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G4INCLPiNToMultiPionsChannel.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 
39 #include "G4INCLKinematicsUtils.hh"
41 #include "G4INCLRandom.hh"
42 #include "G4INCLGlobals.hh"
43 #include "G4INCLLogger.hh"
44 #include <algorithm>
46 
47 namespace G4INCL {
48 
50 
52  : npion(npi),
53  ind2(0),
54  particle1(p1),
55  particle2(p2)
56  {
57  std::fill(isosp, isosp+4, 0);
58  }
59 
61 
62  }
63 
65 
66 // assert(npion > 1 && npion < 5);
67 
68  Particle * nucleon;
69  Particle * pion;
70  if(particle1->isNucleon()) {
71  nucleon = particle1;
72  pion = particle2;
73  } else {
74  nucleon = particle2;
75  pion = particle1;
76  }
79 
80  ParticleList list;
81  list.push_back(nucleon);
82  list.push_back(pion);
83  fs->addModifiedParticle(nucleon);
84  fs->addModifiedParticle(pion);
85 
86  isospinRepartition(ipi);
87 
89  nucleon->setType(tn);
91  pion->setType(pionType);
92  const ThreeVector &rcolpion = pion->getPosition();
93  const ThreeVector zero;
94  for(G4int i=1; i<npion; ++i) {
95  pionType=ParticleTable::getPionType(isosp[i]);
96  Particle *newPion = new Particle(pionType,zero,rcolpion);
97  newPion->setType(pionType);
98  list.push_back(newPion);
99  fs->addCreatedParticle(newPion);
100  }
101 
102  const G4double sqrtS = KinematicsUtils::totalEnergyInCM(nucleon, pion);
104 
105  }
106 
108  G4double rjcd=Random::shoot();
109  const G4int itot=ipi*ind2;
110 
111  isosp[1]=ipi;
112  if (npion != 3) {
113  if (npion == 4){
114  const G4double r2 = Random::shoot();
115  if (r2*3. > 2.) {
116  isosp[2]= 0;
117  isosp[3]= 0;
118  }
119  else {
120  isosp[2]= 2;
121  isosp[3]= -2;
122  }
123  }
124 
125  if (itot == 2) {
126  // CAS PI+ P ET PI- n
127  rjcd *= 5.;
128  if (rjcd > 3.) {
129  // PI+ PI+ N ET PI- PI- P
130  isosp[0]=2*ind2;
131  isosp[1]=ipi;
132  ind2=-ind2;
133  }
134  else {
135  // PI+ PI0 P ET PI- PI0 N
136  isosp[0]=0;
137  isosp[1]=ipi;
138  }
139  }
140  else if (itot == 0) {
141  // CAS PI0 P ET PI0 N
142  rjcd *= 90.;
143  if (rjcd > 13.) {
144  if (rjcd > 52.) {
145  // PI+ PI0 N ET PI- PI0 P
146  isosp[0]=2*ind2;
147  isosp[1]=0;
148  ind2=-ind2;
149  }
150  else {
151  // PI+ PI- P ET PI+ PI- N
152  isosp[1]=-2;
153  isosp[0]=2;
154  }
155  }
156  else {
157  // PI0 PI0 P ET PI0 PI0 N
158  isosp[0]=0;
159  isosp[1]=0;
160  }
161  }
162  else if (itot == -2) {
163  // CAS PI- P ET PI+ N
164  rjcd *= 45.;
165  if (rjcd > 17.) {
166  if (rjcd > 24.) {
167  // PI+ PI- N ET PI+ PI- P
168  isosp[0]=2*ind2;
169  ind2=-ind2;
170  }
171  else {
172  // PI0 PI0 N ET PI0 PI0 P
173  isosp[0]=0;
174  isosp[1]=0;
175  ind2=-ind2;
176  }
177  }
178  else
179  // PI- PI0 P ET PI+ PI0 N
180  isosp[0]=0;
181  }
