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Geant4/processes/electromagnetic/adjoint/include/G4AdjointCSManager.hh

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Differences between /processes/electromagnetic/adjoint/include/G4AdjointCSManager.hh (Version 11.3.0) and /processes/electromagnetic/adjoint/include/G4AdjointCSManager.hh (Version 10.3.p3)


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 26 ////////////////////////////////////////////// <<  26 // $Id: G4AdjointCSManager.hh 93569 2015-10-26 14:53:21Z gcosmo $
 27 //  Class:    G4AdjointCSManager               << 
 28 //  Author:         L. Desorgher               << 
 29 //  Organisation:   SpaceIT GmbH               << 
 30 //                                                 27 //
 31 // Class is responsible for the management of  <<  28 /////////////////////////////////////////////////////////////////////////////////
 32 // matrices, and for the computation of the to <<  29 //      Class:    G4AdjointCSManager
 33 // sections. Total adjoint and forward cross s <<  30 //  Author:         L. Desorgher
 34 // weight of a particle after a tracking step  <<  31 //  Organisation:   SpaceIT GmbH
 35 // reverse reaction. It is also used to sample <<  32 //  Contract: ESA contract 21435/08/NL/AT
 36 // given adjoint cross section matrix.         <<  33 //  Customer:       ESA/ESTEC
                                                   >>  34 /////////////////////////////////////////////////////////////////////////////////
                                                   >>  35 //
                                                   >>  36 // CHANGE HISTORY
                                                   >>  37 // --------------
                                                   >>  38 //      ChangeHistory: 
                                                   >>  39 //    1st April 2007 creation by L. Desorgher     
                                                   >>  40 //    
                                                   >>  41 //    September-October 2009. Implementation of the mode where the adjoint cross sections are scaled such that the total used adjoint cross sections is in 
                                                   >>  42 //    most of the cases equal to the total forward cross section. L.Desorgher
                                                   >>  43 //
                                                   >>  44 //-------------------------------------------------------------
                                                   >>  45 //  Documentation:
                                                   >>  46 //    Is responsible for the management of all adjoint cross sections matrices, and for the computation of the total forward and adjoint cross sections.
                                                   >>  47 //    Total adjoint and forward cross sections are needed to correct the weight of a particle after a tracking step or after the occurence of a reverse reaction. 
                                                   >>  48 //    It is also used to sample an adjoint secondary from a given adjoint cross section matrix.
 37 //                                                 49 //
 38 ////////////////////////////////////////////// << 
 39                                                << 
 40 #ifndef G4AdjointCSManager_h                       50 #ifndef G4AdjointCSManager_h
 41 #define G4AdjointCSManager_h 1                     51 #define G4AdjointCSManager_h 1
 42                                                    52 
 43 #include "globals.hh"                          <<  53 #include"globals.hh"
 44 #include "G4AdjointCSMatrix.hh"                <<  54 #include<vector>
                                                   >>  55 #include"G4AdjointCSMatrix.hh"
 45 #include "G4ThreadLocalSingleton.hh"               56 #include "G4ThreadLocalSingleton.hh"
 46                                                    57 
 47 #include <vector>                              <<  58 class G4VEmAdjointModel;
 48                                                << 
 49 class G4Element;                               << 
 50 class G4Material;                              << 
 51 class G4MaterialCutsCouple;                        59 class G4MaterialCutsCouple;
                                                   >>  60 class G4Material;
 52 class G4ParticleDefinition;                        61 class G4ParticleDefinition;
 53 class G4PhysicsTable;                          <<  62 class G4Element;
 54 class G4VEmProcess;                                63 class G4VEmProcess;
 55 class G4VEmAdjointModel;                       << 
 56 class G4VEnergyLossProcess;                        64 class G4VEnergyLossProcess;
                                                   >>  65 class G4PhysicsTable;
 57                                                    66 
                                                   >>  67 ////////////////////////////////////////////////////////////////////////////////
                                                   >>  68 //
 58 class G4AdjointCSManager                           69 class G4AdjointCSManager
 59 {                                                  70 {
 60   friend class G4ThreadLocalSingleton<G4Adjoin << 
 61                                                << 
 62  public:                                       << 
 63   ~G4AdjointCSManager();                       << 
 64   static G4AdjointCSManager* GetAdjointCSManag << 
 65                                                << 
 66   G4int GetNbProcesses();                      << 
 67                                                << 
 68   // Registration of the different models and  << 
 69                                                << 
