Geant4 Cross Reference

Cross-Referencing   Geant4
Geant4/processes/hadronic/models/theo_high_energy/src/G4QuasiElasticChannel.cc

Version: [ ReleaseNotes ] [ 1.0 ] [ 1.1 ] [ 2.0 ] [ 3.0 ] [ 3.1 ] [ 3.2 ] [ 4.0 ] [ 4.0.p1 ] [ 4.0.p2 ] [ 4.1 ] [ 4.1.p1 ] [ 5.0 ] [ 5.0.p1 ] [ 5.1 ] [ 5.1.p1 ] [ 5.2 ] [ 5.2.p1 ] [ 5.2.p2 ] [ 6.0 ] [ 6.0.p1 ] [ 6.1 ] [ 6.2 ] [ 6.2.p1 ] [ 6.2.p2 ] [ 7.0 ] [ 7.0.p1 ] [ 7.1 ] [ 7.1.p1 ] [ 8.0 ] [ 8.0.p1 ] [ 8.1 ] [ 8.1.p1 ] [ 8.1.p2 ] [ 8.2 ] [ 8.2.p1 ] [ 8.3 ] [ 8.3.p1 ] [ 8.3.p2 ] [ 9.0 ] [ 9.0.p1 ] [ 9.0.p2 ] [ 9.1 ] [ 9.1.p1 ] [ 9.1.p2 ] [ 9.1.p3 ] [ 9.2 ] [ 9.2.p1 ] [ 9.2.p2 ] [ 9.2.p3 ] [ 9.2.p4 ] [ 9.3 ] [ 9.3.p1 ] [ 9.3.p2 ] [ 9.4 ] [ 9.4.p1 ] [ 9.4.p2 ] [ 9.4.p3 ] [ 9.4.p4 ] [ 9.5 ] [ 9.5.p1 ] [ 9.5.p2 ] [ 9.6 ] [ 9.6.p1 ] [ 9.6.p2 ] [ 9.6.p3 ] [ 9.6.p4 ] [ 10.0 ] [ 10.0.p1 ] [ 10.0.p2 ] [ 10.0.p3 ] [ 10.0.p4 ] [ 10.1 ] [ 10.1.p1 ] [ 10.1.p2 ] [ 10.1.p3 ] [ 10.2 ] [ 10.2.p1 ] [ 10.2.p2 ] [ 10.2.p3 ] [ 10.3 ] [ 10.3.p1 ] [ 10.3.p2 ] [ 10.3.p3 ] [ 10.4 ] [ 10.4.p1 ] [ 10.4.p2 ] [ 10.4.p3 ] [ 10.5 ] [ 10.5.p1 ] [ 10.6 ] [ 10.6.p1 ] [ 10.6.p2 ] [ 10.6.p3 ] [ 10.7 ] [ 10.7.p1 ] [ 10.7.p2 ] [ 10.7.p3 ] [ 10.7.p4 ] [ 11.0 ] [ 11.0.p1 ] [ 11.0.p2 ] [ 11.0.p3, ] [ 11.0.p4 ] [ 11.1 ] [ 11.1.1 ] [ 11.1.2 ] [ 11.1.3 ] [ 11.2 ] [ 11.2.1 ] [ 11.2.2 ] [ 11.3.0 ]

Diff markup

Differences between /processes/hadronic/models/theo_high_energy/src/G4QuasiElasticChannel.cc (Version 11.3.0) and /processes/hadronic/models/theo_high_energy/src/G4QuasiElasticChannel.cc (Version 10.6.p3)


  1 //                                                  1 //
  2 // *******************************************      2 // ********************************************************************
  3 // * License and Disclaimer                         3 // * License and Disclaimer                                           *
  4 // *                                                4 // *                                                                  *
  5 // * The  Geant4 software  is  copyright of th      5 // * The  Geant4 software  is  copyright of the Copyright Holders  of *
  6 // * the Geant4 Collaboration.  It is provided      6 // * the Geant4 Collaboration.  It is provided  under  the terms  and *
  7 // * conditions of the Geant4 Software License      7 // * conditions of the Geant4 Software License,  included in the file *
  8 // * LICENSE and available at  http://cern.ch/      8 // * LICENSE and available at  http://cern.ch/geant4/license .  These *
  9 // * include a list of copyright holders.           9 // * include a list of copyright holders.                             *
 10 // *                                               10 // *                                                                  *
 11 // * Neither the authors of this software syst     11 // * Neither the authors of this software system, nor their employing *
 12 // * institutes,nor the agencies providing fin     12 // * institutes,nor the agencies providing financial support for this *
 13 // * work  make  any representation or  warran     13 // * work  make  any representation or  warranty, express or implied, *
 14 // * regarding  this  software system or assum     14 // * regarding  this  software system or assume any liability for its *
 15 // * use.  Please see the license in the file      15 // * use.  Please see the license in the file  LICENSE  and URL above *
 16 // * for the full disclaimer and the limitatio     16 // * for the full disclaimer and the limitation of liability.         *
 17 // *                                               17 // *                                                                  *
 18 // * This  code  implementation is the result      18 // * This  code  implementation is the result of  the  scientific and *
 19 // * technical work of the GEANT4 collaboratio     19 // * technical work of the GEANT4 collaboration.                      *
