Geant4 Cross Reference

Cross-Referencing   Geant4
Geant4/processes/hadronic/models/inclxx/incl_physics/src/G4INCLNuclearPotentialConstant.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/inclxx/incl_physics/src/G4INCLNuclearPotentialConstant.cc (Version 11.3.0) and /processes/hadronic/models/inclxx/incl_physics/src/G4INCLNuclearPotentialConstant.cc (Version 9.0)


  1 //                                                  1 
  2 // *******************************************    
  3 // * License and Disclaimer                       
  4 // *                                              
  5 // * The  Geant4 software  is  copyright of th    
  6 // * the Geant4 Collaboration.  It is provided    
  7 // * conditions of the Geant4 Software License    
  8 // * LICENSE and available at  http://cern.ch/    
  9 // * include a list of copyright holders.         
 10 // *                                              
 11 // * Neither the authors of this software syst    
 12 // * institutes,nor the agencies providing fin    
 13 // * work  make  any representation or  warran    
 14 // * regarding  this  software system or assum    
 15 // * use.  Please see the license in the file     
 16 // * for the full disclaimer and the limitatio    
 17 // *                                              
 18 // * This  code  implementation is the result     
 19 // * technical work of the GEANT4 collaboratio    
 20 // * By using,  copying,  modifying or  distri    
 21 // * any work based  on the software)  you  ag    
 22 // * use  in  resulting  scientific  publicati    
 23 // * acceptance of all terms of the Geant4 Sof    
 24 // *******************************************    
 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 H    
 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                                                   
 38 /** \file G4INCLNuclearPotentialConstant.cc       
 39  * \brief Isospin- and energy-independent nucl    
 40  *                                                
 41  * Provides a constant nuclear potential (V0).    
 42  *                                                
 43  * \date 17 January 2011                          
 44  * \author Davide Mancusi                         
 45  */                                               
 46                                                   
 47 #include "G4INCLNuclearPotentialConstant.hh"      
 48 #include "G4INCLParticleTable.hh"                 
 49                                                   
 50 namespace G4INCL {                                
 51                                                   
 52   namespace NuclearPotential {                    
 53                                                   
 54     // Constructors                               
 55     NuclearPotentialConstant::NuclearPotential    
 56       : INuclearPotential(A, Z, aPionPotential    
 57     {                                             
 58       initialize();                               
 59     }                                             
 60                                                   
 61     // Destructor                                 
 62     NuclearPotentialConstant::~NuclearPotentia    
 63     }                                             
 64                                                   
 65     void NuclearPotentialConstant::initialize(    
 66       const G4double mp = ParticleTable::getIN    
 67       const G4double mn = ParticleTable::getIN    
 68                                                   
 69       const G4double theFermiMomentum = Partic    
 70                                                   
 71       fermiMomentum[Proton] = theFermiMomentum    
 72       const G4double theProtonFermiEnergy = st    
 73       fermiEnergy[Proton] = theProtonFermiEner    
 74                                                   
 75       fermiMomentum[Neutron] = theFermiMomentu    
 76       const G4double theNeutronFermiEnergy = s    
 77       fermiEnergy[Neutron] = theNeutronFermiEn    
 78                                                   
 79       fermiEnergy[DeltaPlusPlus] = fermiEnergy    
 80       fermiEnergy[DeltaPlus] = fermiEnergy.fin    
 81       fermiEnergy[DeltaZero] = fermiEnergy.fin    
 82       fermiEnergy[DeltaMinus] = fermiEnergy.fi    
 83                                                   
 84       fermiEnergy[SigmaPlus] = fermiEnergy.fin    
 85       fermiEnergy[SigmaZero] = fermiEnergy.fin    
 86       fermiEnergy[SigmaMinus] = fermiEnergy.fi    
 87                                                   
 88       fermiEnergy[Lambda] = fermiEnergy.find(N    
 89                                                   
 90                                                   
 91       const G4double theAverageSeparationEnerg    
 92       separationEnergy[Proton] = theAverageSep    
 93       separationEnergy[Neutron] = theAverageSe    
 94                                                   
 95       // Use separation energies from the Part    
 96       vNucleon = 0.5*(theProtonFermiEnergy + t    
 97       vDelta = vNucleon;                          
 98       vSigma = -16.; // Caution: repulsive pot    
 99       vLambda = 28.;                              
100       separationEnergy[DeltaPlusPlus] = vDelta    
101       separationEnergy[DeltaPlus] = vDelta - f    
102       separationEnergy[DeltaZero] = vDelta - f    
103       separationEnergy[DeltaMinus] = vDelta -     
104                                                   
105       separationEnergy[PiPlus] = 0.;              
106       separationEnergy[PiZero] = 0.;              
107       separationEnergy[PiMinus] = 0.;             
108                                                   
109     separationEnergy[Eta]      = 0.;              
110     separationEnergy[Omega]    = 0.;              
111     separationEnergy[EtaPrime] = 0.;              
112     separationEnergy[Photon]   = 0.;              
113                                                   
114       separationEnergy[Lambda]    = 0.;           
115       separationEnergy[SigmaPlus] = 0.;           
116       separationEnergy[SigmaZero] = 0.;           
117       separationEnergy[SigmaMinus]  = 0.;         