182  } // if (npion != 3)
183  else {
184  // PI N -> PI PI PI N
185  // IF (IPI*IND2) 20,21,22
186  if (itot == -2) {
187  // CAS PI- P ET PI+ N
188  rjcd *= 135.;
189  if (rjcd <= 28.) {
190  // PI0 PI0 PI0 N ET PI0 PI0 PI0 P
191  isosp[0]=0;
192  isosp[1]=0;
193  isosp[2]=0;
194  ind2=-ind2;
195  }
196  else {
197  if (rjcd <= 84.) {
198  // PI+ PI- PI0 N ET PI- PI+ PI0 P
199  isosp[0]=2*ind2;
200  isosp[2]=0;
201  ind2=-ind2;
202  }
203  else {
204  if (rjcd <= 118.) {
205  // PI- PI- PI+ P ET PI- PI+ PI+ N
206  isosp[0]=ipi;
207  isosp[2]=-ipi;
208  }
209  else {
210  // PI- PI0 PI0 P ET PI0 PI0 PI+ N
211  isosp[0]=0;
212  isosp[2]=0;
213  }
214  }
215  }
216  }
217  else if (itot == 0) {
218  // CAS PI0 P ET PI0 N
219  rjcd *= 270.;
220  if (rjcd <= 39.) {
221  // PI0 PI0 PI0 P ET PI0 PI0 PI0 N
222  isosp[0]=0;
223  isosp[2]=0;
224  }
225  else {
226  if (rjcd <= 156.) {
227  // PI+ PI- PI0 P ET PI- PI+ PI0 N
228  isosp[0]=2;
229  isosp[2]=-2;
230  }
231  else {
232  if (rjcd <= 194.) {
233  // PI+ PI0 PI0 N ET PI0 PI0 PI- P
234  isosp[0]=0;
235  isosp[2]=2*ind2;
236  ind2=-ind2;
237  }
238  else {
239  // PI- PI+ PI+ N ET PI- PI- PI+ P
240  isosp[0]=2*ind2;
241  isosp[1]=2*ind2;
242  isosp[2]=-2*ind2;
243  ind2=-ind2;
244  }
245  }
246  }
247  }
248  else if (itot == 2) {
249  // CAS PI+ P ET PI- N
250  rjcd *= 5.;
251  if (rjcd <= 2.) {
252  // PI+ P PI0 PI0 ET PI- N PI0 PI0
253  isosp[0]=0;
254  isosp[2]=0;
255  }
256  else {
257  if (rjcd <= 3.) {
258  // PI+ P PI+ PI- ET PI- N PI+ PI-
259  isosp[0]=-2;
260  isosp[2]=2;
261  }
262  else {
263  // PI+ N PI+ PI0 ET PI- P PI0 PI-
264  isosp[0]=2*ind2;
265  isosp[2]=0;
266  ind2=-ind2;
267  }
268  }
269  }
270  }
271 
272  std::random_shuffle(isosp,isosp+npion,Random::getAdapter()); // isospin randomly distributed
273  }
274 
275 }
void generateBiased(const G4double sqrtS, ParticleList &particles, const size_t index, const G4double slope)
Generate a biased event in the CM system.
G4bool pion(G4int ityp)
void addModifiedParticle(Particle *p)
const G4INCL::ThreeVector & getPosition() const
ParticleType getNucleonType(const G4int isosp)
Get the type of nucleon.
G4double totalEnergyInCM(Particle const *const p1, Particle const *const p2)
G4bool nucleon(G4int ityp)
Adapter const & getAdapter()
double G4double
Definition: G4Types.hh:76
G4double shoot()
Definition: G4INCLRandom.cc:93
PiNToMultiPionsChannel(const G4int, Particle *, Particle *)
void setType(ParticleType t)
int G4int
Definition: G4Types.hh:78
G4int getIsospin(const ParticleType t)
Get the isospin of a particle.
G4INCL::ParticleType getType() const
void addCreatedParticle(Particle *p)
G4bool isNucleon() const
ParticleType getPionType(const G4int isosp)
Get the type of pion.