>=2.575) { // By hand (JCD)
            sNNEta = -2640.3*Ecm*Ecm + 14692*Ecm - 20225;
        }
        else {
            sNNEta = -147043.497285*std::pow(Ecm,4) + 1487222.5438123*std::pow(Ecm,3) - 5634399.900744*std::pow(Ecm,2) + 9477290.199378*Ecm - 5972174.353438;
        }
 
        G4double Mn=ParticleTable::getRealMass(Neutron)/1000.;
        G4double Mp=ParticleTable::getRealMass(Proton)/1000.;
        G4double Meta=ParticleTable::getRealMass(Eta)/1000.;
        G4double Thr0=0.;
        if (iso > 0) {
            Thr0=2.*Mp+Meta;
        }
        else if (iso < 0) {
            Thr0=2.*Mn+Meta;
        }
        else {
            Thr0=Mn+Mp+Meta;
        }
 
        if (sNNEta < 1.e-9 || Ecm < Thr0) sNNEta = 0.;  // Thr0: Ecm threshold
 
        if (iso != 0) {
            return sNNEta/1000.; // parameterization in microbarn (not millibarn)!
        }
 
        if(Ecm>=3.9) {
            sNNEta1 = sNNEta;
        }
        else if (Ecm >= 3.5) {
            sNNEta1 = -1916.2*Ecm*Ecm*Ecm + 21556.0*Ecm*Ecm - 80828.0*Ecm + 101200.0;
        }
        else if (Ecm >= 2.525) {
            sNNEta1 = -4433.586*Ecm*Ecm*Ecm*Ecm + 56581.54*Ecm*Ecm*Ecm - 270212.6*Ecm*Ecm + 571650.6*Ecm - 451091.6;
        }
        else {
            sNNEta1 = 17570.217219*Ecm*Ecm - 84910.985402*Ecm + 102585.55847;
        }
 
        sNNEta2 = -10220.89518466*Ecm*Ecm+51227.30841724*Ecm-64097.96025731;
        if (sNNEta2 < 0.) sNNEta2=0.;
 
        sNNEta = 2*(sNNEta1+sNNEta2)-sNNEta;
        if (sNNEta < 1.e-9 || Ecm < Thr0) sNNEta = 0.;  // Thr0: Ecm threshold
 
        return sNNEta/1000.; // parameterization in microbarn (not millibarn)!
 
    }

References G4INCL::Eta, G4INCL::ParticleTable::getRealMass(), G4INCL::Neutron, and G4INCL::Proton.

Referenced by NNToNNEtaExclu(), and NNToNNEtaIso().

NNToNNEtaFourPi()

G4double G4INCL::CrossSectionsMultiPionsAndResonances::NNToNNEtaFourPi ( Particle const *const  part1, Particle const *const  part2  )

protectedvirtual

Cross section for direct 4-pion production - NNEta channel.

Definition at line 1039 of file G4INCLCrossSectionsMultiPionsAndResonances.cc.

                                                                                                                                     {
        //
        //     Nucleon-Nucleon producing one eta and four pions
        //
 
        const G4double ener=KinematicsUtils::totalEnergyInCM(particle1, particle2) - 581.437; // 581.437 MeV translation to open pion production in NNEta
        if (ener < 2018.563) return 0.;
        const G4double s = ener*ener;
        const G4int i = ParticleTable::getIsospin(particle1->getType()) + ParticleTable::getIsospin(particle2->getType());
        G4double xsinelas;
        if (i!=0) 
            xsinelas=CrossSectionsMultiPions::NNInelasticIso(ener, 2);
        else 
            xsinelas=0.5*(CrossSectionsMultiPions::NNInelasticIso(ener, 0)+CrossSectionsMultiPions::NNInelasticIso(ener, 2));
        if (xsinelas <= 1.e-9) return 0.;
        G4double ratio=(NNToNNEta(particle1, particle2)-NNToNNEtaExclu(particle1, particle2))/xsinelas;
        if(s<6.25E6)
            return 0.;
        const G4double sigma = NNToNNEta(particle1, particle2) - NNToNNEtaExclu(particle1, particle2) - ratio*(NNToNNEtaOnePiOrDelta(particle1, particle2) + NNToNNEtaTwoPi(particle1, particle2) + NNToNNEtaThreePi(particle1, particle2));
        return ((sigma>1.e-9) ? sigma : 0.);
    }

References G4INCL::ParticleTable::getIsospin(), G4INCL::Particle::getType(), G4INCL::CrossSectionsMultiPions::NNInelasticIso(), NNToNNEta(), NNToNNEtaExclu(), NNToNNEtaOnePiOrDelta(), NNToNNEtaThreePi(), NNToNNEtaTwoPi(), s, and G4INCL::KinematicsUtils::totalEnergyInCM().

Referenced by NNToNNEtaxPi().

NNToNNEtaIso()

G4double G4INCL::CrossSectionsMultiPionsAndResonances::NNToNNEtaIso ( const G4double  ener, const G4int  iso  )

protectedvirtual

Cross section for One (more) pion production - piN entrance channel.

Cross section for Two (more) pion production - piN entrance channel

Cross section for Three (more) pion production - piN entrance channel virtual G4double piNThreePi(Particle const * const p1, Particle const * const p2);

Isotopic Cross section for Eta production (inclusive) - NN entrance channel

Definition at line 638 of file G4INCLCrossSectionsMultiPionsAndResonances.cc.

                                                                                                    {
 
        const G4double Ecm=0.001*ener;
        G4double sNNEta; // pp->pp+eta(+X)
        G4double sNNEta1; // np->np+eta(+X)
        G4double sNNEta2; // np->d+eta (d will be considered as np - How far is this right?)
        G4double x=Ecm*Ecm/5.88;
            
//jcd
        if (Ecm >= 3.05) {
            sNNEta = 2.5*std::pow((x-1.),1.47)*std::pow(x,-1.25)*1000.;
        }      
        else if(Ecm >= 2.6) {
            sNNEta = -327.29*Ecm*Ecm*Ecm + 2870.*Ecm*Ecm - 7229.3*Ecm + 5273.3;
            if (sNNEta <= NNToNNEtaExcluIso(ener, 2)*1000.) sNNEta = NNToNNEtaExcluIso(ener, 2)*1000.;
        }
        else {
            sNNEta = NNToNNEtaExcluIso(ener, 2)*1000.;
        }
//jcd
        if (sNNEta < 1.e-9) sNNEta = 0.;
 
        if (iso != 0) {
            return sNNEta/1000.; // parameterization in microbarn (not millibarn)!
        }
 
        if(Ecm >= 6.25) {
            sNNEta1 = sNNEta;
        }
        else if (Ecm >= 2.6) {
            sNNEta1 = sNNEta*std::exp(-(-5.53151576/Ecm+0.8850425));
        }
        else if (Ecm >= 2.525) { // = exclusive pn
            sNNEta1 = -4433.586*Ecm*Ecm*Ecm*Ecm + 56581.54*Ecm*Ecm*Ecm - 270212.6*Ecm*Ecm + 571650.6*Ecm - 451091.6;
        }
        else { // = exclusive pn
            sNNEta1 = 17570.217219*Ecm*Ecm - 84910.985402*Ecm + 102585.55847;
        }
 
        sNNEta2 = -10220.89518466*Ecm*Ecm+51227.30841724*Ecm-64097.96025731;
        if (sNNEta2 < 0.) sNNEta2=0.;
 
        sNNEta = 2*(sNNEta1+sNNEta2)-sNNEta;
 
        G4double Mn=ParticleTable::getRealMass(Neutron)/1000.;
        G4double Mp=ParticleTable::getRealMass(Proton)/1000.;
        G4double Meta=ParticleTable::getRealMass(Eta)/1000.;
        if (sNNEta < 1.e-9 || Ecm < Mn+Mp+Meta) sNNEta = 0.;
 
        return sNNEta/1000.; // parameterization in microbarn (not millibarn)!
    }

References G4INCL::Eta, G4INCL::ParticleTable::getRealMass(), G4INCL::Neutron, NNToNNEtaExcluIso(), and G4INCL::Proton.

Referenced by NNToNNEta().

NNToNNEtaOnePi()

G4double G4INCL::CrossSectionsMultiPionsAndResonances::NNToNNEtaOnePi ( Particle const *const  part1, Particle const *const  part2  )

protectedvirtual

Cross section for direct 1-pion production - NNEta channel.

Definition at line 967 of file G4INCLCrossSectionsMultiPionsAndResonances.cc.

                                                                                                                                    {
        // Cross section for nucleon-nucleon producing one eta and one pion
 
        const G4int iso=ParticleTable::getIsospin(particle1->getType()) + ParticleTable::getIsospin(particle2->getType());
        if (iso!=0)
            return 0.;
 
        const G4double ener=KinematicsUtils::totalEnergyInCM(particle1, particle2) - 581.437; // 581.437 MeV translation to open pion production in NNEta (= 2705.55 - 2018.563; 4074595.287720512986=2018.563*2018.563)
        if (ener < 2018.563) return 0.;
 
        const G4double xsiso2=CrossSectionsMultiPions::NNInelasticIso(ener, 2);
        const G4double xsiso0=CrossSectionsMultiPions::NNInelasticIso(ener, 0);
 
        return 0.25*(CrossSectionsMultiPions::NNOnePiOrDelta(ener, 0, xsiso0)+ CrossSectionsMultiPions::NNOnePiOrDelta(ener, 2, xsiso2));
    }

References G4INCL::ParticleTable::getIsospin(), G4INCL::Particle::getType(), G4INCL::CrossSectionsMultiPions::NNInelasticIso(), G4INCL::CrossSectionsMultiPions::NNOnePiOrDelta(), and G4INCL::KinematicsUtils::totalEnergyInCM().

Referenced by NNToNNEtaxPi().

NNToNNEtaOnePiOrDelta()

G4double G4INCL::CrossSectionsMultiPionsAndResonances::NNToNNEtaOnePiOrDelta ( Particle const *const  part1, Particle const *const  part2  )

protectedvirtual

Cross section for direct 1-pion production - NNEta channel.

Definition at line 983 of file G4INCLCrossSectionsMultiPionsAndResonances.cc.

                                                                                                                                           {
        const G4double ener=KinematicsUtils::totalEnergyInCM(particle1, particle2) - 581.437; // 581.437 MeV translation to open pion production in NNEta
        if (ener < 2018.563) return 0.;
        const G4int iso=ParticleTable::getIsospin(particle1->getType()) + ParticleTable::getIsospin(particle2->getType());
 
        const G4double xsiso2=CrossSectionsMultiPions::NNInelasticIso(ener, 2);
        if (iso != 0)
            return CrossSectionsMultiPions::NNOnePiOrDelta(ener, iso, xsiso2);
        else {
            const G4double xsiso0=CrossSectionsMultiPions::NNInelasticIso(ener, 0);
            return 0.5*(CrossSectionsMultiPions::NNOnePiOrDelta(ener, 0, xsiso0)+ CrossSectionsMultiPions::NNOnePiOrDelta(ener, 2, xsiso2));
        }
    }

References G4INCL::ParticleTable::getIsospin(), G4INCL::Particle::getType(), G4INCL::CrossSectionsMultiPions::NNInelasticIso(), G4INCL::CrossSectionsMultiPions::NNOnePiOrDelta(), and G4INCL::KinematicsUtils::totalEnergyInCM().

Referenced by NNToNDeltaEta(), and NNToNNEtaFourPi().

NNToNNEtaThreePi()

G4double G4INCL::CrossSectionsMultiPionsAndResonances::NNToNNEtaThreePi ( Particle const *const  part1, Particle const *const  part2  )

protectedvirtual

Cross section for direct 3-pion production - NNEta channel.

Definition at line 1016 of file G4INCLCrossSectionsMultiPionsAndResonances.cc.

                                                                                                                                      {
        //
        //     Nucleon-Nucleon producing one eta and three pions
        //
 
        const G4double ener=KinematicsUtils::totalEnergyInCM(particle1, particle2) - 581.437; // 581.437 MeV translation to open pion production in NNEta
        if (ener < 2018.563) return 0.;
        const G4int iso=ParticleTable::getIsospin(particle1->getType()) + ParticleTable::getIsospin(particle2->getType());
 
 
        const G4double xsiso2=CrossSectionsMultiPions::NNInelasticIso(ener, 2);
        const G4double xs1pi2=CrossSectionsMultiPions::NNOnePiOrDelta(ener, 2, xsiso2);
        const G4double xs2pi2=CrossSectionsMultiPions::NNTwoPi(ener, 2, xsiso2);
        if (iso != 0)
            return CrossSectionsMultiPions::NNThreePi(ener, 2, xsiso2, xs1pi2, xs2pi2);
        else {
            const G4double xsiso0=CrossSectionsMultiPions::NNInelasticIso(ener, 0);
            const G4double xs1pi0=CrossSectionsMultiPions::NNOnePiOrDelta(ener, 0, xsiso0);
            const G4double xs2pi0=CrossSectionsMultiPions::NNTwoPi(ener, 0, xsiso0);
            return 0.5*(CrossSectionsMultiPions::NNThreePi(ener, 0, xsiso0, xs1pi0, xs2pi0)+ CrossSectionsMultiPions::NNThreePi(ener, 2, xsiso2, xs1pi2, xs2pi2));
        }
    }

References G4INCL::ParticleTable::getIsospin(), G4INCL::Particle::getType(), G4INCL::CrossSectionsMultiPions::NNInelasticIso(), G4INCL::CrossSectionsMultiPions::NNOnePiOrDelta(), G4INCL::CrossSectionsMultiPions::NNThreePi(), G4INCL::CrossSectionsMultiPions::NNTwoPi(), and G4INCL::KinematicsUtils::totalEnergyInCM().

Referenced by NNToNNEtaFourPi(), and NNToNNEtaxPi().

NNToNNEtaTwoPi()

G4double G4INCL::CrossSectionsMultiPionsAndResonances::NNToNNEtaTwoPi ( Particle const *const  part1, Particle const *const  part2  )

protectedvirtual

Cross section for direct 2-pion production - NNEta channel.

Definition at line 997 of file G4INCLCrossSectionsMultiPionsAndResonances.cc.

