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Geant4/processes/hadronic/models/de_excitation/handler/include/G4ExcitationHandler.hh

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Differences between /processes/hadronic/models/de_excitation/handler/include/G4ExcitationHandler.hh (Version 11.3.0) and /processes/hadronic/models/de_excitation/handler/include/G4ExcitationHandler.hh (Version 9.6.p4)


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 25 //                                                 25 //
                                                   >>  26 // $Id$
                                                   >>  27 //
 26 // Hadronic Process: Nuclear De-excitations        28 // Hadronic Process: Nuclear De-excitations
 27 // by V. Lara (May 1998)                           29 // by V. Lara (May 1998)
 28 //                                                 30 //
 29 // Modifications:                                  31 // Modifications:
 30 // 30 June 1998 by V. Lara:                        32 // 30 June 1998 by V. Lara:
 31 //      -Using G4ParticleTable and therefore G     33 //      -Using G4ParticleTable and therefore G4IonTable
 32 //       it can return all kind of fragments p     34 //       it can return all kind of fragments produced in 
 33 //       deexcitation                              35 //       deexcitation
 34 //      -It uses default algorithms for:           36 //      -It uses default algorithms for:
 35 //              Evaporation: G4StatEvaporation     37 //              Evaporation: G4StatEvaporation
 36 //              MultiFragmentation: G4DummyMF      38 //              MultiFragmentation: G4DummyMF (a dummy one)
 37 //              Fermi Breakup model: G4StatFer     39 //              Fermi Breakup model: G4StatFermiBreakUp
 38 //                                                 40 //
 39 // 03 September 2008 by J. M. Quesada for exte     41 // 03 September 2008 by J. M. Quesada for external choice of inverse 
 40 //    cross section option                         42 //    cross section option
 41 // 06 September 2008 JMQ Also external choices     43 // 06 September 2008 JMQ Also external choices have been added for 
 42 //    superimposed Coulomb barrier (if useSICB <<  44 //    superimposed Coulomb barrier (if useSICBis set true, by default is false)  
 43 // 23 January 2012 by V.Ivanchenko remove obso     45 // 23 January 2012 by V.Ivanchenko remove obsolete data members; added access
 44 //    methods to deexcitation components           46 //    methods to deexcitation components
 45 //                                                 47 //                   
 46                                                    48 
 47 #ifndef G4ExcitationHandler_h                      49 #ifndef G4ExcitationHandler_h
 48 #define G4ExcitationHandler_h 1                    50 #define G4ExcitationHandler_h 1
 49                                                    51 
 50 #include "globals.hh"                              52 #include "globals.hh"
 51 #include "G4Fragment.hh"                           53 #include "G4Fragment.hh"
 52 #include "G4ReactionProductVector.hh"              54 #include "G4ReactionProductVector.hh"
 53 #include "G4IonTable.hh"                           55 #include "G4IonTable.hh"
 54 #include "G4DeexPrecoParameters.hh"            << 
 55 #include "G4NistManager.hh"                    << 
 56                                                    56 
 57 class G4VMultiFragmentation;                       57 class G4VMultiFragmentation;
 58 class G4VFermiBreakUp;                             58 class G4VFermiBreakUp;
 59 class G4VEvaporation;                              59 class G4VEvaporation;
 60 class G4VEvaporationChannel;                       60 class G4VEvaporationChannel;
 61 class G4ParticleTable;                         <<  61 class G4FermiFragmentsPool;
 62                                                    62 
 63 class G4ExcitationHandler                          63 class G4ExcitationHandler 
 64 {                                                  64 {
 65 public:                                            65 public:
 66                                                    66 
 67   G4ExcitationHandler();                           67   G4ExcitationHandler(); 
 68   ~G4ExcitationHandler();                          68   ~G4ExcitationHandler();
 69                                                    69 
 70   G4ReactionProductVector* BreakItUp(const G4F <<  70 private:
                                                   >>  71 
                                                   >>  72   G4ExcitationHandler(const G4ExcitationHandler &right);
                                                   >>  73   const G4ExcitationHandler & operator=(const G4ExcitationHandler &right);
                                                   >>  74   G4bool operator==(const G4ExcitationHandler &right) const;
                                                   >>  75   G4bool operator!=(const G4ExcitationHandler &right) const;
                                                   >>  76   
