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Geant4/processes/hadronic/models/inclxx/incl_physics/src/G4INCLPhaseSpaceKopylov.cc

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Differences between /processes/hadronic/models/inclxx/incl_physics/src/G4INCLPhaseSpaceKopylov.cc (Version 11.3.0) and /processes/hadronic/models/inclxx/incl_physics/src/G4INCLPhaseSpaceKopylov.cc (Version 10.6.p1)


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 25 //                                                 25 //
 26 // INCL++ intra-nuclear cascade model              26 // INCL++ intra-nuclear cascade model
 27 // Alain Boudard, CEA-Saclay, France               27 // Alain Boudard, CEA-Saclay, France
 28 // Joseph Cugnon, University of Liege, Belgium     28 // Joseph Cugnon, University of Liege, Belgium
 29 // Jean-Christophe David, CEA-Saclay, France       29 // Jean-Christophe David, CEA-Saclay, France
 30 // Pekka Kaitaniemi, CEA-Saclay, France, and H     30 // Pekka Kaitaniemi, CEA-Saclay, France, and Helsinki Institute of Physics, Finland
 31 // Sylvie Leray, CEA-Saclay, France                31 // Sylvie Leray, CEA-Saclay, France
 32 // Davide Mancusi, CEA-Saclay, France              32 // Davide Mancusi, CEA-Saclay, France
 33 //                                                 33 //
 34 #define INCLXX_IN_GEANT4_MODE 1                    34 #define INCLXX_IN_GEANT4_MODE 1
 35                                                    35 
 36 #include "globals.hh"                              36 #include "globals.hh"
 37                                                    37 
 38 #include "G4INCLPhaseSpaceKopylov.hh"              38 #include "G4INCLPhaseSpaceKopylov.hh"
 39 #include "G4INCLRandom.hh"                         39 #include "G4INCLRandom.hh"
 40 #include "G4INCLKinematicsUtils.hh"                40 #include "G4INCLKinematicsUtils.hh"
 41 #include <algorithm>                               41 #include <algorithm>
 42 #include <numeric>                                 42 #include <numeric>
 43 #include <functional>                              43 #include <functional>
 44                                                    44 
 45 namespace G4INCL {                                 45 namespace G4INCL {
 46                                                    46 
 47   G4double PhaseSpaceKopylov::betaKopylov(G4in     47   G4double PhaseSpaceKopylov::betaKopylov(G4int K) const {
 48     G4int N = 3*K - 5;                             48     G4int N = 3*K - 5;
 49     G4double xN = G4double(N);                     49     G4double xN = G4double(N);
 50     G4double Fmax = std::sqrt(std::pow(xN/(xN+     50     G4double Fmax = std::sqrt(std::pow(xN/(xN+1.),N)/(xN+1.));
 51                                                    51 
 52     G4double F, chi;                               52     G4double F, chi;
 53     unsigned long loopCounter = 0;                 53     unsigned long loopCounter = 0;
 54     const unsigned long maxLoopCounter = 10000     54     const unsigned long maxLoopCounter = 10000000;
 55     do {                                           55     do {
 56       chi = Random::shoot();                       56       chi = Random::shoot();
 57       F = std::sqrt(std::pow(chi,N)*(1.-chi));     57       F = std::sqrt(std::pow(chi,N)*(1.-chi));
 58       ++loopCounter;                               58       ++loopCounter;
 59     } while (loopCounter<maxLoopCounter && Fma     59     } while (loopCounter<maxLoopCounter && Fmax*Random::shoot() > F); /* Loop checking, 10.07.2015, D.Mancusi */
 60     return chi;                                    60     return chi;
 61   }                                                61   }
 62                                                    62 
 63   void PhaseSpaceKopylov::generate(const G4dou     63   void PhaseSpaceKopylov::generate(const G4double sqrtS, ParticleList &particles) {
 64                                                    64 
 65     boostV.setX(0.0);                              65     boostV.setX(0.0);
 66     boostV.setY(0.0);                              66     boostV.setY(0.0);
 67     boostV.setZ(0.0);                              67     boostV.setZ(0.0);
 68                                                    68 
 69     const std::size_t N = particles.size();    <<  69     const size_t N = particles.size();
 70     masses.resize(N);                              70     masses.resize(N);
 71     sumMasses.resize(N);                           71     sumMasses.resize(N);
 72     std::transform(particles.begin(), particle     72     std::transform(particles.begin(), particles.end(), masses.begin(), std::mem_fn(&Particle::getMass));
 73     std::partial_sum(masses.begin(), masses.en     73     std::partial_sum(masses.begin(), masses.end(), sumMasses.begin());
 74                                                    74 
 75     G4double PFragMagCM = 0.0;                     75     G4double PFragMagCM = 0.0;
 76     G4double T = sqrtS-sumMasses.back();           76     G4double T = sqrtS-sumMasses.back();
 77 // assert(T>-1.e-5);                               77 // assert(T>-1.e-5);
 78     if(T<0.)                                       78     if(T<0.)
 79       T=0.;                                        79       T=0.;
 80                                                    80 
 81     // The first particle in the list will pic     81     // The first particle in the list will pick up all the recoil
 82     Particle *restParticle = particles.front()     82     Particle *restParticle = particles.front();
 83     restParticle->setMass(sqrtS);                  83     restParticle->setMass(sqrtS);
 84     restParticle->adjustEnergyFromMomentum();      84     restParticle->adjustEnergyFromMomentum();
 85                                                    85 
 86     G4int k=G4int(N-1);                        <<  86     G4int k=N-1;
 87     for (auto p=particles.rbegin(); k>0; ++p,  <<  87     for (ParticleList::reverse_iterator p=particles.rbegin(); k>0; ++p, --k) {
 88       const G4double mu = sumMasses[k-1];          88       const G4double mu = sumMasses[k-1];
 89       T *= (k>1) ? betaKopylov(k) : 0.;            89       T *= (k>1) ? betaKopylov(k) : 0.;
 90                                                    90 
 91       const G4double restMass = mu + T;            91       const G4double restMass = mu + T;
 92                                                    92 
 93       PFragMagCM = KinematicsUtils::momentumIn     93       PFragMagCM = KinematicsUtils::momentumInCM(restParticle->getMass(), masses[k], restMass);
 94       PFragCM = Random::normVector(PFragMagCM)     94       PFragCM = Random::normVector(PFragMagCM);
 95       (*p)->setMomentum(PFragCM);                  95       (*p)->setMomentum(PFragCM);
 96       (*p)->adjustEnergyFromMomentum();            96       (*p)->adjustEnergyFromMomentum();
 97       restParticle->setMass(restMass);             97       restParticle->setMass(restMass);
 98       restParticle->setMomentum(-PFragCM);         98       restParticle->setMomentum(-PFragCM);
 99       restParticle->adjustEnergyFromMomentum()     99       restParticle->adjustEnergyFromMomentum();
100                                                   100 
101       (*p)->boost(boostV);                        101       (*p)->boost(boostV);
102       restParticle->boost(boostV);                102       restParticle->boost(boostV);
103                                                   103 
104       boostV = -restParticle->boostVector();      104       boostV = -restParticle->boostVector();
105     }                                             105     }
106     restParticle->setMass(masses[0]);             106     restParticle->setMass(masses[0]);
107     restParticle->adjustEnergyFromMomentum();     107     restParticle->adjustEnergyFromMomentum();
108   }                                               108   }
109                                                   109 
110 }                                                 110 }
111                                                   111