                                                                                                                                    {
        //
        //     Nucleon-Nucleon producing one eta and two pions 
        //
        const G4double ener=KinematicsUtils::totalEnergyInCM(particle1, particle2) - 581.437; // 581.437 MeV translation to open pion production in NNEta
        if (ener < 2018.563) return 0.;
        const G4int iso=ParticleTable::getIsospin(particle1->getType()) + ParticleTable::getIsospin(particle2->getType());
 
 
        const G4double xsiso2=CrossSectionsMultiPions::NNInelasticIso(ener, 2);
        if (iso != 0) {
            return CrossSectionsMultiPions::NNTwoPi(ener, 2, xsiso2);
        }
        else {
            const G4double xsiso0=CrossSectionsMultiPions::NNInelasticIso(ener, 0);
            return 0.5*(CrossSectionsMultiPions::NNTwoPi(ener, 0, xsiso0)+ CrossSectionsMultiPions::NNTwoPi(ener, 2, xsiso2));
        }
    }

References G4INCL::ParticleTable::getIsospin(), G4INCL::Particle::getType(), G4INCL::CrossSectionsMultiPions::NNInelasticIso(), G4INCL::CrossSectionsMultiPions::NNTwoPi(), and G4INCL::KinematicsUtils::totalEnergyInCM().

Referenced by NNToNNEtaFourPi(), and NNToNNEtaxPi().

NNToNNEtaxPi()

G4double G4INCL::CrossSectionsMultiPionsAndResonances::NNToNNEtaxPi ( const G4int  xpi, Particle const *const  p1, Particle const *const  p2  )

virtual

Cross section for X pion production - NNEta Channel.

Reimplemented from G4INCL::CrossSectionsMultiPions.

Definition at line 1061 of file G4INCLCrossSectionsMultiPionsAndResonances.cc.

                                                                                                                                                   {
        //
        //     Nucleon-Nucleon producing one eta and xpi pions
        //
// assert(xpi>0 && xpi<=nMaxPiNN);
// assert(particle1->isNucleon() && particle2->isNucleon());
 
        const G4double ener=KinematicsUtils::totalEnergyInCM(particle1, particle2) - 581.437; // 581.437 MeV translation to open pion production in NNEta
        if (ener < 2018.563) return 0.;
        const G4int i = ParticleTable::getIsospin(particle1->getType()) + ParticleTable::getIsospin(particle2->getType());
        G4double xsinelas;
        if (i!=0) 
            xsinelas=CrossSectionsMultiPions::NNInelasticIso(ener, 2);
        else 
            xsinelas=0.5*(CrossSectionsMultiPions::NNInelasticIso(ener, 0)+CrossSectionsMultiPions::NNInelasticIso(ener, 2));
        if (xsinelas <= 1.e-9) return 0.;
        G4double ratio=(NNToNNEta(particle1, particle2)-NNToNNEtaExclu(particle1, particle2))/xsinelas;
 
        if (xpi == 1)
            return NNToNNEtaOnePi(particle1, particle2)*ratio;
        else if (xpi == 2)
            return NNToNNEtaTwoPi(particle1, particle2)*ratio;
        else if (xpi == 3)
            return NNToNNEtaThreePi(particle1, particle2)*ratio;
        else if (xpi == 4)
            return NNToNNEtaFourPi(particle1, particle2);
        else // should never reach this point
            return 0.;
    }

References G4INCL::ParticleTable::getIsospin(), G4INCL::Particle::getType(), G4INCL::CrossSectionsMultiPions::NNInelasticIso(), NNToNNEta(), NNToNNEtaExclu(), NNToNNEtaFourPi(), NNToNNEtaOnePi(), NNToNNEtaThreePi(), NNToNNEtaTwoPi(), and G4INCL::KinematicsUtils::totalEnergyInCM().

NNToNNKKb()

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

virtualinherited

Implements G4INCL::ICrossSections.

Reimplemented in G4INCL::CrossSectionsStrangeness.

Definition at line 1402 of file G4INCLCrossSectionsMultiPions.cc.

                                                                                              {
        //
        //      Nucleon-Nucleon producing Nucleon-Nucleon-Kaon-antiKaon cross sections
        //
        return 0.;
    }

NNToNNOmega()

G4double G4INCL::CrossSectionsMultiPionsAndResonances::NNToNNOmega ( Particle const *const  particle1, Particle const *const  particle2  )

virtual

Cross section for Omega production (inclusive) - NN entrance channel.

Reimplemented from G4INCL::CrossSectionsMultiPions.

Definition at line 815 of file G4INCLCrossSectionsMultiPionsAndResonances.cc.

                                                                                                                                 {
 
        const G4double ener=KinematicsUtils::totalEnergyInCM(particle1, particle2);
        const G4int iso=ParticleTable::getIsospin(particle1->getType()) + ParticleTable::getIsospin(particle2->getType());
//jcd to be removed
//        return 0.;
//jcd    
        if (iso != 0) {
            return NNToNNOmegaIso(ener, iso);
        }
        else {
            return 0.5*(NNToNNOmegaIso(ener, 0)+NNToNNOmegaIso(ener, 2));
        }
    }

References G4INCL::ParticleTable::getIsospin(), G4INCL::Particle::getType(), NNToNNOmegaIso(), and G4INCL::KinematicsUtils::totalEnergyInCM().

Referenced by NNToNDeltaOmega(), NNToNNOmegaFourPi(), NNToNNOmegaxPi(), NNToxPiNN(), and G4INCL::CrossSectionsStrangeness::NNToxPiNN().

NNToNNOmegaExclu()

G4double G4INCL::CrossSectionsMultiPionsAndResonances::NNToNNOmegaExclu ( Particle const *const  particle1, Particle const *const  particle2  )

virtual

Cross section for Omega production (exclusive) - NN entrance channel.

Reimplemented from G4INCL::CrossSectionsMultiPions.

Definition at line 875 of file G4INCLCrossSectionsMultiPionsAndResonances.cc.

                                                                                                                                      {
//jcd to be removed
//        return 0.;
//jcd    
 
        const G4double ener=KinematicsUtils::totalEnergyInCM(particle1, particle2);
        const G4int iso=ParticleTable::getIsospin(particle1->getType()) + ParticleTable::getIsospin(particle2->getType());
 
        if (iso != 0) {
            return NNToNNOmegaExcluIso(ener, iso);
        }
        else {
            return 0.5*(NNToNNOmegaExcluIso(ener, 0)+NNToNNOmegaExcluIso(ener, 2));
        }
    }

References G4INCL::ParticleTable::getIsospin(), G4INCL::Particle::getType(), NNToNNOmegaExcluIso(), and G4INCL::KinematicsUtils::totalEnergyInCM().

Referenced by NNToNDeltaOmega(), NNToNNOmegaFourPi(), and NNToNNOmegaxPi().

NNToNNOmegaExcluIso()

G4double G4INCL::CrossSectionsMultiPionsAndResonances::NNToNNOmegaExcluIso ( const G4double  ener, const G4int  iso  )

protectedvirtual

Isotopic Cross section for Omega production (exclusive) - NN entrance channel.

Definition at line 830 of file G4INCLCrossSectionsMultiPionsAndResonances.cc.

                                                                                                           {
 
        const G4double Ecm=0.001*ener;
        G4double sNNOmega; // pp->pp+eta
        G4double sNNOmega1; // np->np+eta
        G4double sthroot=std::sqrt(7.06);
 
        if(Ecm>=3.0744) { // By hand (JCD)
            sNNOmega = 330.*(Ecm-sthroot)/(1.05+std::pow((Ecm-sthroot),2));
        }
        else if(Ecm>=2.65854){
            sNNOmega = -1208.09757*std::pow(Ecm,3) + 10773.3322*std::pow(Ecm,2) - 31661.0223*Ecm + 30728.7241 ;
        }
        else {
            sNNOmega = 0. ;
        }
 
        G4double Mn=ParticleTable::getRealMass(Neutron)/1000.;
        G4double Mp=ParticleTable::getRealMass(Proton)/1000.;
        G4double Momega=ParticleTable::getRealMass(Omega)/1000.;
        G4double Thr0=0.;
        if (iso > 0) {
            Thr0=2.*Mp+Momega;
        }
        else if (iso < 0) {
            Thr0=2.*Mn+Momega;
        }
        else {
            Thr0=Mn+Mp+Momega;
        }
 
        if (sNNOmega < 1.e-9 || Ecm < Thr0) sNNOmega = 0.;  // Thr0: Ecm threshold
 
        if (iso != 0) {
            return sNNOmega/1000.; // parameterization in microbarn (not millibarn)!
        }
 
        sNNOmega1 = 3*sNNOmega; // 3.0: ratio pn/pp
 
        sNNOmega = 2*sNNOmega1-sNNOmega;
        if (sNNOmega < 1.e-9 || Ecm < Thr0) sNNOmega = 0.;
 
        return sNNOmega/1000.; // parameterization in microbarn (not millibarn)!
    }

References G4INCL::ParticleTable::getRealMass(), G4INCL::Neutron, G4INCL::Omega, and G4INCL::Proton.

Referenced by NNToNNOmegaExclu(), and NNToNNOmegaIso().

NNToNNOmegaFourPi()

G4double G4INCL::CrossSectionsMultiPionsAndResonances::NNToNNOmegaFourPi ( Particle const *const  part1, Particle const *const  part2  )

protectedvirtual

Cross section for direct 4-pion production - NNOmega channel.

Definition at line 1182 of file G4INCLCrossSectionsMultiPionsAndResonances.cc.

                                                                                                                                       {
        //
        //     Nucleon-Nucleon producing one omega and four pions
        //
//jcd to be removed
//        return 0.;
//jcd    
 
        const G4double ener=KinematicsUtils::totalEnergyInCM(particle1, particle2) - 783.437; // 783.437 MeV translation to open pion production in NNOmega
        if (ener < 2018.563) return 0.;
        const G4double s = ener*ener;
        const G4int i = ParticleTable::getIsospin(particle1->getType()) + ParticleTable::getIsospin(particle2->getType());
        G4double xsinelas;
        if (i!=0) 
            xsinelas=CrossSectionsMultiPions::NNInelasticIso(ener, 2);
        else 
            xsinelas=0.5*(CrossSectionsMultiPions::NNInelasticIso(ener, 0)+CrossSectionsMultiPions::NNInelasticIso(ener, 2));
        if (xsinelas <= 1.e-9) return 0.;
        G4double ratio=(NNToNNOmega(particle1, particle2)-NNToNNOmegaExclu(particle1, particle2))/xsinelas;
        if(s<6.25E6)
            return 0.;
        const G4double sigma = NNToNNOmega(particle1, particle2) - NNToNNOmegaExclu(particle1, particle2) - ratio*(NNToNNOmegaOnePiOrDelta(particle1, particle2) + NNToNNOmegaTwoPi(particle1, particle2) + NNToNNOmegaThreePi(particle1, particle2));
        return ((sigma>1.e-9) ? sigma : 0.);
    }

References G4INCL::ParticleTable::getIsospin(), G4INCL::Particle::getType(), G4INCL::CrossSectionsMultiPions::NNInelasticIso(), NNToNNOmega(), NNToNNOmegaExclu(), NNToNNOmegaOnePiOrDelta(), NNToNNOmegaThreePi(), NNToNNOmegaTwoPi(), s, and G4INCL::KinematicsUtils::totalEnergyInCM().

Referenced by NNToNNOmegaxPi().

NNToNNOmegaIso()

G4double G4INCL::CrossSectionsMultiPionsAndResonances::NNToNNOmegaIso ( const G4double  ener, const G4int  iso  )

protectedvirtual

Isotopic Cross section for Omega production (inclusive) - NN entrance channel.

Definition at line 781 of file G4INCLCrossSectionsMultiPionsAndResonances.cc.

                                                                                                      {
 
        const G4double Ecm=0.001*ener;
        G4double sNNOmega; // pp->pp+eta(+X)
        G4double sNNOmega1; // np->np+eta(+X)
        G4double x=Ecm*Ecm/7.06;
 
        if(Ecm>4.0) {
            sNNOmega = 2.5*std::pow(x-1, 1.47)*std::pow(x, -1.11) ;
        }
        else if(Ecm>2.802) { // 2802 MeV -> threshold to open inclusive (based on multipion threshold and omega mass) 
            sNNOmega = (568.5254*Ecm*Ecm - 2694.045*Ecm + 3106.247)/1000.;
        if (sNNOmega <= NNToNNOmegaExcluIso(ener, 2)) sNNOmega = NNToNNOmegaExcluIso(ener, 2);
        }
        else {
            sNNOmega = NNToNNOmegaExcluIso(ener, 2);
        }
 
        if (sNNOmega < 1.e-9) sNNOmega = 0.;
 
        if (iso != 0) {
        return sNNOmega; 
        }
 
        sNNOmega1 = 3.*sNNOmega; // 3.0: ratio pn/pp (5 from theory; 2 from experiments)
 
        sNNOmega = 2.*sNNOmega1-sNNOmega;
 
        if (sNNOmega < 1.e-9) sNNOmega = 0.;
 
        return sNNOmega; 
    }

References NNToNNOmegaExcluIso().

Referenced by NNToNNOmega().

NNToNNOmegaOnePi()

G4double G4INCL::CrossSectionsMultiPionsAndResonances::NNToNNOmegaOnePi ( Particle const *const  part1, Particle const *const  part2  )

protectedvirtual

Cross section for direct 1-pion production - NNOmega channel.

Definition at line 1111 of file G4INCLCrossSectionsMultiPionsAndResonances.cc.

                                                                                                                                      {
        // Cross section for nucleon-nucleon producing one omega and one pion
 
        const G4int iso=ParticleTable::getIsospin(particle1->getType()) + ParticleTable::getIsospin(particle2->getType());
        if (iso!=0)
            return 0.;
 
        const G4double ener=KinematicsUtils::totalEnergyInCM(particle1, particle2) - 783.437; // 783.437 MeV translation to open pion production in NNOmega (= 2802. - 2018.563; 4074595.287720512986=2018.563*2018.563)
        if (ener < 2018.563) return 0.;
 
        const G4double xsiso2=CrossSectionsMultiPions::NNInelasticIso(ener, 2);
        const G4double xsiso0=CrossSectionsMultiPions::NNInelasticIso(ener, 0);
 
        return 0.25*(CrossSectionsMultiPions::NNOnePiOrDelta(ener, 0, xsiso0)+ CrossSectionsMultiPions::NNOnePiOrDelta(ener, 2, xsiso2));
    }

References G4INCL::ParticleTable::getIsospin(), G4INCL::Particle::getType(), G4INCL::CrossSectionsMultiPions::NNInelasticIso(), G4INCL::CrossSectionsMultiPions::NNOnePiOrDelta(), and G4INCL::KinematicsUtils::totalEnergyInCM().