118       separationEnergy[KPlus]   = 0.;             
119       separationEnergy[KZero]   = 0.;             
120       separationEnergy[KZeroBar]  = 0.;           
121       separationEnergy[KMinus]    = 0.;           
122       separationEnergy[KShort]    = 0.;           
123       separationEnergy[KLong]   = 0.;             
124                                                   
125       INCL_DEBUG("Table of separation energies    
126             << "  proton:  " << separationEner    
127             << "  neutron: " << separationEner    
128             << "  delta++: " << separationEner    
129             << "  delta+:  " << separationEner    
130             << "  delta0:  " << separationEner    
131             << "  delta-:  " << separationEner    
132             << "  pi+:     " << separationEner    
133             << "  pi0:     " << separationEner    
134       << "  pi-:     " << separationEnergy[PiM    
135       << "  eta:     " << separationEnergy[Eta    
136       << "  omega:   " << separationEnergy[Ome    
137       << "  etaprime:" << separationEnergy[Eta    
138       << "  photon:  " << separationEnergy[Pho    
139             << "  lambda:  " << separationEner    
140             << "  sigmaplus:  " << separationE    
141             << "  sigmazero:  " << separationE    
142             << "  sigmaminus:  " << separation    
143             << "  kplus:  " << separationEnerg    
144             << "  kzero:  " << separationEnerg    
145             << "  kzerobar:  " << separationEn    
146             << "  kminus:  " << separationEner    
147             << "  kshort:  " << separationEner    
148             << "  klong:  " << separationEnerg    
149             );                                    
150                                                   
151       INCL_DEBUG("Table of Fermi energies [MeV    
152             << "  proton:  " << fermiEnergy[Pr    
153             << "  neutron: " << fermiEnergy[Ne    
154             << "  delta++: " << fermiEnergy[De    
155             << "  delta+:  " << fermiEnergy[De    
156             << "  delta0:  " << fermiEnergy[De    
157             << "  delta-:  " << fermiEnergy[De    
158             << "  lambda:  " << fermiEnergy[La    
159             << "  sigmaplus:  " << fermiEnergy    
160             << "  sigmazero:  " << fermiEnergy    
161             << "  sigmaminus:  " << fermiEnerg    
162             );                                    
163                                                   
164       INCL_DEBUG("Table of Fermi momenta [MeV/    
165             << "  proton:  " << fermiMomentum[    
166             << "  neutron: " << fermiMomentum[    
167             );                                    
168     }                                             
169                                                   
170     G4double NuclearPotentialConstant::compute    
171                                                   
172       switch( particle->getType() )               
173       {                                           
174         case Proton:                              
175         case Neutron:                             
176           return vNucleon;                        
177           break;                                  
178                                                   
179         case PiPlus:                              
180         case PiZero:                              
181         case PiMinus:                             
182           return computePionPotentialEnergy(pa    
183           break;                                  
184                                                   
185         case Eta:                                 
186         case Omega:                               
187     case EtaPrime:                                
188           return computePionResonancePotential    
189           break;                                  
190                                                   
191         case SigmaPlus:                           
192         case SigmaZero:                           
193         case SigmaMinus:                          
194           return vSigma;                          
195           break;                                  
196         case Lambda:                              
197           return vLambda;                         
198           break;                                  
199                                                   
200         case KPlus:                               
201         case KZero:                               
202         case KZeroBar:                            
203         case KMinus:                              
204           return computeKaonPotentialEnergy(pa    
205           break;                                  
206                                                   
207     case Photon:                                  
208       return 0.0;                                 
209       break;                                      
210                                                   
211     case DeltaPlusPlus:                           
212         case DeltaPlus:                           
213         case DeltaZero:                           
214         case DeltaMinus:                          
215           return vDelta;                          
216           break;                                  
217         case UnknownParticle:                     
218           INCL_ERROR("Trying to compute potent    
219           return 0.0;                             
220           break;                                  
221         default:                                  
222           INCL_ERROR("Trying to compute potent    
223           return 0.0;                             
224           break;                                  
225       }                                           
226     }                                             
227                                                   
228   }                                               
229 }                                                 
230                                                   
231