 20 // * By using,  copying,  modifying or  distri     20 // * By using,  copying,  modifying or  distributing the software (or *
 21 // * any work based  on the software)  you  ag     21 // * any work based  on the software)  you  agree  to acknowledge its *
 22 // * use  in  resulting  scientific  publicati     22 // * use  in  resulting  scientific  publications,  and indicate your *
 23 // * acceptance of all terms of the Geant4 Sof     23 // * acceptance of all terms of the Geant4 Software license.          *
 24 // *******************************************     24 // ********************************************************************
 25 //                                                 25 //
 26 //                                                 26 //
 27 //                                                 27 //
 28                                                    28 
 29 // Author : Gunter Folger March 2007               29 // Author : Gunter Folger March 2007
 30 // Modified by Mikhail Kossov. Apr2009, E/M co     30 // Modified by Mikhail Kossov. Apr2009, E/M conservation: ResidualNucleus is added (ResNuc)
 31 // Class Description                               31 // Class Description
 32 // Final state production model for theoretica     32 // Final state production model for theoretical models of hadron inelastic
 33 // quasi elastic scattering in geant4;             33 // quasi elastic scattering in geant4;
 34 // Class Description - End                         34 // Class Description - End
 35 //                                                 35 //
 36 // Modified:                                       36 // Modified:
 37 // 20110805  M. Kelsey -- Follow change to G4V     37 // 20110805  M. Kelsey -- Follow change to G4V3DNucleus::GetNucleons()
 38 // 20110808  M. Kelsey -- Move #includes from      38 // 20110808  M. Kelsey -- Move #includes from .hh, add many missing
 39                                                    39 
 40 #include "G4QuasiElasticChannel.hh"                40 #include "G4QuasiElasticChannel.hh"
 41                                                    41 
 42 #include "G4Fancy3DNucleus.hh"                     42 #include "G4Fancy3DNucleus.hh"
 43 #include "G4DynamicParticle.hh"                    43 #include "G4DynamicParticle.hh"
 44 #include "G4HadTmpUtil.hh"    /* lrint */          44 #include "G4HadTmpUtil.hh"    /* lrint */
 45 #include "G4KineticTrack.hh"                       45 #include "G4KineticTrack.hh"
 46 #include "G4KineticTrackVector.hh"                 46 #include "G4KineticTrackVector.hh"
 47 #include "G4LorentzVector.hh"                      47 #include "G4LorentzVector.hh"
 48 #include "G4Neutron.hh"                            48 #include "G4Neutron.hh"
 49 #include "G4Nucleon.hh"                            49 #include "G4Nucleon.hh"
 50 #include "G4Nucleus.hh"                            50 #include "G4Nucleus.hh"
 51 #include "G4ParticleDefinition.hh"                 51 #include "G4ParticleDefinition.hh"
 52 #include "G4ParticleTable.hh"                      52 #include "G4ParticleTable.hh"
 53 #include "G4IonTable.hh"                           53 #include "G4IonTable.hh"
 54 #include "G4QuasiElRatios.hh"                      54 #include "G4QuasiElRatios.hh"
 55 #include "globals.hh"                              55 #include "globals.hh"
 56 #include <vector>                                  56 #include <vector>
 57 #include "G4PhysicsModelCatalog.hh"            << 
 58                                                    57 
 59 //#define debug_scatter                            58 //#define debug_scatter
 60                                                    59 
 61                                                    60 
 62 G4QuasiElasticChannel::G4QuasiElasticChannel()     61 G4QuasiElasticChannel::G4QuasiElasticChannel()
 63   : G4HadronicInteraction("QuasiElastic"),     <<  62   : theQuasiElastic(new G4QuasiElRatios),
 64     theQuasiElastic(new G4QuasiElRatios),      <<  63     the3DNucleus(new G4Fancy3DNucleus) {