Referenced by NNToNNOmegaxPi().

NNToNNOmegaOnePiOrDelta()

G4double G4INCL::CrossSectionsMultiPionsAndResonances::NNToNNOmegaOnePiOrDelta ( Particle const *const  part1, Particle const *const  part2  )

protectedvirtual

Cross section for direct 1-pion production - NNOmega channel.

Definition at line 1127 of file G4INCLCrossSectionsMultiPionsAndResonances.cc.

                                                                                                                                             {
        const G4double ener=KinematicsUtils::totalEnergyInCM(particle1, particle2) - 783.437; // 783.437 MeV translation to open pion production in NNOmega
        if (ener < 2018.563) return 0.;
        const G4int iso=ParticleTable::getIsospin(particle1->getType()) + ParticleTable::getIsospin(particle2->getType());
 
        const G4double xsiso2=CrossSectionsMultiPions::NNInelasticIso(ener, 2);
        if (iso != 0)
            return CrossSectionsMultiPions::NNOnePiOrDelta(ener, iso, xsiso2);
        else {
            const G4double xsiso0=CrossSectionsMultiPions::NNInelasticIso(ener, 0);
            return 0.5*(CrossSectionsMultiPions::NNOnePiOrDelta(ener, 0, xsiso0)+ CrossSectionsMultiPions::NNOnePiOrDelta(ener, 2, xsiso2));
        }
    }

References G4INCL::ParticleTable::getIsospin(), G4INCL::Particle::getType(), G4INCL::CrossSectionsMultiPions::NNInelasticIso(), G4INCL::CrossSectionsMultiPions::NNOnePiOrDelta(), and G4INCL::KinematicsUtils::totalEnergyInCM().

Referenced by NNToNDeltaOmega(), and NNToNNOmegaFourPi().

NNToNNOmegaThreePi()

G4double G4INCL::CrossSectionsMultiPionsAndResonances::NNToNNOmegaThreePi ( Particle const *const  part1, Particle const *const  part2  )

protectedvirtual

Cross section for direct 3-pion production - NNOmega channel.

Definition at line 1159 of file G4INCLCrossSectionsMultiPionsAndResonances.cc.

                                                                                                                                        {
        //
        //     Nucleon-Nucleon producing one omega and three pions
        //
 
        const G4double ener=KinematicsUtils::totalEnergyInCM(particle1, particle2) - 783.437; // 783.437 MeV translation to open pion production in NNOmega
        if (ener < 2018.563) return 0.;
        const G4int iso=ParticleTable::getIsospin(particle1->getType()) + ParticleTable::getIsospin(particle2->getType());
 
 
        const G4double xsiso2=CrossSectionsMultiPions::NNInelasticIso(ener, 2);
        const G4double xs1pi2=CrossSectionsMultiPions::NNOnePiOrDelta(ener, 2, xsiso2);
        const G4double xs2pi2=CrossSectionsMultiPions::NNTwoPi(ener, 2, xsiso2);
        if (iso != 0)
            return CrossSectionsMultiPions::NNThreePi(ener, 2, xsiso2, xs1pi2, xs2pi2);
        else {
            const G4double xsiso0=CrossSectionsMultiPions::NNInelasticIso(ener, 0);
            const G4double xs1pi0=CrossSectionsMultiPions::NNOnePiOrDelta(ener, 0, xsiso0);
            const G4double xs2pi0=CrossSectionsMultiPions::NNTwoPi(ener, 0, xsiso0);
            return 0.5*(CrossSectionsMultiPions::NNThreePi(ener, 0, xsiso0, xs1pi0, xs2pi0)+ CrossSectionsMultiPions::NNThreePi(ener, 2, xsiso2, xs1pi2, xs2pi2));
        }
    }

References G4INCL::ParticleTable::getIsospin(), G4INCL::Particle::getType(), G4INCL::CrossSectionsMultiPions::NNInelasticIso(), G4INCL::CrossSectionsMultiPions::NNOnePiOrDelta(), G4INCL::CrossSectionsMultiPions::NNThreePi(), G4INCL::CrossSectionsMultiPions::NNTwoPi(), and G4INCL::KinematicsUtils::totalEnergyInCM().

Referenced by NNToNNOmegaFourPi(), and NNToNNOmegaxPi().

NNToNNOmegaTwoPi()

G4double G4INCL::CrossSectionsMultiPionsAndResonances::NNToNNOmegaTwoPi ( Particle const *const  part1, Particle const *const  part2  )

protectedvirtual

Cross section for direct 2-pion production - NNOmega channel.

Definition at line 1141 of file G4INCLCrossSectionsMultiPionsAndResonances.cc.

                                                                                                                                      {
        //
        //     Nucleon-Nucleon producing one omega and two pions 
        //
        const G4double ener=KinematicsUtils::totalEnergyInCM(particle1, particle2) - 783.437; // 783.437 MeV translation to open pion production in NNOmega
        if (ener < 2018.563) return 0.;
        const G4int iso=ParticleTable::getIsospin(particle1->getType()) + ParticleTable::getIsospin(particle2->getType());
 
        const G4double xsiso2=CrossSectionsMultiPions::NNInelasticIso(ener, 2);
        if (iso != 0) {
            return CrossSectionsMultiPions::NNTwoPi(ener, 2, xsiso2);
        }
        else {
            const G4double xsiso0=CrossSectionsMultiPions::NNInelasticIso(ener, 0);
            return 0.5*(CrossSectionsMultiPions::NNTwoPi(ener, 0, xsiso0)+ CrossSectionsMultiPions::NNTwoPi(ener, 2, xsiso2));
        }
    }

References G4INCL::ParticleTable::getIsospin(), G4INCL::Particle::getType(), G4INCL::CrossSectionsMultiPions::NNInelasticIso(), G4INCL::CrossSectionsMultiPions::NNTwoPi(), and G4INCL::KinematicsUtils::totalEnergyInCM().

Referenced by NNToNNOmegaFourPi(), and NNToNNOmegaxPi().

NNToNNOmegaxPi()

G4double G4INCL::CrossSectionsMultiPionsAndResonances::NNToNNOmegaxPi ( const G4int  xpi, Particle const *const  p1, Particle const *const  p2  )

virtual

Cross section for X pion production - NNOmega Channel.

Reimplemented from G4INCL::CrossSectionsMultiPions.

Definition at line 1207 of file G4INCLCrossSectionsMultiPionsAndResonances.cc.

                                                                                                                                                     {
        //
        //     Nucleon-Nucleon producing one omega and xpi pions
        //
// assert(xpi>0 && xpi<=nMaxPiNN);
// assert(particle1->isNucleon() && particle2->isNucleon());
//jcd to be removed
//        return 0.;
//jcd    
 
        const G4double ener=KinematicsUtils::totalEnergyInCM(particle1, particle2) - 783.437; // 783.437 MeV translation to open pion production in NNOmega
        if (ener < 2018.563) return 0.;
        const G4int i = ParticleTable::getIsospin(particle1->getType()) + ParticleTable::getIsospin(particle2->getType());
        G4double xsinelas;
        if (i!=0) 
            xsinelas=CrossSectionsMultiPions::NNInelasticIso(ener, 2);
        else 
            xsinelas=0.5*(CrossSectionsMultiPions::NNInelasticIso(ener, 0)+CrossSectionsMultiPions::NNInelasticIso(ener, 2));
        if (xsinelas <= 1.e-9) return 0.;
        G4double ratio=(NNToNNOmega(particle1, particle2)-NNToNNOmegaExclu(particle1, particle2))/xsinelas;
 
        if (xpi == 1)
            return NNToNNOmegaOnePi(particle1, particle2)*ratio;
        else if (xpi == 2)
            return NNToNNOmegaTwoPi(particle1, particle2)*ratio;
        else if (xpi == 3)
            return NNToNNOmegaThreePi(particle1, particle2)*ratio;
        else if (xpi == 4)
            return NNToNNOmegaFourPi(particle1, particle2);
        else // should never reach this point
            return 0.;
    }

References G4INCL::ParticleTable::getIsospin(), G4INCL::Particle::getType(), G4INCL::CrossSectionsMultiPions::NNInelasticIso(), NNToNNOmega(), NNToNNOmegaExclu(), NNToNNOmegaFourPi(), NNToNNOmegaOnePi(), NNToNNOmegaThreePi(), NNToNNOmegaTwoPi(), and G4INCL::KinematicsUtils::totalEnergyInCM().

NNToNSK()

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

virtualinherited

Implements G4INCL::ICrossSections.

Reimplemented in G4INCL::CrossSectionsStrangeness.

Definition at line 1367 of file G4INCLCrossSectionsMultiPions.cc.

                                                                                            {
        //
        //      Nucleon-Nucleon producing N-Sigma-Kaon cross sections
        //
        return 0.;
    }

NNToNSK2pi()

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

virtualinherited

Implements G4INCL::ICrossSections.

Reimplemented in G4INCL::CrossSectionsStrangeness.

Definition at line 1395 of file G4INCLCrossSectionsMultiPions.cc.

                                                                                               {
        //
        //      Nucleon-Nucleon producing N-Sigma-Kaon-2pion cross sections
        //
        return 0.;
    }

NNToNSKpi()

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

virtualinherited

Implements G4INCL::ICrossSections.

Reimplemented in G4INCL::CrossSectionsStrangeness.

Definition at line 1381 of file G4INCLCrossSectionsMultiPions.cc.

                                                                                              {
        //
        //      Nucleon-Nucleon producing N-Sigma-Kaon-pion cross sections
        //
        return 0.;
    }

NNTot()

G4double G4INCL::CrossSectionsMultiPions::NNTot ( Particle const *const  part1, Particle const *const  part2  )

protectedinherited

Internal implementation of the NN total cross section.

Definition at line 164 of file G4INCLCrossSectionsMultiPions.cc.

                                                                                                      {
 
        G4int i = ParticleTable::getIsospin(part1->getType())
        + ParticleTable::getIsospin(part2->getType());
 
        if(part1->isNucleon() && part2->isNucleon()) {  // NN
          const G4double s = KinematicsUtils::squareTotalEnergyInCM(part1, part2);
          return NNTotFixed(s, i);
        }
        else if (part1->isDelta() && part2->isDelta()) {  // Delta-Delta
            return elastic(part1, part2);
        }
        else {  // Nucleon-Delta
            return NDeltaToNN(part1, part2) + elastic(part1, part2);
        }
    }

References G4INCL::CrossSectionsMultiPions::elastic(), G4INCL::ParticleTable::getIsospin(), G4INCL::Particle::getType(), G4INCL::Particle::isDelta(), G4INCL::Particle::isNucleon(), G4INCL::CrossSectionsMultiPions::NDeltaToNN(), G4INCL::CrossSectionsMultiPions::NNTotFixed(), s, and G4INCL::KinematicsUtils::squareTotalEnergyInCM().

Referenced by G4INCL::CrossSectionsMultiPions::NNFourPi(), G4INCL::CrossSectionsMultiPions::total(), total(), and G4INCL::CrossSectionsStrangeness::total().

NNTotFixed()

G4double G4INCL::CrossSectionsMultiPions::NNTotFixed ( const G4double  s, const G4int  i  )

protectedinherited

Internal implementation of the NN total cross section with fixed isospin.

Definition at line 181 of file G4INCLCrossSectionsMultiPions.cc.

                                                                                {
 
      /* From NNTot, with isospin fixed and for NN only.
      */
 
      G4double plab = 0.001*KinematicsUtils::momentumInLab(s, ParticleTable::effectiveNucleonMass, ParticleTable::effectiveNucleonMass);
 
      if (i == 0) {  // pn
        if (plab < 0.446) {
          G4double alp=std::log(plab);
          return 6.3555*std::exp(-3.2481*alp-0.377*std::pow(alp, 2));
        }
        else if (plab < 1.0) {
          return 33.+196.*std::sqrt(std::pow(std::fabs(plab-0.95),5));
        }
        else if (plab < 1.924) {
          return 24.2+8.9*plab;
        }
        else {
          G4double alp=std::log(plab);
          return 48.9-33.7*std::pow(plab, -3.08)+0.619*std::pow(alp, 2)-5.12*alp;
        }
      }
      else {  // pp and nn
        if (plab < 0.440) {
          return 34.*std::pow(plab/0.4, (-2.104));
        }
        else if (plab < 0.8734) {
          return 23.5+1000.*std::pow(plab-0.7, 4);
        }
        else if (plab < 1.5) {
          return 23.5+24.6/(1.+std::exp(-10.*(plab-1.2)));
        }
        else if (plab < 3.0044) {
          return 41.+60.*(plab-0.9)*std::exp(-1.2*plab);
        }
        else {
          G4double alp=std::log(plab);
          return 45.6+219.*std::pow(plab, -4.23)+0.41*std::pow(alp, 2)-3.41*alp;
        }
      }
    }

References G4INCL::ParticleTable::effectiveNucleonMass, G4INCL::KinematicsUtils::momentumInLab(), and s.

Referenced by G4INCL::CrossSectionsMultiPions::NNInelasticIso(), and G4INCL::CrossSectionsMultiPions::NNTot().

NNToxPiNN()

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

virtual

Cross section for X pion production - NN Channel.

Reimplemented from G4INCL::CrossSectionsMultiPions.

Reimplemented in G4INCL::CrossSectionsStrangeness.

Definition at line 892 of file G4INCLCrossSectionsMultiPionsAndResonances.cc.