 70   std::size_t RegisterEmAdjointModel(G4VEmAdjo << 
 71                                                << 
 72   void RegisterEmProcess(G4VEmProcess* aProces << 
 73                          G4ParticleDefinition* << 
 74                                                << 
 75   void RegisterEnergyLossProcess(G4VEnergyLoss << 
 76                                  G4ParticleDef << 
 77                                                << 
 78   void RegisterAdjointParticle(G4ParticleDefin << 
 79                                                << 
 80   // Building of the CS Matrices and Total For << 
 81   void BuildCrossSectionMatrices();            << 
 82                                                << 
 83   void BuildTotalSigmaTables();                << 
 84                                                << 
 85   // Get TotalCrossSections form Total Lambda  << 
 86   // correction and scaling of the             << 
 87   G4double GetTotalAdjointCS(G4ParticleDefinit << 
 88                              const G4MaterialC << 
 89                                                << 
 90   G4double GetTotalForwardCS(G4ParticleDefinit << 
 91                              const G4MaterialC << 
 92                                                << 
 93   G4double GetAdjointSigma(G4double Ekin_nuc,  << 
 94                            G4bool is_scat_proj << 
 95                            const G4MaterialCut << 
 96                                                << 
 97   void GetEminForTotalCS(G4ParticleDefinition* << 
 98                          const G4MaterialCutsC << 
 99                          G4double& emin_adj, G << 
100                                                << 
101   void GetMaxFwdTotalCS(G4ParticleDefinition*  << 
102                         const G4MaterialCutsCo << 
103                         G4double& e_sigma_max, << 
104                                                << 
105   void GetMaxAdjTotalCS(G4ParticleDefinition*  << 
106                         const G4MaterialCutsCo << 
107                         G4double& e_sigma_max, << 
108                                                    71 
109   // CrossSection Correction 1 or FwdCS/AdjCS  <<  72   friend class G4ThreadLocalSingleton<G4AdjointCSManager>;
110   // forward_CS_is_used and forward_CS_mode    <<  73   
111   G4double GetCrossSectionCorrection(G4Particl <<  74   public:
112                                      G4double  <<  75         ~G4AdjointCSManager();
113                                      const G4M <<  76   static G4AdjointCSManager* GetAdjointCSManager();
114                                      G4bool& f <<  77 
115                                                <<  78   public:
116   // Cross section mode                        <<  79         G4int GetNbProcesses();
117   inline void SetFwdCrossSectionMode(G4bool aB <<  80   
118                                                <<  81   //Registration of the different models and processes
119   // Weight correction                         <<  82   
120   G4double GetContinuousWeightCorrection(G4Par <<  83   size_t RegisterEmAdjointModel(G4VEmAdjointModel*);
121                                          G4dou <<  84   
122                                          G4dou <<  85   void RegisterEmProcess(G4VEmProcess* aProcess, G4ParticleDefinition* aPartDef);
123                                          const <<  86   
124                                          G4dou <<  87   void RegisterEnergyLossProcess(G4VEnergyLossProcess* aProcess, G4ParticleDefinition* aPartDef);
125                                                <<  88   
126   G4double GetPostStepWeightCorrection();      <<  89   void RegisterAdjointParticle(G4ParticleDefinition* aPartDef);
127                                                <<  90   
128   // called by the adjoint model to get the CS <<  91   //Building of the CS Matrices and Total Forward and Adjoint LambdaTables
129   G4double ComputeAdjointCS(G4Material* aMater <<  92   //----------------------------------------------------------------------
130                             G4double PrimEnerg <<  93   
131                             G4bool isScatProjT <<  94   void BuildCrossSectionMatrices();
132                             std::vector<G4doub <<  95   void BuildTotalSigmaTables();
133                                                <<  96   
134   // called by the adjoint model to sample sec <<  97   
135   G4Element* SampleElementFromCSMatrices(G4Mat <<  98   //Get TotalCrossSections form Total Lambda Tables, Needed for Weight correction and scaling of the 
136                                          G4VEm <<  99   //-------------------------------------------------
137                                          G4dou << 100   G4double GetTotalAdjointCS(G4ParticleDefinition* aPartDef, G4double Ekin,
138                                          G4boo << 101                const G4MaterialCutsCouple* aCouple);
139                                                << 102   G4double GetTotalForwardCS(G4ParticleDefinition* aPartDef, G4double Ekin,
140   // Total Adjoint CS is computed at initialis << 103                const G4MaterialCutsCouple* aCouple);
141   G4double ComputeTotalAdjointCS(const G4Mater << 104   
142                                  G4ParticleDef << 105   G4double GetAdjointSigma(G4double Ekin_nuc, size_t index_model,G4bool is_scat_proj_to_proj,
143                                  G4double Prim << 106                const G4MaterialCutsCouple* aCouple);
144                                                << 107   
145   G4ParticleDefinition* GetAdjointParticleEqui << 108   void GetEminForTotalCS(G4ParticleDefinition* aPartDef,