 65     the3DNucleus(new G4Fancy3DNucleus),        << 
 66     secID(-1) {                                << 
 67   secID = G4PhysicsModelCatalog::GetModelID( " << 
 68 }                                                  64 }
 69                                                    65 
 70 G4QuasiElasticChannel::~G4QuasiElasticChannel(     66 G4QuasiElasticChannel::~G4QuasiElasticChannel()
 71 {                                                  67 {
 72   delete the3DNucleus;                             68   delete the3DNucleus;
 73   delete theQuasiElastic;                          69   delete theQuasiElastic;
 74 }                                                  70 }
 75                                                    71 
 76 G4double G4QuasiElasticChannel::GetFraction(G4     72 G4double G4QuasiElasticChannel::GetFraction(G4Nucleus &theNucleus,
 77     const G4DynamicParticle & thePrimary)          73     const G4DynamicParticle & thePrimary)
 78 {                                                  74 {
 79     #ifdef debug_scatter                           75     #ifdef debug_scatter   
 80       G4cout << "G4QuasiElasticChannel:: P=" <     76       G4cout << "G4QuasiElasticChannel:: P=" << thePrimary.GetTotalMomentum()
 81              << ", pPDG=" << thePrimary.GetDef     77              << ", pPDG=" << thePrimary.GetDefinition()->GetPDGEncoding()
 82              << ", Z = "  << theNucleus.GetZ_a     78              << ", Z = "  << theNucleus.GetZ_asInt())
 83              << ", N = "  << theNucleus.GetN_a     79              << ", N = "  << theNucleus.GetN_asInt())
 84              << ", A = "  << theNucleus.GetA_a     80              << ", A = "  << theNucleus.GetA_asInt() << G4endl;
 85     #endif                                         81     #endif
 86                                                    82 
 87   std::pair<G4double,G4double> ratios;             83   std::pair<G4double,G4double> ratios;
 88   ratios=theQuasiElastic->GetRatios(thePrimary     84   ratios=theQuasiElastic->GetRatios(thePrimary.GetTotalMomentum(),
 89                                     thePrimary     85                                     thePrimary.GetDefinition()->GetPDGEncoding(),
 90                                     theNucleus     86                                     theNucleus.GetZ_asInt(),
 91                                     theNucleus     87                                     theNucleus.GetN_asInt());
 92     #ifdef debug_scatter                           88     #ifdef debug_scatter   
 93       G4cout << "G4QuasiElasticChannel::ratios     89       G4cout << "G4QuasiElasticChannel::ratios " << ratios.first << " x " <<ratios.second
 94              << "  = " << ratios.first*ratios.     90              << "  = " << ratios.first*ratios.second << G4endl;
 95     #endif                                         91     #endif
 96                                                    92         
 97   return ratios.first*ratios.second;               93   return ratios.first*ratios.second;
 98 }                                                  94 }
 99                                                    95 
100 G4KineticTrackVector * G4QuasiElasticChannel::     96 G4KineticTrackVector * G4QuasiElasticChannel::Scatter(G4Nucleus &theNucleus,
101                                                    97                                                       const G4DynamicParticle & thePrimary)
102 {                                                  98 {
103   G4int A=theNucleus.GetA_asInt();                 99   G4int A=theNucleus.GetA_asInt();
104   G4int Z=theNucleus.GetZ_asInt();                100   G4int Z=theNucleus.GetZ_asInt();
105   //   build Nucleus and choose random nucleon    101   //   build Nucleus and choose random nucleon to scatter with
106   the3DNucleus->Init(theNucleus.GetA_asInt(),t    102   the3DNucleus->Init(theNucleus.GetA_asInt(),theNucleus.GetZ_asInt());
