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Geant4/processes/hadronic/models/inclxx/incl_physics/src/G4INCLRecombinationChannel.cc

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Diff markup

Differences between /processes/hadronic/models/inclxx/incl_physics/src/G4INCLRecombinationChannel.cc (Version 11.3.0) and /processes/hadronic/models/inclxx/incl_physics/src/G4INCLRecombinationChannel.cc (Version 9.5.p2)


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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 // Pekka Kaitaniemi, CEA and Helsinki Institute of Physics
 28 // Joseph Cugnon, University of Liege, Belgium <<  28 // Davide Mancusi, CEA
 29 // Jean-Christophe David, CEA-Saclay, France   <<  29 // Alain Boudard, CEA
 30 // Pekka Kaitaniemi, CEA-Saclay, France, and H <<  30 // Sylvie Leray, CEA
 31 // Sylvie Leray, CEA-Saclay, France            <<  31 // Joseph Cugnon, University of Liege
 32 // Davide Mancusi, CEA-Saclay, France          <<  32 //
                                                   >>  33 // INCL++ revision: v5.0_rc3
 33 //                                                 34 //
 34 #define INCLXX_IN_GEANT4_MODE 1                    35 #define INCLXX_IN_GEANT4_MODE 1
 35                                                    36 
 36 #include "globals.hh"                              37 #include "globals.hh"
 37                                                    38 
 38 /** \file G4INCLRecombinationChannel.cc            39 /** \file G4INCLRecombinationChannel.cc
 39  * \brief Delta-nucleon recombination channel.     40  * \brief Delta-nucleon recombination channel.
 40  *                                                 41  *
 41  *  \date 25 March 2011                        <<  42  *  Created on: 25 March 2011
 42  * \author Davide Mancusi                      <<  43  *      Author: Davide Mancusi
 43  */                                                44  */
 44                                                    45 
 45 #include "G4INCLRecombinationChannel.hh"           46 #include "G4INCLRecombinationChannel.hh"
 46 #include "G4INCLRandom.hh"                         47 #include "G4INCLRandom.hh"
 47 #include "G4INCLKinematicsUtils.hh"                48 #include "G4INCLKinematicsUtils.hh"
 48 #include "G4INCLParticleTable.hh"                  49 #include "G4INCLParticleTable.hh"
 49 #include "G4INCLBinaryCollisionAvatar.hh"          50 #include "G4INCLBinaryCollisionAvatar.hh"
 50 #include "G4INCLGlobals.hh"                        51 #include "G4INCLGlobals.hh"
 51                                                    52 
 52 // #include <cassert>                              53 // #include <cassert>
 53                                                    54 
 54 namespace G4INCL {                                 55 namespace G4INCL {
 55                                                    56 
 56   RecombinationChannel::RecombinationChannel(P <<  57   RecombinationChannel::RecombinationChannel(Nucleus *n, Particle *p1, Particle *p2)
                                                   >>  58     :theNucleus(n)
 57   {                                                59   {
 58     if(p1->isDelta()) {                            60     if(p1->isDelta()) {
 59 // assert(p2->isNucleon());                    <<  61       // assert(p2->isNucleon());
 60       theDelta = p1;                               62       theDelta = p1;
 61       theNucleon = p2;                             63       theNucleon = p2;
 62     } else {                                       64     } else {
 63 // assert(p1->isNucleon());                    <<  65       // assert(p1->isNucleon());
 64       theDelta = p2;                               66       theDelta = p2;
 65       theNucleon = p1;                             67       theNucleon = p1;
 66     }                                              68     }
 67   }                                                69   }
 68                                                    70 
 69   RecombinationChannel::~RecombinationChannel(     71   RecombinationChannel::~RecombinationChannel()
 70   {                                                72   {
 71   }                                                73   }
 72                                                    74 
 73   void RecombinationChannel::fillFinalState(Fi <<  75   FinalState* RecombinationChannel::getFinalState()
 74   {                                                76   {
 75     // Compute the total available energy in t     77     // Compute the total available energy in the CM
 76     const G4double sqrts = KinematicsUtils::to     78     const G4double sqrts = KinematicsUtils::totalEnergyInCM(theDelta, theNucleon);
 77                                                    79 
 78     // Assign the types of the final-state par     80     // Assign the types of the final-state particles
 79     switch(theDelta->getType()) {                  81     switch(theDelta->getType()) {
 80       case DeltaPlusPlus:                          82       case DeltaPlusPlus:
 81 // assert(theNucleon->getType()!=Proton);      <<  83         // assert(theNucleon->getType()!=Proton);
 82         theDelta->setType(Proton);                 84         theDelta->setType(Proton);
 83         theNucleon->setType(Proton);               85         theNucleon->setType(Proton);
 84         break;                                     86         break;
 85       case DeltaPlus:                              87       case DeltaPlus:
 86         theDelta->setType(Proton);                 88         theDelta->setType(Proton);
 87         break;                                     89         break;
 88       case DeltaZero:                              90       case DeltaZero:
 89         theDelta->setType(Neutron);                91         theDelta->setType(Neutron);
 90         break;                                     92         break;
 91       case DeltaMinus:                             93       case DeltaMinus:
 92 // assert(theNucleon->getType()!=Neutron);     <<  94         // assert(theNucleon->getType()!=Neutron);
 93         theDelta->setType(Neutron);                95         theDelta->setType(Neutron);
 94         theNucleon->setType(Neutron);              96         theNucleon->setType(Neutron);
 95         break;                                     97         break;
 96       default:                                     98       default:
 97         INCL_ERROR("Unknown particle type in R <<  99         ERROR("Unknown particle type in RecombinationChannel" << std::endl);
 98         break;                                    100         break;
 99     }                                             101     }
100                                                   102 
101     // Calculate the momenta of the nucleons i    103     // Calculate the momenta of the nucleons in the final state
102     const G4double pCM = KinematicsUtils::mome    104     const G4double pCM = KinematicsUtils::momentumInCM(sqrts, theDelta->getMass(), theNucleon->getMass());
103                                                   105 
104     // The angular distribution of final-state    106     // The angular distribution of final-state nucleons is isotropic
105     ThreeVector momentum = Random::normVector(    107     ThreeVector momentum = Random::normVector(pCM);
106                                                   108 
107     // Assign the momenta                         109     // Assign the momenta
108     theDelta->setMomentum(momentum);              110     theDelta->setMomentum(momentum);
109     theNucleon->setMomentum(-momentum);           111     theNucleon->setMomentum(-momentum);
110                                                   112 
111     // Update the kinetic energies                113     // Update the kinetic energies
112     theDelta->adjustEnergyFromMomentum();         114     theDelta->adjustEnergyFromMomentum();
113     theNucleon->adjustEnergyFromMomentum();       115     theNucleon->adjustEnergyFromMomentum();
114                                                   116 
115     // Create the final state                     117     // Create the final state
                                                   >> 118     FinalState *fs = new FinalState();
116     fs->addModifiedParticle(theDelta);            119     fs->addModifiedParticle(theDelta);
117     fs->addModifiedParticle(theNucleon);          120     fs->addModifiedParticle(theNucleon);
                                                   >> 121 
                                                   >> 122     return fs;
118                                                   123 
119   }                                               124   }
120                                                   125 
121 }                                                 126 }
122                                                   127