                                                                                                                                                {
        //
        //     Nucleon-Nucleon producing xpi pions cross sections
        //
// assert(xpi>0 && xpi<=nMaxPiNN);
// assert(particle1->isNucleon() && particle2->isNucleon());
 
        G4double oldXS1Pi=CrossSectionsMultiPions::NNToxPiNN(1,particle1, particle2);
        G4double oldXS2Pi=CrossSectionsMultiPions::NNToxPiNN(2,particle1, particle2);
        G4double oldXS3Pi=CrossSectionsMultiPions::NNToxPiNN(3,particle1, particle2);
        G4double oldXS4Pi=CrossSectionsMultiPions::NNToxPiNN(4,particle1, particle2);
        G4double xsEtaOmega=NNToNNEta(particle1, particle2)+NNToNNOmega(particle1, particle2);
        G4double newXS1Pi=0.;    
        G4double newXS2Pi=0.;    
        G4double newXS3Pi=0.;    
        G4double newXS4Pi=0.;    
 
        if (xpi == 1) {
            if (oldXS4Pi != 0. || oldXS3Pi != 0.)
                newXS1Pi=oldXS1Pi;
            else if (oldXS2Pi != 0.) {
                newXS2Pi=oldXS2Pi-xsEtaOmega;
                if (newXS2Pi < 0.)
                    newXS1Pi=oldXS1Pi-(xsEtaOmega-oldXS2Pi);
                else
                    newXS1Pi=oldXS1Pi;
            }
            else 
                newXS1Pi=oldXS1Pi-xsEtaOmega;
            return newXS1Pi;
        }
        else if (xpi == 2) {
            if (oldXS4Pi != 0.)
            newXS2Pi=oldXS2Pi;
            else if (oldXS3Pi != 0.) {
                newXS3Pi=oldXS3Pi-xsEtaOmega;
                if (newXS3Pi < 0.)
                    newXS2Pi=oldXS2Pi-(xsEtaOmega-oldXS3Pi);
                else
                    newXS2Pi=oldXS2Pi;
            }
            else { 
                newXS2Pi=oldXS2Pi-xsEtaOmega;
                if (newXS2Pi < 0.)
                    newXS2Pi=0.;
            }
            return newXS2Pi;
        }
        else if (xpi == 3) {
            if (oldXS4Pi != 0.) {
                newXS4Pi=oldXS4Pi-xsEtaOmega;
                if (newXS4Pi < 0.)
                    newXS3Pi=oldXS3Pi-(xsEtaOmega-oldXS4Pi);
                else
                    newXS3Pi=oldXS3Pi;
            }
            else { 
                newXS3Pi=oldXS3Pi-xsEtaOmega;                
                if (newXS3Pi < 0.)
                    newXS3Pi=0.;
            }
            return newXS3Pi;
        }
        else if (xpi == 4) {
            newXS4Pi=oldXS4Pi-xsEtaOmega;
            if (newXS4Pi < 0.)
                newXS4Pi=0.;
            return newXS4Pi;
        }
 
        else // should never reach this point
        return 0.;
    }

References NNToNNEta(), NNToNNOmega(), and G4INCL::CrossSectionsMultiPions::NNToxPiNN().

NNTwoPi() [1/2]

G4double G4INCL::CrossSectionsMultiPions::NNTwoPi ( const G4double  ener, const G4int  iso, const G4double  xsiso  )

protectedvirtualinherited

Cross section for direct 2-pion production - NN entrance channel.

Definition at line 331 of file G4INCLCrossSectionsMultiPions.cc.

                                                                                                        {
 
        /* Article J. Physique 48 (1987)1901-1924 "Energy dependence of nucleon-cucleon inelastic total cross-sections."
           J. Bystricky, P. La France, F. Lehar, F. Perrot, T. Siemiarczuk & P. Winternitz
           S12PM : pp -> pp Pi+ Pi-
           S12ZZ : pp -> pp Pi0 Pi0
           S12PP : pp -> nn Pi+ Pi+
           S02PZ : pp -> pn Pi+ Pi0
           S02PM : pn -> pn Pi+ Pi-
           S12MZ : pn -> pp Pi- Pi0
        */
 
        const G4double s = ener*ener;
        G4double plab = 0.001*KinematicsUtils::momentumInLab(s, ParticleTable::effectiveNucleonMass, ParticleTable::effectiveNucleonMass);
 
        G4double snn2pit=0.;
        G4double s12pm=0.;
        G4double s12pp=0.;
        G4double s12zz=0.;
        G4double s02pz=0.;
        G4double s02pm=0.;
        G4double s12mz=0.;
 
        if (iso==0 && plab<3.33) {
            snn2pit = xsiso - NNOnePiOrDelta(ener, iso, xsiso);
            if (snn2pit < 1.e-8) snn2pit=0.;
            return snn2pit;
        }
 
        if (iso != 0) {
//s12pm
         if (plab > 15.) {
            s12pm=25.977/plab;
         }
         else if (plab >= 1.3817) {
            const G4double b=BystrickyEvaluator<5>::eval(plab,s12pmOOT,s12pmHC);
            s12pm=b*b;
         }
//s12pp
         if (plab > 10.) {
            s12pp=141.505/std::pow((-0.1016*plab-7),2);
         }
         else if (plab >= 1.5739) {
            const G4double b=BystrickyEvaluator<3>::eval(plab,s12ppOOT,s12ppHC);
            s12pp=b*b;
         }
        }
//s12zz
        if (plab > 4.) {
            s12zz=97.355/std::pow((1.1579*plab+5),2);
        }
        else if (plab >= 1.72207) {
            const G4double b=BystrickyEvaluator<4>::eval(plab,s12zzOOT,s12zzHC);
            s12zz=b*b;
        }
//s02pz
        if (plab > 4.5) {
            s02pz=178.082/std::pow((0.2014*plab+5),2);
        }
        else if (plab >= 1.5656) {
            const G4double b=BystrickyEvaluator<4>::eval(plab,s02pzOOT,s02pzHC);
            s02pz=b*b;
        }
 
// channel T=1
        if (iso != 0) {
            snn2pit=s12pm+s12pp+s12zz+s02pz;
            if (snn2pit < 1.e-8) snn2pit=0.;
            return snn2pit;
        }
 
//s02pm
        if (plab > 5.) {
            s02pm=135.826/std::pow(plab,2);
        }
        else if (plab >= 1.21925) {
            const G4double b=BystrickyEvaluator<6>::eval(plab,s02pmOOT,s02pmHC);
            s02pm=b*b;
        }
//s12mz
        if (plab >= 1.29269) {
            const G4double b=BystrickyEvaluator<4>::eval(plab,s12mzOOT,s12mzHC);
            s12mz=b*b;
        }
 
// channel T=0
//        snn2pit=3*(0.5*s02pm+0.5*s12mz-0.5*s02pz-s12zz);  //modif snn2pit=3*(s02pm+0.5*s12mz-0.5*s02pz-s12zz);
        snn2pit=3*(s02pm+0.5*s12mz-0.5*s02pz-s12zz);
        if (snn2pit < 1.e-8) snn2pit=0.;
        return snn2pit;
    }

References G4INCL::ParticleTable::effectiveNucleonMass, G4INCL::BystrickyEvaluator< N >::eval(), G4INCL::KinematicsUtils::momentumInLab(), G4INCL::CrossSectionsMultiPions::NNOnePiOrDelta(), s, G4INCL::CrossSectionsMultiPions::s02pmHC, G4INCL::CrossSectionsMultiPions::s02pmOOT, G4INCL::CrossSectionsMultiPions::s02pzHC, G4INCL::CrossSectionsMultiPions::s02pzOOT, G4INCL::CrossSectionsMultiPions::s12mzHC, G4INCL::CrossSectionsMultiPions::s12mzOOT, G4INCL::CrossSectionsMultiPions::s12pmHC, G4INCL::CrossSectionsMultiPions::s12pmOOT, G4INCL::CrossSectionsMultiPions::s12ppHC, G4INCL::CrossSectionsMultiPions::s12ppOOT, G4INCL::CrossSectionsMultiPions::s12zzHC, and G4INCL::CrossSectionsMultiPions::s12zzOOT.

Referenced by G4INCL::CrossSectionsMultiPions::NNFourPi(), G4INCL::CrossSectionsMultiPions::NNOnePiOrDelta(), G4INCL::CrossSectionsMultiPions::NNThreePi(), G4INCL::CrossSectionsStrangeness::NNToNLK2pi(), G4INCL::CrossSectionsStrangeness::NNToNLKpi(), NNToNNEtaThreePi(), NNToNNEtaTwoPi(), NNToNNOmegaThreePi(), NNToNNOmegaTwoPi(), G4INCL::CrossSectionsStrangeness::NNToNSK2pi(), G4INCL::CrossSectionsStrangeness::NNToNSKpi(), G4INCL::CrossSectionsMultiPions::NNToxPiNN(), and G4INCL::CrossSectionsMultiPions::NNTwoPi().

NNTwoPi() [2/2]

G4double G4INCL::CrossSectionsMultiPions::NNTwoPi ( Particle const *const  part1, Particle const *const  part2  )

protectedvirtualinherited

Cross section for direct 2-pion production - NN entrance channel.

Definition at line 483 of file G4INCLCrossSectionsMultiPions.cc.

                                                                                                                {
        //
        //     Nucleon-Nucleon producing one pion cross sections
        //
        const G4double ener=KinematicsUtils::totalEnergyInCM(particle1, particle2);
        const G4int iso=ParticleTable::getIsospin(particle1->getType()) + ParticleTable::getIsospin(particle2->getType());
 
 
        const G4double xsiso2=NNInelasticIso(ener, 2);
        if (iso != 0) {
            return NNTwoPi(ener, 2, xsiso2);
        }
        else {
            const G4double xsiso0=NNInelasticIso(ener, 0);
            return 0.5*(NNTwoPi(ener, 0, xsiso0)+ NNTwoPi(ener, 2, xsiso2));
        }
        return 0.0; // Should never reach this point
    }

References G4INCL::ParticleTable::getIsospin(), G4INCL::Particle::getType(), G4INCL::CrossSectionsMultiPions::NNInelasticIso(), G4INCL::CrossSectionsMultiPions::NNTwoPi(), and G4INCL::KinematicsUtils::totalEnergyInCM().

NpiToLK()

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

virtualinherited

Nucleon-Pion to Stange particles cross sections.

Implements G4INCL::ICrossSections.

Reimplemented in G4INCL::CrossSectionsStrangeness.

Definition at line 1439 of file G4INCLCrossSectionsMultiPions.cc.

                                                                                            {
        //
        //      Pion-Nucleon producing Lambda-Kaon cross sections
        //
        return 0.;
    }

NpiToLK2pi()

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

virtualinherited

Implements G4INCL::ICrossSections.

Reimplemented in G4INCL::CrossSectionsStrangeness.

Definition at line 1476 of file G4INCLCrossSectionsMultiPions.cc.

                                                                                               {
        //
        //      Pion-Nucleon producing Lambda-Kaon-2pion cross sections
        //
        return 0.;
    }

NpiToLKpi()

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

virtualinherited

Implements G4INCL::ICrossSections.

Reimplemented in G4INCL::CrossSectionsStrangeness.

Definition at line 1462 of file G4INCLCrossSectionsMultiPions.cc.

                                                                                              {
        //
        //      Pion-Nucleon producing Lambda-Kaon-pion cross sections
        //
        return 0.;
    }

NpiToMissingStrangeness()

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

virtualinherited

Implements G4INCL::ICrossSections.

Reimplemented in G4INCL::CrossSectionsStrangeness.

Definition at line 1497 of file G4INCLCrossSectionsMultiPions.cc.

                                                                                                            {
        //
        //      Pion-Nucleon missing strangeness production cross sections
        //
        return 0.;
    }

NpiToNKKb()

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

virtualinherited

Implements G4INCL::ICrossSections.

Reimplemented in G4INCL::CrossSectionsStrangeness.

Definition at line 1490 of file G4INCLCrossSectionsMultiPions.cc.

                                                                                              {
        //
        //      Pion-Nucleon producing Nucleon-Kaon-antiKaon cross sections
        //
        return 0.;
    }

NpiToSK()

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

virtualinherited

Implements G4INCL::ICrossSections.

Reimplemented in G4INCL::CrossSectionsStrangeness.

Definition at line 1446 of file G4INCLCrossSectionsMultiPions.cc.

                                                                                            {
        //
        //      Pion-Nucleon producing Sigma-Kaon cross sections
        //
        return 0.;
    }

NpiToSK2pi()

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

virtualinherited

Implements G4INCL::ICrossSections.

Reimplemented in G4INCL::CrossSectionsStrangeness.

Definition at line 1483 of file G4INCLCrossSectionsMultiPions.cc.

                                                                                               {
        //
        //      Pion-Nucleon producing Lambda-Kaon-2pion cross sections
        //
        return 0.;
    }

NpiToSKpi()

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

virtualinherited

Implements G4INCL::ICrossSections.

Reimplemented in G4INCL::CrossSectionsStrangeness.

Definition at line 1469 of file G4INCLCrossSectionsMultiPions.cc.

                                                                                              {
        //
        //      Pion-Nucleon producing Sigma-Kaon-pion cross sections
        //
        return 0.;
    }

NSToNL()

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

virtualinherited

Implements G4INCL::ICrossSections.

Reimplemented in G4INCL::CrossSectionsStrangeness.

Definition at line 1511 of file G4INCLCrossSectionsMultiPions.cc.

                                                                                           {
        //
        //      Nucleon-Sigma quasi-elastic cross sections
        //
        return 0.;
    }

NSToNS()

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

virtualinherited

Implements G4INCL::ICrossSections.

Reimplemented in G4INCL::CrossSectionsStrangeness.

Definition at line 1518 of file G4INCLCrossSectionsMultiPions.cc.

                                                                                           {
        //
        //      Nucleon-Sigma quasi-elastic cross sections
        //
        return 0.;
    }

NYelastic()

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

virtualinherited

elastic scattering for Nucleon-Strange Particles cross sections

Implements G4INCL::ICrossSections.

Reimplemented in G4INCL::CrossSectionsStrangeness.

Definition at line 1338 of file G4INCLCrossSectionsMultiPions.cc.