                                                   >>  77 public:
 71                                                    78 
 72   // short model description used for automati <<  79   G4ReactionProductVector * BreakItUp(const G4Fragment &theInitialState) const;
 73   void ModelDescription(std::ostream& outFile) << 
 74                                                    80 
 75   void Initialise();                           <<  81   void SetEvaporation(G4VEvaporation* ptr);
 76                                                    82 
 77   // user defined sub-models                   << 
 78   // deletion is responsibility of this handle << 
 79   void SetEvaporation(G4VEvaporation* ptr, G4b << 
 80   void SetMultiFragmentation(G4VMultiFragmenta     83   void SetMultiFragmentation(G4VMultiFragmentation* ptr);
                                                   >>  84 
 81   void SetFermiModel(G4VFermiBreakUp* ptr);        85   void SetFermiModel(G4VFermiBreakUp* ptr);
 82   void SetPhotonEvaporation(G4VEvaporationChan << 
 83   void SetDeexChannelsType(G4DeexChannelType v << 
 84                                                    86 
 85   //======== Obsolete methods to be removed == <<  87   void SetPhotonEvaporation(G4VEvaporationChannel* ptr);
 86                                                    88 
 87   // parameters of sub-models                  <<  89   void SetMaxZForFermiBreakUp(G4int aZ);
 88   inline void SetMaxZForFermiBreakUp(G4int aZ) <<  90   void SetMaxAForFermiBreakUp(G4int anA);
 89   inline void SetMaxAForFermiBreakUp(G4int anA <<  91   void SetMaxAandZForFermiBreakUp(G4int anA,G4int aZ);
 90   inline void SetMaxAandZForFermiBreakUp(G4int <<  92   void SetMinEForMultiFrag(G4double anE);
 91   inline void SetMinEForMultiFrag(G4double anE << 
 92                                                    93 
 93   // access methods                                94   // access methods
 94   G4VEvaporation* GetEvaporation();            <<  95   inline G4VEvaporation* GetEvaporation();
 95   G4VMultiFragmentation* GetMultiFragmentation <<  96   inline G4VMultiFragmentation* GetMultiFragmentation();
 96   G4VFermiBreakUp* GetFermiModel();            <<  97   inline G4VFermiBreakUp* GetFermiModel();
 97   G4VEvaporationChannel* GetPhotonEvaporation( <<  98   inline G4VEvaporationChannel* GetPhotonEvaporation();
 98                                                    99 
 99   // for inverse cross section choice             100   // for inverse cross section choice
100   inline void SetOPTxs(G4int opt);                101   inline void SetOPTxs(G4int opt);
101   // for superimposed Coulomb Barrier for inve << 102   // for superimposed Coulomb Barrir for inverse cross sections
102   inline void UseSICB();                          103   inline void UseSICB();
103                                                   104 
104   //========================================== << 
105                                                << 
106   G4ExcitationHandler(const G4ExcitationHandle << 
107   const G4ExcitationHandler & operator         << 
108   =(const G4ExcitationHandler &right) = delete << 
109   G4bool operator==(const G4ExcitationHandler  << 
110   G4bool operator!=(const G4ExcitationHandler  << 
111                                                << 
112 private:                                          105 private:
113                                                   106 
114   void SetParameters();                           107   void SetParameters();
115                                                << 
116   inline void SortSecondaryFragment(G4Fragment << 
117                                                   108   
118   G4VEvaporation* theEvaporation{nullptr};     << 109   G4VEvaporation* theEvaporation;
                                                   >> 110   
119   G4VMultiFragmentation* theMultiFragmentation    111   G4VMultiFragmentation* theMultiFragmentation;
                                                   >> 112   
120   G4VFermiBreakUp* theFermiModel;                 113   G4VFermiBreakUp* theFermiModel;
                                                   >> 114  
121   G4VEvaporationChannel* thePhotonEvaporation;    115   G4VEvaporationChannel* thePhotonEvaporation;
122   G4ParticleTable* thePartTable;               << 
123   G4IonTable* theTableOfIons;                  << 
124   G4NistManager* nist;                         << 
125                                                << 
126   const G4ParticleDefinition* theElectron;     << 
127   const G4ParticleDefinition* theNeutron;      << 
128   const G4ParticleDefinition* theProton;       << 
129   const G4ParticleDefinition* theDeuteron;     << 
130   const G4ParticleDefinition* theTriton;       << 
131   const G4ParticleDefinition* theHe3;          << 
132   const G4ParticleDefinition* theAlpha;        << 
133   const G4ParticleDefinition* theLambda;       << 
134                                                   116 
135   G4int icID{0};                               << 117   G4FermiFragmentsPool* thePool;
136                                                << 
137   G4int maxZForFermiBreakUp{9};                << 