107   const std::vector<G4Nucleon>& nucleons=the3D    103   const std::vector<G4Nucleon>& nucleons=the3DNucleus->GetNucleons();
108   G4double targetNucleusMass=the3DNucleus->Get    104   G4double targetNucleusMass=the3DNucleus->GetMass();
109   G4LorentzVector targetNucleus4Mom(0.,0.,0.,t    105   G4LorentzVector targetNucleus4Mom(0.,0.,0.,targetNucleusMass);
110   G4int index;                                    106   G4int index;
111   do {                                            107   do {
112     index=G4lrint((A-1)*G4UniformRand());         108     index=G4lrint((A-1)*G4UniformRand());
113   } while (index < 0 || index >= static_cast<G    109   } while (index < 0 || index >= static_cast<G4int>(nucleons.size()));  /* Loop checking, 07.08.2015, A.Ribon */
114                                                   110 
115   const G4ParticleDefinition * pDef= nucleons[    111   const G4ParticleDefinition * pDef= nucleons[index].GetDefinition();
116                                                   112 
117   G4int resA=A - 1;                               113   G4int resA=A - 1;
118   G4int resZ=Z - static_cast<int>(pDef->GetPDG    114   G4int resZ=Z - static_cast<int>(pDef->GetPDGCharge());
119   const G4ParticleDefinition* resDef;             115   const G4ParticleDefinition* resDef;
120   G4double residualNucleusMass;                   116   G4double residualNucleusMass;
121   if(resZ)                                        117   if(resZ)
122   {                                               118   {
123     resDef=G4ParticleTable::GetParticleTable()    119     resDef=G4ParticleTable::GetParticleTable()->GetIonTable()->GetIon(resZ,resA,0);
124     residualNucleusMass=resDef->GetPDGMass();     120     residualNucleusMass=resDef->GetPDGMass();
125   }                                               121   }
126   else {                                          122   else {
127     resDef=G4Neutron::Neutron();                  123     resDef=G4Neutron::Neutron();
128     residualNucleusMass=resA * G4Neutron::Neut    124     residualNucleusMass=resA * G4Neutron::Neutron()->GetPDGMass();
129   }                                               125   }
130    #ifdef debug_scatter                           126    #ifdef debug_scatter
131      G4cout<<"G4QElChan::Scatter: neutron - pr    127      G4cout<<"G4QElChan::Scatter: neutron - proton? A ="<<A<<", Z="<<Z<<", projName="
132            <<pDef->GetParticleName()<<G4endl;     128            <<pDef->GetParticleName()<<G4endl;
133    #endif                                         129    #endif
134                                                   130 
135   G4LorentzVector pNucleon=nucleons[index].Get    131   G4LorentzVector pNucleon=nucleons[index].Get4Momentum();
136   G4double residualNucleusEnergy=std::sqrt(sqr    132   G4double residualNucleusEnergy=std::sqrt(sqr(residualNucleusMass) +
137                                            pNu    133                                            pNucleon.vect().mag2());
138   pNucleon.setE(targetNucleusMass-residualNucl    134   pNucleon.setE(targetNucleusMass-residualNucleusEnergy);
139   G4LorentzVector residualNucleus4Mom=targetNu    135   G4LorentzVector residualNucleus4Mom=targetNucleus4Mom-pNucleon;
140                                                   136  
141   std::pair<G4LorentzVector,G4LorentzVector> r    137   std::pair<G4LorentzVector,G4LorentzVector> result;
142                                                   138  
143   result=theQuasiElastic->Scatter(pDef->GetPDG    139   result=theQuasiElastic->Scatter(pDef->GetPDGEncoding(),pNucleon,
144                                   thePrimary.G    140                                   thePrimary.GetDefinition()->GetPDGEncoding(),
145                                   thePrimary.G    141                                   thePrimary.Get4Momentum());
146   G4LorentzVector scatteredHadron4Mom;            142   G4LorentzVector scatteredHadron4Mom;
147   if (result.first.e() > 0.)                      143   if (result.first.e() > 0.)