                                                                                                {
        //
        //      Hyperon-Nucleon elastic cross sections
        //
        return 0.;
    }

omegaNElastic()

G4double G4INCL::CrossSectionsMultiPionsAndResonances::omegaNElastic ( Particle const *const  p1, Particle const *const  p2  )

protectedvirtual

Definition at line 405 of file G4INCLCrossSectionsMultiPionsAndResonances.cc.

                                                                                                                                   {
        //
        //     Omega-Nucleon elastic cross sections
        //
// assert((particle1->isNucleon() && particle2->isOmega()) || (particle1->isOmega() && particle2->isNucleon()));
        
        G4double sigma=0.;        
        
        const Particle *omega;
        const Particle *nucleon;
        
        if (particle1->isOmega()) {
            omega = particle1;
            nucleon = particle2;
        }
        else {
            omega = particle2;
            nucleon = particle1;
        }
        
        const G4double pLab = KinematicsUtils::momentumInLab(omega, nucleon)/1000.; // GeV/c
        
        sigma = 5.4 + 10.*std::exp(-0.6*pLab);    // Eq.(21) in G.I. Lykasov et al., EPJA 6, 71-81 (1999)
        
        return sigma;
    }

References G4INCL::Particle::isOmega(), G4INCL::KinematicsUtils::momentumInLab(), and G4InuclParticleNames::nucleon().

Referenced by elastic().

omegaNInelastic()

G4double G4INCL::CrossSectionsMultiPionsAndResonances::omegaNInelastic ( Particle const *const  p1, Particle const *const  p2  )

protectedvirtual

Cross sections for mesonic resonance absorption on nucleon - inelastic Channel.

Definition at line 377 of file G4INCLCrossSectionsMultiPionsAndResonances.cc.

                                                                                                                                     {
        //
        //     Omega-Nucleon inelastic cross sections
        //
// assert((particle1->isNucleon() && particle2->isOmega()) || (particle1->isOmega() && particle2->isNucleon()));
        
        G4double sigma=0.;        
        
        const Particle *omega;
        const Particle *nucleon;
        
        if (particle1->isOmega()) {
            omega = particle1;
            nucleon = particle2;
            }
        else {
            omega = particle2;
            nucleon = particle1;
        }
        
        const G4double pLab = KinematicsUtils::momentumInLab(omega, nucleon)/1000.; // GeV/c
        
        sigma = 20. + 4.0/pLab;    // Eq.(24) in G.I. Lykasov et al., EPJA 6, 71-81 (1999)
        
        return sigma;
    }

References G4INCL::Particle::isOmega(), G4INCL::KinematicsUtils::momentumInLab(), and G4InuclParticleNames::nucleon().

Referenced by omegaNToPiN(), omegaNToPiPiN(), total(), and G4INCL::CrossSectionsStrangeness::total().

omegaNToPiN()

G4double G4INCL::CrossSectionsMultiPionsAndResonances::omegaNToPiN ( Particle const *const  p1, Particle const *const  p2  )

virtual

Cross section for OmegaN->PiN.

Reimplemented from G4INCL::CrossSectionsMultiPions.

Definition at line 433 of file G4INCLCrossSectionsMultiPionsAndResonances.cc.

                                                                                                                                 {
        //
        //     Omega-Nucleon producing Pion cross sections
        //
// assert((particle1->isNucleon() && particle2->isOmega()) || (particle1->isOmega() && particle2->isNucleon()));
        
        G4double ECM=KinematicsUtils::totalEnergyInCM(particle1, particle2);
        
        G4double massPiZero=ParticleTable::getINCLMass(PiZero);
        G4double massPiMinus=ParticleTable::getINCLMass(PiMinus);
        G4double massProton=ParticleTable::getINCLMass(Proton);
        
        G4double massomega;
        G4double massnucleon;
        G4double pCM_omega;
        G4double pLab_omega;
        
        G4double sigma=0.;        
        
        if (particle1->isOmega()) {
            massomega=particle1->getMass();
            massnucleon=particle2->getMass();
        }
        else {
            massomega=particle2->getMass();
            massnucleon=particle1->getMass();
        }
        pCM_omega=KinematicsUtils::momentumInCM(ECM, massomega, massnucleon);        
        pLab_omega=KinematicsUtils::momentumInLab(ECM*ECM, massomega, massnucleon);        
        
        G4double pCM_PiZero=KinematicsUtils::momentumInCM(ECM, massPiZero, massProton);
        G4double pCM_PiMinus=KinematicsUtils::momentumInCM(ECM, massPiMinus, massProton); // = pCM_PiPlus (because massPiMinus = massPiPlus)
        
        sigma = (piMinuspToOmegaN(ECM)/2.) * std::pow((pCM_PiZero/pCM_omega), 2) 
        + piMinuspToOmegaN(ECM) * std::pow((pCM_PiMinus/pCM_omega), 2);            
  
        if (sigma > omegaNInelastic(particle1, particle2) || (pLab_omega < 200.)) {
//        if (sigma > omegaNInelastic(particle1, particle2)) {
            sigma = omegaNInelastic(particle1, particle2);
        }  
  
        return sigma;
    }

References G4INCL::ParticleTable::getINCLMass(), G4INCL::Particle::getMass(), G4INCL::Particle::isOmega(), G4INCL::KinematicsUtils::momentumInCM(), G4INCL::KinematicsUtils::momentumInLab(), omegaNInelastic(), G4INCL::PiMinus, piMinuspToOmegaN(), G4INCL::PiZero, G4INCL::Proton, and G4INCL::KinematicsUtils::totalEnergyInCM().

Referenced by omegaNToPiPiN().

omegaNToPiPiN()

G4double G4INCL::CrossSectionsMultiPionsAndResonances::omegaNToPiPiN ( Particle const *const  p1, Particle const *const  p2  )

protectedvirtual

Cross sections for omega-induced 2Pi emission on nucleon.

Reimplemented from G4INCL::CrossSectionsMultiPions.

Definition at line 478 of file G4INCLCrossSectionsMultiPionsAndResonances.cc.

                                                                                                                                   {
        //
        //     Omega-Nucleon producing 2 PionS cross sections
        //
// assert((particle1->isNucleon() && particle2->isOmega()) || (particle1->isOmega() && particle2->isNucleon()));
        
        G4double sigma=0.;        
        
        sigma = omegaNInelastic(particle1,particle2) - omegaNToPiN(particle1,particle2) ;
        
        return sigma;
    }

References omegaNInelastic(), and omegaNToPiN().

p_pimToSmKp()

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

virtualinherited

Implements G4INCL::ICrossSections.

Reimplemented in G4INCL::CrossSectionsStrangeness.

Definition at line 1452 of file G4INCLCrossSectionsMultiPions.cc.

                                                                                                {
        return 0.;
    }

p_pimToSzKz()

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

virtualinherited

Implements G4INCL::ICrossSections.

Reimplemented in G4INCL::CrossSectionsStrangeness.

Definition at line 1455 of file G4INCLCrossSectionsMultiPions.cc.

                                                                                                {
        return 0.;
    }

p_pizToSzKp()

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

virtualinherited

Implements G4INCL::ICrossSections.

Reimplemented in G4INCL::CrossSectionsStrangeness.

Definition at line 1458 of file G4INCLCrossSectionsMultiPions.cc.

                                                                                                {
        return 0.;
    }

piMinuspIne()

G4double G4INCL::CrossSectionsMultiPions::piMinuspIne ( Particle const *const  p1, Particle const *const  p2  )

protectedinherited

Definition at line 1026 of file G4INCLCrossSectionsMultiPions.cc.

                                                                                                                    {
        //      piMinusp inelastic cross section (Delta excluded)
        
        const Particle *pion;
        const Particle *nucleon;
        if(particle1->isNucleon()) {
            nucleon = particle1;
            pion = particle2;
        } else {
            pion = particle1;
            nucleon = particle2;
        }
// assert(pion->isPion());
        
        const G4double pLab = KinematicsUtils::momentumInLab(pion, nucleon);
        
        // these limits correspond to sqrt(s)=1230 and 20000 MeV
        if(pLab>212677. || pLab<296.367)
            return 0.0;
        
//      const G4int ipit3 = ParticleTable::getIsospin(pion->getType());
//      const G4int ind2t3 = ParticleTable::getIsospin(nucleon->getType());
//      const G4int cg = 4 + ind2t3*ipit3;
//      assert(cg==2 || cg==4 || cg==6);
        
        const G4double p1=1e-3*pLab;
        const G4double p2=std::log(p1);
        G4double xpimp = 0.0;
        
        // x-section pi- p inelastique :
        if(p1 <= 0.4731)
            xpimp=0;
        else
            xpimp=26.6-7.18*std::pow(p1, -1.86)+0.327*p2*p2-2.81*p2;
        if(xpimp<0.)
            xpimp=0;
        
        // cas pi- p et pi+ n
        return xpimp;
        
    }

References G4INCL::Particle::isNucleon(), G4INCL::KinematicsUtils::momentumInLab(), G4InuclParticleNames::nucleon(), and G4InuclParticleNames::pion().

Referenced by G4INCL::CrossSectionsMultiPions::piMinuspOnePi(), G4INCL::CrossSectionsMultiPions::piMinuspTwoPi(), and G4INCL::CrossSectionsMultiPions::piNIne().

piMinuspOnePi()

G4double G4INCL::CrossSectionsMultiPions::piMinuspOnePi ( Particle const *const  p1, Particle const *const  p2  )

protectedinherited

Definition at line 1105 of file G4INCLCrossSectionsMultiPions.cc.

                                                                                                                      {
        const Particle *pion;
        const Particle *nucleon;
        if(particle1->isNucleon()) {
            nucleon = particle1;
            pion = particle2;
        } else {
            pion = particle1;
            nucleon = particle2;
        }
// assert(pion->isPion());
        
        const G4double pLab = KinematicsUtils::momentumInLab(pion, nucleon);
        
        // this limit corresponds to sqrt(s)=1230 MeV
        if(pLab<296.367)
            return 0.0;
        
        //  const G4int ipi = ParticleTable::getIsospin(pion->getType());
        //  const G4int ind2 = ParticleTable::getIsospin(nucleon->getType());
        //  const G4int cg = 4 + ind2*ipi;
        //  assert(cg==2 || cg==4 || cg==6);
        
        const G4double p1=1e-3*pLab;
        G4double tamp2=0.;
        
        //   X-SECTION PI- P INELASTIQUE :
        if (pLab < 1228.06) // corresponds to sqrt(s)=1794 MeV
            tamp2=piMinuspIne(particle1, particle2);
        else
            tamp2=9.04*std::pow(p1, -1.17)+18.*std::pow(p1, -1.21); // tamp2=9.04*std::pow(p1, -1.17)+(13.5*std::pow(p1, -1.21))*4./3.;
        if (tamp2 < 0.0) tamp2=0;
        
        //   CAS PI- P ET PI+ N
        return tamp2;
    }

References G4INCL::Particle::isNucleon(), G4INCL::KinematicsUtils::momentumInLab(), G4InuclParticleNames::nucleon(), G4INCL::CrossSectionsMultiPions::piMinuspIne(), and G4InuclParticleNames::pion().

Referenced by G4INCL::CrossSectionsMultiPions::piMinuspTwoPi(), and G4INCL::CrossSectionsMultiPions::piNOnePi().

piMinuspToEtaN() [1/2]

G4double G4INCL::CrossSectionsMultiPionsAndResonances::piMinuspToEtaN ( const G4double  ECM )

protected

Definition at line 550 of file G4INCLCrossSectionsMultiPionsAndResonances.cc.

                                                                                    {
        //
        //     Pion-Nucleon producing Eta cross sections
        //
        
        const G4double masspion = ParticleTable::getRealMass(PiMinus);        
        const G4double massnucleon = ParticleTable::getRealMass(Proton);        
  
        G4double plab=KinematicsUtils::momentumInLab(ECM*ECM, masspion, massnucleon)/1000.;  // GeV/c
        
        G4double sigma;
        
// new parameterization (JCD) - end of february 2016
        if (ECM < 1486.5) sigma=0.;
        else
        {
            if (ECM < 1535.)
            {
                sigma = -0.0000003689197974814*std::pow(ECM,4) + 0.002260193900097*std::pow(ECM,3) - 5.193105877187*std::pow(ECM,2) + 5303.505273919*ECM - 2031265.900648;
            }
            else if (ECM < 1670.)
            {
                sigma = -0.0000000337986446*std::pow(ECM,4) + 0.000218279989*std::pow(ECM,3) - 0.528276144*std::pow(ECM,2) + 567.828367*ECM - 228709.42;
            }
            else if (ECM < 1714.)
            {
                sigma =  0.000003737765*std::pow(ECM,2) - 0.005664062*ECM;
            }
            else sigma=1.47*std::pow(plab, -1.68);
        }
        
        return sigma;
    }

References G4INCL::ParticleTable::getRealMass(), G4INCL::KinematicsUtils::momentumInLab(), G4INCL::PiMinus, and G4INCL::Proton.

piMinuspToEtaN() [2/2]

G4double G4INCL::CrossSectionsMultiPionsAndResonances::piMinuspToEtaN ( Particle const *const  p1, Particle const *const  p2  )

protected

Internal function for pion cross sections.

Definition at line 505 of file G4INCLCrossSectionsMultiPionsAndResonances.cc.

                                                                                                                                    {
        //
        //     Pion-Nucleon producing Eta cross sections
        //
// assert((particle1->isNucleon() && particle2->isPion()) || (particle1->isPion() && particle2->isNucleon()));
        
        G4double masspion;
        G4double massnucleon;
        if (particle1->isPion()) {
            masspion=particle1->getMass();
            massnucleon=particle2->getMass();
        }
        else {
            masspion=particle2->getMass();
            massnucleon=particle1->getMass();
        }
        
        G4double ECM=KinematicsUtils::totalEnergyInCM(particle1, particle2);
        G4double plab=KinematicsUtils::momentumInLab(ECM*ECM, masspion, massnucleon)/1000.; // GeV/c
        
        G4double sigma;
        
// new parameterization (JCD) - end of february 2016
        if (ECM < 1486.5) sigma=0.;
        else
        {
            if (ECM < 1535.)
            {
                sigma = -0.0000003689197974814*std::pow(ECM,4) + 0.002260193900097*std::pow(ECM,3) - 5.193105877187*std::pow(ECM,2) + 5303.505273919*ECM - 2031265.900648;
            }
            else if (ECM < 1670.)
            {
                sigma = -0.0000000337986446*std::pow(ECM,4) + 0.000218279989*std::pow(ECM,3) - 0.528276144*std::pow(ECM,2) + 567.828367*ECM - 228709.42;
            }
            else if (ECM < 1714.)
            {
                sigma =  0.000003737765*std::pow(ECM,2) - 0.005664062*ECM;
            }
            else sigma=1.47*std::pow(plab, -1.68);
        }        
//        
 
        return sigma;
    }

References G4INCL::Particle::getMass(), G4INCL::Particle::isPion(), G4INCL::KinematicsUtils::momentumInLab(), and G4INCL::KinematicsUtils::totalEnergyInCM().