138   G4int maxAForFermiBreakUp{17};               << 
139                                                << 
140   G4int  fVerbose{1};                          << 
141   G4int  fWarnings{0};                         << 
142                                                   118 
                                                   >> 119   G4int maxZForFermiBreakUp;
                                                   >> 120   G4int maxAForFermiBreakUp;
143   G4double minEForMultiFrag;                      121   G4double minEForMultiFrag;
144   G4double minExcitation;                         122   G4double minExcitation;
145   G4double maxExcitation;                      << 
146   G4double fLambdaMass;                        << 
147                                                << 
148   G4bool isInitialised{false};                 << 
149   G4bool isEvapLocal{true};                    << 
150   G4bool isActive{true};                       << 
151                                                   123 
152   // list of fragments to store final result   << 124   G4IonTable* theTableOfIons;
153   std::vector<G4Fragment*> theResults;         << 
154                                                << 
155   // list of fragments to store intermediate r << 
156   std::vector<G4Fragment*> results;            << 
157                                                   125 
158   // list of fragments to apply Evaporation or << 126   G4int OPTxs;
159   std::vector<G4Fragment*> theEvapList;        << 127   G4bool useSICB;
                                                   >> 128   G4bool isEvapLocal;
                                                   >> 129   
160 };                                                130 };
161                                                   131 
162 inline void G4ExcitationHandler::SetMaxZForFer << 132 inline G4VEvaporation* G4ExcitationHandler::GetEvaporation()
163 {                                                 133 {
164   maxZForFermiBreakUp = aZ;                    << 134   return theEvaporation;
165 }                                                 135 }
166                                                   136 
167 inline void G4ExcitationHandler::SetMaxAForFer << 137 inline G4VMultiFragmentation* G4ExcitationHandler::GetMultiFragmentation()
168 {                                                 138 {
169   maxAForFermiBreakUp = anA;                   << 139   return theMultiFragmentation;
170 }                                                 140 }
171                                                   141 
172 inline void G4ExcitationHandler::SetMaxAandZFo << 142 inline G4VFermiBreakUp* G4ExcitationHandler::GetFermiModel()
173 {                                                 143 {
174   SetMaxAForFermiBreakUp(anA);                 << 144   return theFermiModel;
175   SetMaxZForFermiBreakUp(aZ);                  << 
176 }                                                 145 }
177                                                   146 
178 inline void G4ExcitationHandler::SetMinEForMul << 147 inline G4VEvaporationChannel* G4ExcitationHandler::GetPhotonEvaporation()
179 {                                                 148 {
180   minEForMultiFrag = anE;                      << 149   return thePhotonEvaporation;
181 }                                                 150 }
182                                                   151 
183 inline void G4ExcitationHandler::SortSecondary << 152 inline void G4ExcitationHandler::SetOPTxs(G4int opt) 
184 {                                                 153 { 
185   G4int A = frag->GetA_asInt();                << 154   OPTxs = opt; 
                                                   >> 155   SetParameters();
                                                   >> 156 }
186                                                   157 
187   // gamma, e-, p, n                           << 158 inline void G4ExcitationHandler::UseSICB()
188   if(A <= 1 || frag->IsLongLived()) {          << 159 { 
189     theResults.push_back(frag);                << 160   useSICB = true; 
190   } else if(frag->GetExcitationEnergy() < minE << 161   SetParameters();
191     // cold fragments                          << 
192     G4int Z = frag->GetZ_asInt();              << 
193                                                << 
194     // is stable or d, t, He3, He4             << 
195     if(nist->GetIsotopeAbundance(Z, A) > 0.0 | << 
196       theResults.push_back(frag); // stable fr << 
197     } else {                                   << 
198       theEvapList.push_back(frag);             << 
199     }                                          << 
200     // hot fragments are unstable              << 
201   } else {                                     << 
202     theEvapList.push_back(frag);               << 
203   }                                            << 
204 }                                                 162 }
205                                                   163 
206 #endif                                            164 #endif
207                                                   165