148     scatteredHadron4Mom=result.second;            144     scatteredHadron4Mom=result.second;
149   else {  //scatter failed                        145   else {  //scatter failed
150     //G4cout << "Warning - G4QuasiElasticChann    146     //G4cout << "Warning - G4QuasiElasticChannel::Scatter no scattering" << G4endl;
151     //return 0;       //no scatter                147     //return 0;       //no scatter
152     scatteredHadron4Mom=thePrimary.Get4Momentu    148     scatteredHadron4Mom=thePrimary.Get4Momentum();
153     residualNucleus4Mom=G4LorentzVector(0.,0.,    149     residualNucleus4Mom=G4LorentzVector(0.,0.,0.,targetNucleusMass);
154     resDef=G4ParticleTable::GetParticleTable()    150     resDef=G4ParticleTable::GetParticleTable()->GetIonTable()->GetIon(Z,A,0);
155   }                                               151   }
156                                                   152 
157 #ifdef debug_scatter                              153 #ifdef debug_scatter
158   G4LorentzVector EpConservation=pNucleon+theP    154   G4LorentzVector EpConservation=pNucleon+thePrimary.Get4Momentum() 
159                                  - result.firs    155                                  - result.first - result.second;
160   if (   (EpConservation.vect().mag2() > .01*M    156   if (   (EpConservation.vect().mag2() > .01*MeV*MeV )
161       || (std::abs(EpConservation.e()) > 0.1 *    157       || (std::abs(EpConservation.e()) > 0.1 * MeV ) ) 
162   {                                               158   {
163     G4cout << "Warning - G4QuasiElasticChannel    159     G4cout << "Warning - G4QuasiElasticChannel::Scatter E-p non conservation : "
164            << EpConservation << G4endl;           160            << EpConservation << G4endl;
165   }                                               161   }    
166 #endif                                            162 #endif
167                                                   163 
168   G4KineticTrackVector * ktv = new G4KineticTr    164   G4KineticTrackVector * ktv = new G4KineticTrackVector();
169   G4KineticTrack * sPrim=new G4KineticTrack(th    165   G4KineticTrack * sPrim=new G4KineticTrack(thePrimary.GetDefinition(),
170                                             0.    166                                             0.,G4ThreeVector(0), scatteredHadron4Mom);
171   sPrim->SetCreatorModelID( secID );           << 
172   ktv->push_back(sPrim);                          167   ktv->push_back(sPrim);
173   if (result.first.e() > 0.)                      168   if (result.first.e() > 0.)
174   {                                               169   {
175     G4KineticTrack * sNuc=new G4KineticTrack(p    170     G4KineticTrack * sNuc=new G4KineticTrack(pDef, 0.,G4ThreeVector(0), result.first);
176     sNuc->SetCreatorModelID( secID );          << 
177     ktv->push_back(sNuc);                         171     ktv->push_back(sNuc);
178   }                                               172   }
179   if(resZ || resA==1) // For the only neutron     173   if(resZ || resA==1) // For the only neutron or for tnuclei with Z>0 
180   {                                               174   {
181     G4KineticTrack * rNuc=new G4KineticTrack(r    175     G4KineticTrack * rNuc=new G4KineticTrack(resDef,
182                            0.,G4ThreeVector(0)    176                            0.,G4ThreeVector(0), residualNucleus4Mom);
183     rNuc->SetCreatorModelID( secID );          << 
184     ktv->push_back(rNuc);                         177     ktv->push_back(rNuc);
185   }                                               178   }
186   else // The residual nucleus consists of onl    179   else // The residual nucleus consists of only neutrons 
187   {                                               180   {
188     residualNucleus4Mom/=resA;     // Split 4-    181     residualNucleus4Mom/=resA;     // Split 4-mom of A*n system equally
189     for(G4int in=0; in<resA; in++) // Loop ove    182     for(G4int in=0; in<resA; in++) // Loop over neutrons in A*n system.
190     {                                             183     {
191       G4KineticTrack* rNuc=new G4KineticTrack(    184       G4KineticTrack* rNuc=new G4KineticTrack(resDef,
192                            0.,G4ThreeVector(0)    185                            0.,G4ThreeVector(0), residualNucleus4Mom);
193       rNuc->SetCreatorModelID( secID );        << 
194       ktv->push_back(rNuc);                       186       ktv->push_back(rNuc);
195     }                                             187     }
196   }                                               188   }
197 #ifdef debug_scatter                              189 #ifdef debug_scatter
198   G4cout<<"G4QElC::Scat: Nucleon: "<<result.fi    190   G4cout<<"G4QElC::Scat: Nucleon: "<<result.first <<" mass "<<result.first.mag() << G4endl;
199   G4cout<<"G4QElC::Scat: Project: "<<result.se    191   G4cout<<"G4QElC::Scat: Project: "<<result.second<<" mass "<<result.second.mag()<< G4endl;
200 #endif                                            192 #endif
201   return ktv;                                     193   return ktv;
202 }                                                 194 }
203                                                   195