Referenced by etaNToPiN(), and piNToEtaN().

piMinuspToOmegaN() [1/2]

G4double G4INCL::CrossSectionsMultiPionsAndResonances::piMinuspToOmegaN ( const G4double  ECM )

protected

Definition at line 615 of file G4INCLCrossSectionsMultiPionsAndResonances.cc.

                                                                                      {
        //
        //     Pion-Nucleon producing Omega cross sections
        //
//jcd to be removed
//    return 0.;
//jcd    
                
//        G4double param=1.095 ; // Deneye (Thesis)
        G4double param=1.0903 ; // JCD (threshold taken into account)
 
        const G4double masspion = ParticleTable::getRealMass(PiMinus);        
        const G4double massnucleon = ParticleTable::getRealMass(Proton);        
 
        G4double plab=KinematicsUtils::momentumInLab(ECM*ECM, masspion, massnucleon)/1000.;  // GeV/c
        
        G4double sigma;
        if (plab < param) sigma=0.;
        else sigma=13.76*(plab-param)/(std::pow(plab, 3.33)-1.07);
        
        return sigma;
    }

References G4INCL::ParticleTable::getRealMass(), G4INCL::KinematicsUtils::momentumInLab(), G4INCL::PiMinus, and G4INCL::Proton.

piMinuspToOmegaN() [2/2]

G4double G4INCL::CrossSectionsMultiPionsAndResonances::piMinuspToOmegaN ( Particle const *const  p1, Particle const *const  p2  )

protected

Definition at line 584 of file G4INCLCrossSectionsMultiPionsAndResonances.cc.

                                                                                                                                      {
        //
        //     Pion-Nucleon producing Omega cross sections
        //
// assert((particle1->isNucleon() && particle2->isPion()) || (particle1->isPion() && particle2->isNucleon()));
//jcd to be removed
//        return 0.;
//jcd    
        
//        G4double param=1.095 ; // Deneye (Thesis)
        G4double param=1.0903 ; // JCD (threshold taken into account)
  
        G4double masspion;
        G4double massnucleon;
        if (particle1->isPion()) {
            masspion=particle1->getMass();
            massnucleon=particle2->getMass();
        }
        else {
            masspion=particle2->getMass();
            massnucleon=particle1->getMass();
        }
        G4double ECM=KinematicsUtils::totalEnergyInCM(particle1, particle2);
        G4double plab=KinematicsUtils::momentumInLab(ECM*ECM, masspion, massnucleon)/1000.;  // GeV/c
        
        G4double sigma;
        if (plab < param) sigma=0.;
        else sigma=13.76*(plab-param)/(std::pow(plab, 3.33) - 1.07); // Phys. Rev. C 41, 1701–1718 (1990)
  
        return sigma;
}

References G4INCL::Particle::getMass(), G4INCL::Particle::isPion(), G4INCL::KinematicsUtils::momentumInLab(), and G4INCL::KinematicsUtils::totalEnergyInCM().

Referenced by omegaNToPiN(), and piNToOmegaN().

piMinuspTwoPi()

G4double G4INCL::CrossSectionsMultiPions::piMinuspTwoPi ( Particle const *const  p1, Particle const *const  p2  )

protectedinherited

Definition at line 1183 of file G4INCLCrossSectionsMultiPions.cc.

                                                                                                                      {
    //
    //     pion-nucleon interaction, producing 2 pions
    //     fit from Landolt-Bornstein multiplied by factor determined with evaluation of total xs
    //
    
    const Particle *pion;
    const Particle *nucleon;
    if(particle1->isNucleon()) {
        nucleon = particle1;
        pion = particle2;
    } else {
        pion = particle1;
        nucleon = particle2;
    }
// assert(pion->isPion());
    
    const G4double pLab = KinematicsUtils::momentumInLab(pion, nucleon);
    
    // this limit corresponds to sqrt(s)=1230 MeV
    if(pLab<296.367)
        return 0.0;
    
    //  const G4int ipi = ParticleTable::getIsospin(pion->getType());
    //  const G4int ind2 = ParticleTable::getIsospin(nucleon->getType());
    //  const G4int cg = 4 + ind2*ipi;
    //  assert(cg==2 || cg==4 || cg==6);
    
    const G4double p1=1e-3*pLab;
    G4double tamp2=0.;
    
    //   X-SECTION PI- P INELASTIQUE :
    if(pLab<2083.63) // corresponds to sqrt(s)=2195 MeV
        tamp2=piMinuspIne(particle1, particle2)-piMinuspOnePi(particle1, particle2);
    else
        tamp2=2.457794117647+18.066176470588*std::pow(p1, -0.92); // tamp2=(0.619+4.55*std::pow(p1, -0.92))*135./34.;
    
    //   CAS PI- P ET PI+ N
    return tamp2;
}

References G4INCL::Particle::isNucleon(), G4INCL::KinematicsUtils::momentumInLab(), G4InuclParticleNames::nucleon(), G4INCL::CrossSectionsMultiPions::piMinuspIne(), G4INCL::CrossSectionsMultiPions::piMinuspOnePi(), and G4InuclParticleNames::pion().

Referenced by G4INCL::CrossSectionsMultiPions::piNTwoPi().

piNIne()

G4double G4INCL::CrossSectionsMultiPions::piNIne ( Particle const *const  p1, Particle const *const  p2  )

protectedinherited

Definition at line 632 of file G4INCLCrossSectionsMultiPions.cc.

                                                                                                               {
        //      piN inelastic cross section (Delta excluded)
        
        const Particle *pion;
        const Particle *nucleon;
        if(particle1->isNucleon()) {
            nucleon = particle1;
            pion = particle2;
        } else {
            pion = particle1;
            nucleon = particle2;
        }
// assert(pion->isPion());
        
        const G4double pLab = KinematicsUtils::momentumInLab(pion, nucleon);
        
        // these limits correspond to sqrt(s)=1230 and 20000 MeV
        if(pLab>212677. || pLab<296.367)
            return 0.0;
        
        const G4int ipit3 = ParticleTable::getIsospin(pion->getType());
        const G4int ind2t3 = ParticleTable::getIsospin(nucleon->getType());
        const G4int cg = 4 + ind2t3*ipit3;
// assert(cg==2 || cg==4 || cg==6);
        
//      const G4double p1=1e-3*pLab;
//      const G4double p2=std::log(p1);
        G4double xpipp = 0.0;
        G4double xpimp = 0.0;
        
        if(cg!=2) {
            // x-section pi+ p inelastique :
            xpipp=piPluspIne(pion,nucleon);
            
            if(cg==6) // cas pi+ p et pi- n
                return xpipp;
        }
        
        // x-section pi- p inelastique :
        xpimp=piMinuspIne(pion,nucleon);
        
        if(cg==2) // cas pi- p et pi+ n
            return xpimp;
        else      // cas pi0 p et pi0 n
            return 0.5*(xpipp+xpimp);
    }

References G4INCL::ParticleTable::getIsospin(), G4INCL::Particle::isNucleon(), G4INCL::KinematicsUtils::momentumInLab(), G4InuclParticleNames::nucleon(), G4INCL::CrossSectionsMultiPions::piMinuspIne(), G4InuclParticleNames::pion(), and G4INCL::CrossSectionsMultiPions::piPluspIne().

Referenced by G4INCL::CrossSectionsMultiPions::elastic(), G4INCL::CrossSectionsTruncatedMultiPions::elastic(), G4INCL::CrossSectionsMultiPions::piNOnePi(), and G4INCL::CrossSectionsMultiPions::piNToxPiN().

piNOnePi()

G4double G4INCL::CrossSectionsMultiPions::piNOnePi ( Particle const *const  p1, Particle const *const  p2  )

protectedvirtualinherited

Cross section for One (more) pion production - piN entrance channel.

Definition at line 883 of file G4INCLCrossSectionsMultiPions.cc.

                                                                                                                 {
        const Particle *pion;
        const Particle *nucleon;
        if(particle1->isNucleon()) {
            nucleon = particle1;
            pion = particle2;
        } else {
            pion = particle1;
            nucleon = particle2;
        }
// assert(pion->isPion());
        
        const G4double pLab = KinematicsUtils::momentumInLab(pion, nucleon);
        
        // this limit corresponds to sqrt(s)=1230 MeV
        if(pLab<296.367)
            return 0.0;
        
        const G4int ipi = ParticleTable::getIsospin(pion->getType());
        const G4int ind2 = ParticleTable::getIsospin(nucleon->getType());
        const G4int cg = 4 + ind2*ipi;
// assert(cg==2 || cg==4 || cg==6);
        
        //  const G4double p1=1e-3*pLab;
        G4double tamp6=0.;
        G4double tamp2=0.;
        const G4double elas = elastic(particle1, particle2);
        
        //   X-SECTION PI+ P INELASTIQUE :
        if(cg != 2) {
            tamp6=piPluspOnePi(particle1,particle2);
            if (cg == 6){ //   CAS PI+ P ET PI- N
                if(tamp6 >= elas && pLab < 410.) tamp6 = elas;
                return tamp6;
            }
        }
        
        //   X-SECTION PI- P INELASTIQUE :
        tamp2=piMinuspOnePi(particle1,particle2);
        if (tamp2 < 0.0) tamp2=0;
        
        if (cg == 2) //   CAS PI- P ET PI+ N
            return tamp2;
        else {       //   CAS PI0 P ET PI0 N
            G4double s1pin = 0.5*(tamp6+tamp2);
            const G4double inelastic = piNIne(particle1, particle2);
            if(s1pin >= elas && pLab < 410.) s1pin = 0.;
            if (s1pin > inelastic)
                s1pin = inelastic;
            return s1pin;
        }
    }

References G4INCL::CrossSectionsMultiPions::elastic(), G4INCL::ParticleTable::getIsospin(), G4INCL::Particle::isNucleon(), G4INCL::KinematicsUtils::momentumInLab(), G4InuclParticleNames::nucleon(), G4INCL::CrossSectionsMultiPions::piMinuspOnePi(), G4INCL::CrossSectionsMultiPions::piNIne(), G4InuclParticleNames::pion(), and G4INCL::CrossSectionsMultiPions::piPluspOnePi().

Referenced by G4INCL::CrossSectionsMultiPions::piNToxPiN().

piNToDelta()

G4double G4INCL::CrossSectionsMultiPions::piNToDelta ( Particle const *const  p1, Particle const *const  p2  )

virtualinherited

Cross section for Delta production - piN Channel.

Implements G4INCL::ICrossSections.

Reimplemented in G4INCL::CrossSectionsTruncatedMultiPions.

Definition at line 679 of file G4INCLCrossSectionsMultiPions.cc.

                                                                                                                 {
    //      piN Delta production
 
    G4double x = KinematicsUtils::totalEnergyInCM(particle1, particle2);
    if(x>20000.) return 0.0; // no cross section above this value
 
    G4int ipit3 = 0;
    G4int ind2t3 = 0;
    const G4double ramass = 0.0;
 
    if(particle1->isPion()) {
      ipit3 = ParticleTable::getIsospin(particle1->getType());
      ind2t3 = ParticleTable::getIsospin(particle2->getType());
    } else if(particle2->isPion()) {
      ipit3 = ParticleTable::getIsospin(particle2->getType());
      ind2t3 = ParticleTable::getIsospin(particle1->getType());
    }
 
    const G4double y=x*x;
    const G4double q2=(y-1076.0*1076.0)*(y-800.0*800.0)/y/4.0;
    if (q2 <= 0.) {
      return 0.0;
    }
    const G4double q3 = std::pow(std::sqrt(q2),3);
    const G4double f3 = q3/(q3 + 5832000.); // 5832000 = 180^3
    G4double sdelResult = 326.5/(std::pow((x-1215.0-ramass)*2.0/(110.0-ramass), 2)+1.0);
    sdelResult = sdelResult*(1.0-5.0*ramass/1215.0);
    const G4int cg = 4 + ind2t3*ipit3;
    sdelResult = sdelResult*f3*cg/6.0;
 
    return sdelResult;
  }

References G4INCL::ParticleTable::getIsospin(), G4INCL::Particle::getType(), G4INCL::Particle::isPion(), and G4INCL::KinematicsUtils::totalEnergyInCM().

Referenced by G4INCL::CrossSectionsMultiPions::elastic(), G4INCL::CrossSectionsTruncatedMultiPions::elastic(), and G4INCL::CrossSectionsTruncatedMultiPions::piNToDelta().

piNToEtaN()

G4double G4INCL::CrossSectionsMultiPionsAndResonances::piNToEtaN ( Particle const *const  p1, Particle const *const  p2  )

virtual

Cross sections for mesonic resonance production - piN Channel.

Reimplemented from G4INCL::CrossSectionsMultiPions.

Definition at line 195 of file G4INCLCrossSectionsMultiPionsAndResonances.cc.

                                                                                                                               {
        //
        //     Pion-Nucleon producing Eta cross sections
        //
// assert((particle1->isNucleon() && particle2->isPion()) || (particle1->isPion() && particle2->isNucleon()));
        
        G4double sigma;
        sigma=piMinuspToEtaN(particle1,particle2);
        
        const G4int isoin = ParticleTable::getIsospin(particle1->getType()) + ParticleTable::getIsospin(particle2->getType());
        
        if (isoin == -1) {
            if ((particle1->getType()) == Proton || (particle2->getType()) == Proton) return sigma;
            else return 0.5 * sigma;
        }
        else if (isoin == 1) {
            if ((particle1->getType()) == Neutron || (particle2->getType()) == Neutron) return sigma;
            else return 0.5 * sigma;
        }
        else return 0. ; // should never return 0. (?) // pi+ p and pi- n return 0.
        
