Geant4 10.7.0
Toolkit for the simulation of the passage of particles through matter
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G4INCLNpiToSKpiChannel.cc
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25//
26// INCL++ intra-nuclear cascade model
27// Alain Boudard, CEA-Saclay, France
28// Joseph Cugnon, University of Liege, Belgium
29// Jean-Christophe David, CEA-Saclay, France
30// Pekka Kaitaniemi, CEA-Saclay, France, and Helsinki Institute of Physics, Finland
31// Sylvie Leray, CEA-Saclay, France
32// Davide Mancusi, CEA-Saclay, France
33//
34#define INCLXX_IN_GEANT4_MODE 1
35
36#include "globals.hh"
37
41#include "G4INCLRandom.hh"
42#include "G4INCLGlobals.hh"
43#include "G4INCLLogger.hh"
44#include <algorithm>
46
47namespace G4INCL {
48
49 const G4double NpiToSKpiChannel::angularSlope = 6.; // What is the exact effect? Sould be check
50
52 : particle1(p1), particle2(p2)
53 {}
54
56
58
59 // p pi+ -> S+ pi+ K0 (5/4)
60 // p pi+ -> S+ pi0 K+ (3/4)
61 // p pi+ -> S0 pi+ K+ (1/4)
62 //
63 // p pi0 -> S+ pi0 K0 (1/2)
64 // p pi0 -> S+ pi- K+ (1/2)
65 // p pi0 -> S0 pi+ K0 (3/4)
66 // p pi0 -> S0 pi0 K+ (3/8)
67 // p pi0 -> S- pi+ K+ (1/2)
68 //
69 // p pi- -> S+ pi- K0 (3/8)
70 // p pi- -> S0 pi0 K0 (5/8)
71 // p pi- -> S0 pi- K+ (5/8)
72 // p pi- -> S- pi+ K0 (1)
73 // p pi- -> S- pi0 K+ (3/8)
74
75 Particle *nucleon;
76 Particle *pion;
77
78
79 if(particle1->isNucleon()){
80 nucleon = particle1;
81 pion = particle2;
82 }
83 else{
84 nucleon = particle2;
85 pion = particle1;
86 }
87
88 const G4double sqrtS = KinematicsUtils::totalEnergyInCM(nucleon, pion);
89
90 const G4int iso = ParticleTable::getIsospin(nucleon->getType()) + ParticleTable::getIsospin(pion->getType());
91 G4double rdm = Random::shoot();
92
93 ParticleType KaonType;
94
95 if(iso == 3 || iso == -3){
96 if(rdm*9. < 5.){
97 KaonType = ParticleTable::getKaonType(-iso/3);
98 nucleon->setType(ParticleTable::getSigmaType(iso/3*2));
99 }
100 else if(rdm*9. < 8.){
101 KaonType = ParticleTable::getKaonType(iso/3);
102 pion->setType(PiZero);
103 nucleon->setType(ParticleTable::getSigmaType(iso/3*2));
104 }
105 else{
106 KaonType = ParticleTable::getKaonType(iso/3);
107 nucleon->setType(SigmaZero);
108 }
109 }
110 else if(pion->getType() == PiZero){
111 if(rdm*21. < 4.){
112 KaonType = ParticleTable::getKaonType(-iso);
113 nucleon->setType(ParticleTable::getSigmaType(iso*2));
114 }
115 else if(rdm*21. < 8.){
116 KaonType = ParticleTable::getKaonType(iso);
117 pion->setType(ParticleTable::getPionType(-2*iso));
118 nucleon->setType(ParticleTable::getSigmaType(iso*2));
119 }
120 else if(rdm*21. < 14.){
121 KaonType = ParticleTable::getKaonType(-iso);
122 pion->setType(ParticleTable::getPionType(2*iso));
123 nucleon->setType(SigmaZero);
124 }
125 else if(rdm*21. < 17.){
126 KaonType = ParticleTable::getKaonType(iso);
127 nucleon->setType(SigmaZero);
128 }
129 else{
130 KaonType = ParticleTable::getKaonType(iso);
131 pion->setType(ParticleTable::getPionType(2*iso));
132 nucleon->setType(ParticleTable::getSigmaType(-iso*2));
133 }
134 }
135 else{
136 if(rdm*24. < 3.){
137 KaonType = ParticleTable::getKaonType(iso);
138 nucleon->setType(ParticleTable::getSigmaType(-iso*2));
139 }
140 else if(rdm*24. < 8.){
141 KaonType = ParticleTable::getKaonType(iso);
142 pion->setType(PiZero);
143 nucleon->setType(SigmaZero);
144 }
145 else if(rdm*24. < 13.){
146 KaonType = ParticleTable::getKaonType(-iso);
147 nucleon->setType(SigmaZero);
148 }
149 else if(rdm*24. < 21.){
150 KaonType = ParticleTable::getKaonType(iso);
151 pion->setType(ParticleTable::getPionType(-2*iso));
152 nucleon->setType(ParticleTable::getSigmaType(iso*2));
153 }
154 else{
155 KaonType = ParticleTable::getKaonType(-iso);
156 pion->setType(PiZero);
157 nucleon->setType(ParticleTable::getSigmaType(iso*2));
158 }
159 }
160
161 ParticleList list;
162 list.push_back(nucleon);
163 list.push_back(pion);
164 const ThreeVector &rcol = nucleon->getPosition();
165 const ThreeVector zero;
166 Particle *kaon = new Particle(KaonType,zero,rcol);
167 list.push_back(kaon);
168
169 PhaseSpaceGenerator::generateBiased(sqrtS, list, 0, angularSlope);
170
171 INCL_DEBUG("NpiToSKpi " << (kaon->getMomentum().theta()) * 180. / G4INCL::Math::pi << '\n');
172
173 fs->addModifiedParticle(nucleon);
174 fs->addModifiedParticle(pion);
175 fs->addCreatedParticle(kaon);
176
177 }
178}
#define INCL_DEBUG(x)
double G4double
Definition: G4Types.hh:83
int G4int
Definition: G4Types.hh:85
void addModifiedParticle(Particle *p)
void addCreatedParticle(Particle *p)
NpiToSKpiChannel(Particle *, Particle *)
void fillFinalState(FinalState *fs)
const G4INCL::ThreeVector & getMomentum() const
G4bool isNucleon() const
G4double theta() const
G4double totalEnergyInCM(Particle const *const p1, Particle const *const p2)
const G4double pi
ParticleType getKaonType(const G4int isosp)
Get the type of kaon.
ParticleType getSigmaType(const G4int isosp)
Get the type of sigma.
G4int getIsospin(const ParticleType t)
Get the isospin of a particle.
ParticleType getPionType(const G4int isosp)
Get the type of pion.
void generateBiased(const G4double sqrtS, ParticleList &particles, const size_t index, const G4double slope)
Generate a biased event in the CM system.
G4double shoot()
Definition: G4INCLRandom.cc:93