//        return sigma;
    }

References G4INCL::ParticleTable::getIsospin(), G4INCL::Particle::getType(), G4INCL::Neutron, piMinuspToEtaN(), and G4INCL::Proton.

Referenced by piNToxPiN(), and G4INCL::CrossSectionsStrangeness::piNToxPiN().

piNToEtaPrimeN()

G4double G4INCL::CrossSectionsMultiPionsAndResonances::piNToEtaPrimeN ( Particle const *const  p1, Particle const *const  p2  )

virtual

Cross section for PiN->EtaPrimeN.

Reimplemented from G4INCL::CrossSectionsMultiPions.

Definition at line 244 of file G4INCLCrossSectionsMultiPionsAndResonances.cc.

                                                                                                                    {
#else
    G4double CrossSectionsMultiPionsAndResonances::piNToEtaPrimeN(Particle const * const particle1, Particle const * const particle2) {
#endif
        //
        //     Pion-Nucleon producing EtaPrime cross sections
        //
// assert((particle1->isNucleon() && particle2->isPion()) || (particle1->isPion() && particle2->isNucleon()));
        
        return 0.;
    }

References piNToEtaPrimeN().

Referenced by piNToEtaPrimeN().

piNToOmegaN()

G4double G4INCL::CrossSectionsMultiPionsAndResonances::piNToOmegaN ( Particle const *const  p1, Particle const *const  p2  )

virtual

Cross section for PiN->OmegaN.

Reimplemented from G4INCL::CrossSectionsMultiPions.

Definition at line 219 of file G4INCLCrossSectionsMultiPionsAndResonances.cc.

                                                                                                                                 {
        //
        //     Pion-Nucleon producing Omega cross sections
        //
// assert((particle1->isNucleon() && particle2->isPion()) || (particle1->isPion() && particle2->isNucleon()));
        
        G4double sigma;
        sigma=piMinuspToOmegaN(particle1,particle2);
        
        const G4int isoin = ParticleTable::getIsospin(particle1->getType()) + ParticleTable::getIsospin(particle2->getType());
        
        if (isoin == -1) {
            if ((particle1->getType()) == Proton || (particle2->getType()) == Proton) return sigma;
            else return 0.5 * sigma;
        }
        else if (isoin == 1) {
            if ((particle1->getType()) == Neutron || (particle2->getType()) == Neutron) return sigma;
            else return 0.5 * sigma;
        }
        else return 0. ; // should never return 0. (?) // pi+ p and pi- n return 0.
        
//        return sigma;
    }

References G4INCL::ParticleTable::getIsospin(), G4INCL::Particle::getType(), G4INCL::Neutron, piMinuspToOmegaN(), and G4INCL::Proton.

Referenced by piNToxPiN(), and G4INCL::CrossSectionsStrangeness::piNToxPiN().

piNTopiN()

G4double G4INCL::CrossSectionsMultiPions::piNTopiN ( Particle const *const  p1, Particle const *const  p2  )

protectedinherited

piNTot()

G4double G4INCL::CrossSectionsMultiPions::piNTot ( Particle const *const  p1, Particle const *const  p2  )

protectedinherited

Definition at line 712 of file G4INCLCrossSectionsMultiPions.cc.

                                                                                                             {
    //      FUNCTION SPN(X,IND2T3,IPIT3,f17)
    // SIGMA(PI+ + P) IN THE (3,3) REGION
    // NEW FIT BY J.VANDERMEULEN  + FIT BY Th AOUST ABOVE (3,3) RES
    //                              CONST AT LOW AND VERY HIGH ENERGY
    //      COMMON/BL8/RATHR,RAMASS                                           REL21800
    //      integer f17
    // RATHR and RAMASS are always 0.0!!!
 
    G4double x = KinematicsUtils::totalEnergyInCM(particle1, particle2);
 
    G4int ipit3 = 0;
    G4int ind2t3 = 0;
 
    if(particle1->isPion()) {
      ipit3 = ParticleTable::getIsospin(particle1->getType());
      ind2t3 = ParticleTable::getIsospin(particle2->getType());
    } else if(particle2->isPion()) {
      ipit3 = ParticleTable::getIsospin(particle2->getType());
      ind2t3 = ParticleTable::getIsospin(particle1->getType());
    }
 
    G4double spnResult=0.0;
 
    // HE pi+ p and pi- n
      if((ind2t3 == 1 && ipit3 == 2) || (ind2t3 == -1 && ipit3 == -2))
        spnResult=spnPiPlusPHE(x);
      else if((ind2t3 == 1 && ipit3 == -2) || (ind2t3 == -1 && ipit3 == 2))
        spnResult=spnPiMinusPHE(x);
      else if(ipit3 == 0) spnResult = (spnPiPlusPHE(x) + spnPiMinusPHE(x))/2.0; // (spnpipphe(x)+spnpimphe(x))/2.0
      else {
        INCL_ERROR("Unknown configuration!\n" << particle1->print() << particle2->print() << '\n');
      }
 
    return spnResult;
  }

References G4INCL::ParticleTable::getIsospin(), G4INCL::Particle::getType(), INCL_ERROR, G4INCL::Particle::isPion(), G4INCL::Particle::print(), G4INCL::CrossSectionsMultiPions::spnPiMinusPHE(), G4INCL::CrossSectionsMultiPions::spnPiPlusPHE(), and G4INCL::KinematicsUtils::totalEnergyInCM().

Referenced by G4INCL::CrossSectionsMultiPions::elastic(), G4INCL::CrossSectionsTruncatedMultiPions::elastic(), G4INCL::CrossSectionsMultiPions::total(), total(), and G4INCL::CrossSectionsStrangeness::total().

piNToxPiN()

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

virtual

Cross section for X pion production - piN Channel (modified due to the mesonic resonances)

Reimplemented from G4INCL::CrossSectionsMultiPions.

Reimplemented in G4INCL::CrossSectionsStrangeness.

Definition at line 137 of file G4INCLCrossSectionsMultiPionsAndResonances.cc.

                                                                                                                                                {
        //
        //     pion-Nucleon producing xpi pions cross sections (corrected due to eta and omega)
        //
// assert(xpi>1 && xpi<=nMaxPiPiN);
// assert((particle1->isNucleon() && particle2->isPion()) || (particle1->isPion() && particle2->isNucleon()));
 
        const G4double oldXS2Pi=CrossSectionsMultiPions::piNToxPiN(2,particle1, particle2);
        const G4double oldXS3Pi=CrossSectionsMultiPions::piNToxPiN(3,particle1, particle2);
        const G4double oldXS4Pi=CrossSectionsMultiPions::piNToxPiN(4,particle1, particle2);
        const G4double xsEta=piNToEtaN(particle1, particle2);
        const G4double xsOmega=piNToOmegaN(particle1, particle2);
        G4double newXS2Pi=0.;    
        G4double newXS3Pi=0.;    
        G4double newXS4Pi=0.;
        
        if (xpi == 2) {
            if (oldXS4Pi != 0.)
                newXS2Pi=oldXS2Pi;
            else if (oldXS3Pi != 0.) {
                newXS3Pi=oldXS3Pi-xsEta-xsOmega;
                if (newXS3Pi < 1.e-09)
                    newXS2Pi=oldXS2Pi-(xsEta+xsOmega-oldXS3Pi);
                else
                    newXS2Pi=oldXS2Pi;
            }
            else { 
                newXS2Pi=oldXS2Pi-xsEta-xsOmega;
            if (newXS2Pi < 1.e-09)
                    newXS2Pi=0.;
            }
            return newXS2Pi;
        }                                            
        else if (xpi == 3) {
            if (oldXS4Pi != 0.) {
                newXS4Pi=oldXS4Pi-xsEta-xsOmega;
                if (newXS4Pi < 1.e-09)
                    newXS3Pi=oldXS3Pi-(xsEta+xsOmega-oldXS4Pi);
                else
                    newXS3Pi=oldXS3Pi;
            }
            else { 
                newXS3Pi=oldXS3Pi-xsEta-xsOmega;
                if (newXS3Pi < 1.e-09)
                    newXS3Pi=0.;
            }
            return newXS3Pi;
        }                                    
        else if (xpi == 4) {
            newXS4Pi=oldXS4Pi-xsEta-xsOmega;
            if (newXS4Pi < 1.e-09)
                newXS4Pi=0.;
            return newXS4Pi;
        }            
        else // should never reach this point
            return 0.;
    }

References piNToEtaN(), piNToOmegaN(), and G4INCL::CrossSectionsMultiPions::piNToxPiN().

piNTwoPi()

G4double G4INCL::CrossSectionsMultiPions::piNTwoPi ( Particle const *const  p1, Particle const *const  p2  )

protectedvirtualinherited

Cross section for Two (more) pion production - piN entrance channel.

Definition at line 936 of file G4INCLCrossSectionsMultiPions.cc.

                                                                                                                 {
        //
        //     pion-nucleon interaction, producing 2 pions
        //     fit from Landolt-Bornstein multiplied by factor determined with evaluation of total xs
        //
        
        const Particle *pion;
        const Particle *nucleon;
        if(particle1->isNucleon()) {
            nucleon = particle1;
            pion = particle2;
        } else {
            pion = particle1;
            nucleon = particle2;
        }
// assert(pion->isPion());
        
        const G4double pLab = KinematicsUtils::momentumInLab(pion, nucleon);
        const G4double elas = elastic(pion, nucleon);
        
        // this limit corresponds to sqrt(s)=1230 MeV
        if(pLab<296.367)
            return 0.0;
        
        const G4int ipi = ParticleTable::getIsospin(pion->getType());
        const G4int ind2 = ParticleTable::getIsospin(nucleon->getType());
        const G4int cg = 4 + ind2*ipi;
// assert(cg==2 || cg==4 || cg==6);
        
        G4double tamp6=0.;
        G4double tamp2=0.;
        
        //   X-SECTION PI+ P INELASTIQUE :
        if(cg!=2) {
            tamp6=piPluspTwoPi(particle1,particle2);
            if(cg==6){ //   CAS PI+ P ET PI- N
                if(tamp6 >= elas && pLab < 410.) tamp6 = 0.;
                return tamp6;}
        }
        
        //   X-SECTION PI- P INELASTIQUE :
        tamp2=piMinuspTwoPi(particle1,particle2);
        
        if(cg==2) //   CAS PI- P ET PI+ N
            return tamp2;
        else {    //   CAS PI0 P ET PI0 N
            const G4double s2pin=0.5*(tamp6+tamp2);
            return s2pin;
        }
    }

References G4INCL::CrossSectionsMultiPions::elastic(), G4INCL::ParticleTable::getIsospin(), G4INCL::Particle::isNucleon(), G4INCL::KinematicsUtils::momentumInLab(), G4InuclParticleNames::nucleon(), G4INCL::CrossSectionsMultiPions::piMinuspTwoPi(), G4InuclParticleNames::pion(), and G4INCL::CrossSectionsMultiPions::piPluspTwoPi().

Referenced by G4INCL::CrossSectionsMultiPions::piNToxPiN().

piPluspIne()

G4double G4INCL::CrossSectionsMultiPions::piPluspIne ( Particle const *const  p1, Particle const *const  p2  )

protectedinherited

Definition at line 987 of file G4INCLCrossSectionsMultiPions.cc.

                                                                                                                   {
        //      piPlusP inelastic cross section (Delta excluded)
        
        const Particle *pion;
        const Particle *nucleon;
        if(particle1->isNucleon()) {
            nucleon = particle1;
            pion = particle2;
        } else {
            pion = particle1;
            nucleon = particle2;
        }
// assert(pion->isPion());
        
        const G4double pLab = KinematicsUtils::momentumInLab(pion, nucleon);
        
        // these limits correspond to sqrt(s)=1230 and 20000 MeV
        if(pLab>212677. || pLab<296.367)
            return 0.0;
        
//      const G4int ipit3 = ParticleTable::getIsospin(pion->getType());
//      const G4int ind2t3 = ParticleTable::getIsospin(nucleon->getType());
//      const G4int cg = 4 + ind2t3*ipit3;
//      assert(cg==2 || cg==4 || cg==6);
        
        const G4double p1=1e-3*pLab;
        const G4double p2=std::log(p1);
        G4double xpipp = 0.0;
        
        // x-section pi+ p inelastique :
        if(p1<=0.75)
            xpipp=17.965*std::pow(p1, 5.4606);
        else
            xpipp=24.3-12.3*std::pow(p1, -1.91)+0.324*p2*p2-2.44*p2;
        // cas pi+ p et pi- n
        return xpipp;
        
    }

References G4INCL::Particle::isNucleon(), G4INCL::KinematicsUtils::momentumInLab(), G4InuclParticleNames::nucleon(), and G4InuclParticleNames::pion().

Referenced by G4INCL::CrossSectionsMultiPions::piNIne(), G4INCL::CrossSectionsMultiPions::piPluspOnePi(), and G4INCL::CrossSectionsMultiPions::piPluspTwoPi().

piPluspOnePi()

G4double G4INCL::CrossSectionsMultiPions::piPluspOnePi ( Particle const *const  p1, Particle const *const  p2  )

protectedinherited

Definition at line 1068 of file G4INCLCrossSectionsMultiPions.cc.

                                                                                                                     {
        const Particle *pion;
        const Particle *nucleon;
        if(particle1->isNucleon()) {
            nucleon = particle1;
            pion = particle2;
        } else {
            pion = particle1;
            nucleon = particle2;
        }
// assert(pion->isPion());
        
        const G4double pLab = KinematicsUtils::momentumInLab(pion, nucleon);
        
        // this limit corresponds to sqrt(s)=1230 MeV
        if(pLab<296.367)
            return 0.0;
        
        //  const G4int ipi = ParticleTable::getIsospin(pion->getType());
        //  const G4int ind2 = ParticleTable::getIsospin(nucleon->getType());
        //  const G4int cg = 4 + ind2*ipi;
        //  assert(cg==2 || cg==4 || cg==6);
        
        const G4double p1=1e-3*pLab;
        G4double tamp6=0.;
        
        //   X-SECTION PI+ P INELASTIQUE :
        if(pLab < 1532.52) // corresponds to sqrt(s)=1946 MeV
            tamp6=piPluspIne(particle1, particle2);
        else
            tamp6=0.204+18.2*std::pow(p1, -1.72)+6.33*std::pow(p1, -1.13);
        
        //   CAS PI+ P ET PI- N
        return tamp6;
        
    }

References G4INCL::Particle::isNucleon(), G4INCL::KinematicsUtils::momentumInLab(), G4InuclParticleNames::nucleon(), G4InuclParticleNames::pion(), and G4INCL::CrossSectionsMultiPions::piPluspIne().

Referenced by G4INCL::CrossSectionsMultiPions::piNOnePi(), and G4INCL::CrossSectionsMultiPions::piPluspTwoPi().

piPluspTwoPi()

G4double G4INCL::CrossSectionsMultiPions::piPluspTwoPi ( Particle const *const  p1, Particle const *const  p2  )

protectedinherited

Definition at line 1142 of file G4INCLCrossSectionsMultiPions.cc.

                                                                                                                     {
        //
        //     pion-nucleon interaction, producing 2 pions
        //     fit from Landolt-Bornstein multiplied by factor determined with evaluation of total xs
        //
        
        const Particle *pion;
        const Particle *nucleon;
        if(particle1->isNucleon()) {
            nucleon = particle1;
            pion = particle2;
        } else {
            pion = particle1;
            nucleon = particle2;
        }
// assert(pion->isPion());
        
        const G4double pLab = KinematicsUtils::momentumInLab(pion, nucleon);
        
        // this limit corresponds to sqrt(s)=1230 MeV
        if(pLab<296.367)
            return 0.0;
        
        //  const G4int ipi = ParticleTable::getIsospin(pion->getType());
        //  const G4int ind2 = ParticleTable::getIsospin(nucleon->getType());
        //  const G4int cg = 4 + ind2*ipi;
        //  assert(cg==2 || cg==4 || cg==6);
        
        const G4double p1=1e-3*pLab;
        G4double tamp6=0.;
        
        //   X-SECTION PI+ P INELASTIQUE :
        if(pLab < 2444.7) // corresponds to sqrt(s)=2344 MeV
            tamp6=piPluspIne(particle1, particle2)-piPluspOnePi(particle1, particle2);
        else
            tamp6=1.59+25.5*std::pow(p1, -1.04); // tamp6=(0.636+10.2*std::pow(p1, -1.04))*15./6.;
        
        //   CAS PI+ P ET PI- N
        return tamp6;
    }

References G4INCL::Particle::isNucleon(), G4INCL::KinematicsUtils::momentumInLab(), G4InuclParticleNames::nucleon(), G4InuclParticleNames::pion(), G4INCL::CrossSectionsMultiPions::piPluspIne(), and G4INCL::CrossSectionsMultiPions::piPluspOnePi().

Referenced by G4INCL::CrossSectionsMultiPions::piNTwoPi().

spnPiMinusPHE()

G4double G4INCL::CrossSectionsMultiPions::spnPiMinusPHE ( const G4double  x )

protectedinherited

Internal function for pion cross sections.

Definition at line 582 of file G4INCLCrossSectionsMultiPions.cc.

                                                                  {
    // HE pi- p and pi+ n
    G4double ramass = 0.0;
 
    if(x <= 1275.8) {
       G4double y = x*x;
       G4double q2;
       q2=(y-std::pow(1076.0, 2))*(y-std::pow(800.0, 2))/(4.0*y);
       if (q2 > 0.) {
          G4double q3=std::pow(q2, 3./2.);
          G4double f3=q3/(q3+std::pow(180.0, 3));
      G4double sdel;
      sdel=326.5/(std::pow((x-1215.0-ramass)*2.0/110.0,2)+1.0);
      return sdel*f3*(1.0-5.0*ramass/1215.0)/3.;
       }
       else {
          return 0;
       }
    }
    if(x <= 1495.0) {
      return 0.00120683*(x-1372.52)*(x-1372.52)+26.2058;
    } else if(x <= 1578.0) {
      return 1.15873e-05*x*x+49965.6/((x-1519.59)*(x-1519.59)+2372.55);
    } else if(x <= 2028.4) {
      return 34.0248+43262.2/((x-1681.65)*(x-1681.65)+1689.35);
    } else if(x <= 7500.0) {
      return 3.3e-7*(x-7500.0)*(x-7500.0)+24.5;
    } else {
      return 24.5;
    }
  }

Referenced by G4INCL::CrossSectionsMultiPions::piNTot().

spnPiPlusPHE()

G4double G4INCL::CrossSectionsMultiPions::spnPiPlusPHE ( const G4double  x )

protectedinherited

Internal function for pion cross sections.

Definition at line 552 of file G4INCLCrossSectionsMultiPions.cc.

                                                                 {
    // HE and LE pi- p and pi+ n
    G4double ramass = 0.0;
 
    if(x <= 1306.78) {
       G4double y = x*x;
       G4double q2;
       q2=(y-std::pow(1076.0, 2))*(y-std::pow(800.0, 2))/(4.0*y);
       if (q2 > 0.) {
          G4double q3=std::pow(q2, 3./2.);
          G4double f3=q3/(q3+std::pow(180.0, 3));
      G4double sdel;
      sdel=326.5/(std::pow((x-1215.0-ramass)*2.0/110.0,2)+1.0);
      return sdel*f3*(1.0-5.0*ramass/1215.0);
       }
       else {
          return 0;
       }
    }
    if(x <= 1754.0) {
      return -2.33730e-06*std::pow(x, 3)+1.13819e-02*std::pow(x,2)
        -1.83993e+01*x+9893.4;
    } else if (x <= 2150.0) {
      return 1.13531e-06*std::pow(x, 3)-6.91694e-03*std::pow(x, 2)
        +1.39907e+01*x-9360.76;
    } else {
      return -3.18087*std::log(x)+52.9784;
    }
  }

Referenced by G4INCL::CrossSectionsMultiPions::piNTot().

total()

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

virtual

new total particle-particle cross section

Reimplemented from G4INCL::CrossSectionsMultiPions.

Reimplemented in G4INCL::CrossSectionsStrangeness.

Definition at line 91 of file G4INCLCrossSectionsMultiPionsAndResonances.cc.

                                                                                                             {
        G4double inelastic;
        if(p1->isNucleon() && p2->isNucleon()) {
            return CrossSectionsMultiPions::NNTot(p1, p2);
        } else if((p1->isNucleon() && p2->isDelta()) ||
                  (p1->isDelta() && p2->isNucleon())) {
            inelastic = CrossSectionsMultiPions::NDeltaToNN(p1, p2);
        } else if((p1->isNucleon() && p2->isPion()) ||
                  (p1->isPion() && p2->isNucleon())) {
            return CrossSectionsMultiPions::piNTot(p1,p2);
        } else if((p1->isNucleon() && p2->isEta()) ||
                  (p1->isEta() && p2->isNucleon())) {
            inelastic = etaNToPiN(p1,p2) + etaNToPiPiN(p1,p2);
        } else if((p1->isNucleon() && p2->isOmega()) ||
                  (p1->isOmega() && p2->isNucleon())) {
            inelastic = omegaNInelastic(p1,p2);
        } else if((p1->isNucleon() && p2->isEtaPrime()) ||
                  (p1->isEtaPrime() && p2->isNucleon())) {
            inelastic = etaPrimeNToPiN(p1,p2);
        } else {
            inelastic = 0.;
        }
        
        return inelastic + elastic(p1, p2);
    }    

References elastic(), etaNToPiN(), etaNToPiPiN(), etaPrimeNToPiN(), G4INCL::Particle::isDelta(), G4INCL::Particle::isEta(), G4INCL::Particle::isEtaPrime(), G4INCL::Particle::isNucleon(), G4INCL::Particle::isOmega(), G4INCL::Particle::isPion(), G4INCL::CrossSectionsMultiPions::NDeltaToNN(), G4INCL::CrossSectionsMultiPions::NNTot(), omegaNInelastic(), and G4INCL::CrossSectionsMultiPions::piNTot().

Field Documentation

nMaxPiNN

const G4int G4INCL::CrossSectionsMultiPionsAndResonances::nMaxPiNN = 4

staticprotected

Maximum number of outgoing pions in NN collisions.

Definition at line 110 of file G4INCLCrossSectionsMultiPionsAndResonances.hh.

nMaxPiPiN

const G4int G4INCL::CrossSectionsMultiPionsAndResonances::nMaxPiPiN = 4

staticprotected

Maximum number of outgoing pions in piN collisions.

Definition at line 113 of file G4INCLCrossSectionsMultiPionsAndResonances.hh.

s01ppHC

const HornerC8 G4INCL::CrossSectionsMultiPionsAndResonances::s01ppHC

protected

Horner coefficients for s01pp.

Definition at line 118 of file G4INCLCrossSectionsMultiPionsAndResonances.hh.

s01ppOOT

const G4double G4INCL::CrossSectionsMultiPionsAndResonances::s01ppOOT = 0.003421025623481919853

staticprotected

One over threshold for s01pp.

Definition at line 139 of file G4INCLCrossSectionsMultiPionsAndResonances.hh.

s01pzHC

const HornerC4 G4INCL::CrossSectionsMultiPionsAndResonances::s01pzHC

protected

Horner coefficients for s01pz.

Definition at line 120 of file G4INCLCrossSectionsMultiPionsAndResonances.hh.

s01pzOOT

const G4double G4INCL::CrossSectionsMultiPionsAndResonances::s01pzOOT = 0.0035739814152966403123

staticprotected

One over threshold for s01pz.

Definition at line 141 of file G4INCLCrossSectionsMultiPionsAndResonances.hh.

s02pmHC

const HornerC6 G4INCL::CrossSectionsMultiPionsAndResonances::s02pmHC

protected

Horner coefficients for s02pm.

Definition at line 132 of file G4INCLCrossSectionsMultiPionsAndResonances.hh.

s02pmOOT

const G4double G4INCL::CrossSectionsMultiPionsAndResonances::s02pmOOT = 0.0016661112962345883443

staticprotected

One over threshold for s02pm.

Definition at line 153 of file G4INCLCrossSectionsMultiPionsAndResonances.hh.

s02pzHC

const HornerC4 G4INCL::CrossSectionsMultiPionsAndResonances::s02pzHC

protected

Horner coefficients for s02pz.

Definition at line 130 of file G4INCLCrossSectionsMultiPionsAndResonances.hh.

s02pzOOT

const G4double G4INCL::CrossSectionsMultiPionsAndResonances::s02pzOOT = 0.00125

staticprotected

One over threshold for s02pz.

Definition at line 151 of file G4INCLCrossSectionsMultiPionsAndResonances.hh.

s11pmHC

const HornerC4 G4INCL::CrossSectionsMultiPionsAndResonances::s11pmHC

protected

Horner coefficients for s11pm.

Definition at line 122 of file G4INCLCrossSectionsMultiPionsAndResonances.hh.

s11pmOOT

const G4double G4INCL::CrossSectionsMultiPionsAndResonances::s11pmOOT = 0.0034855350296270480281

staticprotected

One over threshold for s11pm.

Definition at line 143 of file G4INCLCrossSectionsMultiPionsAndResonances.hh.

s11pzHC

const HornerC7 G4INCL::CrossSectionsMultiPionsAndResonances::s11pzHC

protected

Horner coefficients for s11pz.

Definition at line 116 of file G4INCLCrossSectionsMultiPionsAndResonances.hh.

s11pzOOT

const G4double G4INCL::CrossSectionsMultiPionsAndResonances::s11pzOOT = 0.0035761542037692665889

staticprotected

One over threshold for s11pz.

Definition at line 137 of file G4INCLCrossSectionsMultiPionsAndResonances.hh.

s12mzHC

const HornerC4 G4INCL::CrossSectionsMultiPionsAndResonances::s12mzHC

protected

Horner coefficients for s12mz.

Definition at line 134 of file G4INCLCrossSectionsMultiPionsAndResonances.hh.

s12mzOOT

const G4double G4INCL::CrossSectionsMultiPionsAndResonances::s12mzOOT = 0.0017047391749062392793

staticprotected

One over threshold for s12mz.

Definition at line 155 of file G4INCLCrossSectionsMultiPionsAndResonances.hh.

s12pmHC

const HornerC5 G4INCL::CrossSectionsMultiPionsAndResonances::s12pmHC

protected

Horner coefficients for s12pm.

Definition at line 124 of file G4INCLCrossSectionsMultiPionsAndResonances.hh.

s12pmOOT

const G4double G4INCL::CrossSectionsMultiPionsAndResonances::s12pmOOT = 0.0016672224074691565119

staticprotected

One over threshold for s12pm.

Definition at line 145 of file G4INCLCrossSectionsMultiPionsAndResonances.hh.

s12ppHC

const HornerC3 G4INCL::CrossSectionsMultiPionsAndResonances::s12ppHC

protected

Horner coefficients for s12pp.

Definition at line 126 of file G4INCLCrossSectionsMultiPionsAndResonances.hh.

s12ppOOT

const G4double G4INCL::CrossSectionsMultiPionsAndResonances::s12ppOOT = 0.0016507643038726931312

staticprotected

One over threshold for s12pp.

Definition at line 147 of file G4INCLCrossSectionsMultiPionsAndResonances.hh.

s12zzHC

const HornerC4 G4INCL::CrossSectionsMultiPionsAndResonances::s12zzHC

protected

Horner coefficients for s12zz.

Definition at line 128 of file G4INCLCrossSectionsMultiPionsAndResonances.hh.

s12zzOOT

const G4double G4INCL::CrossSectionsMultiPionsAndResonances::s12zzOOT = 0.0011111111111111111111

staticprotected

One over threshold for s12zz.

Definition at line 149 of file G4INCLCrossSectionsMultiPionsAndResonances.hh.

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

• source/processes/hadronic/models/inclxx/incl_physics/include/G4INCLCrossSectionsMultiPionsAndResonances.hh
• source/processes/hadronic/models/inclxx/incl_physics/src/G4INCLCrossSectionsMultiPionsAndResonances.cc