146     G4ParticleDefinition* theFwdPartDef);      << 109                const G4MaterialCutsCouple* aCouple, G4double& emin_adj, G4double& emin_fwd);
147                                                << 110   void GetMaxFwdTotalCS(G4ParticleDefinition* aPartDef,
148   G4ParticleDefinition* GetForwardParticleEqui << 111                const G4MaterialCutsCouple* aCouple, G4double& e_sigma_max, G4double& sigma_max);
149     G4ParticleDefinition* theAdjPartDef);      << 112   void GetMaxAdjTotalCS(G4ParticleDefinition* aPartDef,
150                                                << 113                const G4MaterialCutsCouple* aCouple, G4double& e_sigma_max, G4double& sigma_max);
151   // inline                                    << 114              
152   inline void SetIon(G4ParticleDefinition* adj << 115                                  
153   {                                            << 116   
154     fAdjIon = adjIon;                          << 117   //CrossSection Correction  1 or FwdCS/AdjCS following the G4boolean value of forward_CS_is_used and forward_CS_mode
155     fFwdIon = fwdIon;                          << 118   //-------------------------------------------------
156   }                                            << 119   G4double GetCrossSectionCorrection(G4ParticleDefinition* aPartDef,G4double PreStepEkin,const G4MaterialCutsCouple* aCouple, G4bool& fwd_is_used, G4double& fwd_TotCS);
157                                                << 120   
158  private:                                      << 121   
159   G4AdjointCSManager();                        << 122   //Cross section mode
160                                                << 123   //------------------
161   void DefineCurrentMaterial(const G4MaterialC << 124   inline void SetFwdCrossSectionMode(G4bool aBool){forward_CS_mode=aBool;}
162                                                << 125   
163   void DefineCurrentParticle(const G4ParticleD << 126   
164                                                << 127   //Weight correction 
165   G4double ComputeAdjointCS(G4double aPrimEner << 128   //------------------
166                             G4AdjointCSMatrix* << 129   
167                             G4double Tcut);    << 130   G4double GetContinuousWeightCorrection(G4ParticleDefinition* aPartDef, G4double PreStepEkin,G4double AfterStepEkin,
168                                                << 131                const G4MaterialCutsCouple* aCouple, G4double step_length);
169   std::vector<G4AdjointCSMatrix*> BuildCrossSe << 132   G4double GetPostStepWeightCorrection();
170     G4VEmAdjointModel* aModel, G4int Z, G4int  << 133              
171                                                << 134   
172   std::vector<G4AdjointCSMatrix*> BuildCrossSe << 135   
173     G4VEmAdjointModel* aModel, G4Material* aMa << 136   
174                                                << 137   //Method Called by the adjoint model to get there CS, if not precised otherwise
175   static constexpr G4double fTmin = 0.1 * CLHE << 138   //-------------------------------
176   static constexpr G4double fTmax = 100. * CLH << 139   
177   // fNbins chosen to avoid error              << 140   G4double ComputeAdjointCS(G4Material* aMaterial,
178   // in the CS value close to CS jump. (For ex << 141               G4VEmAdjointModel* aModel, 
179   static constexpr G4int fNbins = 320;         << 142               G4double PrimEnergy,
180                                                << 143               G4double Tcut,
181   static G4ThreadLocal G4AdjointCSManager* fIn << 144               G4bool IsScatProjToProjCase,
182                                                << 145               std::vector<G4double>& 
183   // only one ion can be considered by simulat << 146                    AdjointCS_for_each_element);
184   G4ParticleDefinition* fAdjIon = nullptr;     << 147            
185   G4ParticleDefinition* fFwdIon = nullptr;     << 148   //Method Called by the adjoint model to sample the secondary energy form the CS matrix
186                                                << 149   //--------------------------------------------------------------------------------
187   G4MaterialCutsCouple* fCurrentCouple = nullp << 150   G4Element*  SampleElementFromCSMatrices(G4Material* aMaterial,
188   G4Material* fCurrentMaterial         = nullp << 151                    G4VEmAdjointModel* aModel,
189                                                << 152                    G4double PrimEnergy,
190   // x dim is for G4VAdjointEM*, y dim is for  << 153                     G4double Tcut,
191   std::vector<std::vector<G4AdjointCSMatrix*>> << 154                    G4bool IsScatProjToProjCase);
192     fAdjointCSMatricesForScatProjToProj;       << 155                    
193                                                << 156                    
194   std::vector<std::vector<G4AdjointCSMatrix*>> << 157   //Total Adjoint CS  is computed at initialisation phase 
195                                                << 158   //-----------------------------------------------------                
196   std::vector<G4VEmAdjointModel*> fAdjointMode << 159   G4double ComputeTotalAdjointCS(const G4MaterialCutsCouple* aMatCutCouple,G4ParticleDefinition* aPart,G4double PrimEnergy);
197                                                << 160   
198   std::vector<std::size_t> fIndexOfAdjointEMMo << 161   
199   std::vector<G4bool> fIsScatProjToProj;       << 162   
200   std::vector<std::vector<G4double>> fLastAdjo << 163                 
201                                                << 164   G4ParticleDefinition* GetAdjointParticleEquivalent(G4ParticleDefinition* theFwdPartDef);
202   // total adjoint and total forward cross sec << 165   G4ParticleDefinition* GetForwardParticleEquivalent(G4ParticleDefinition* theAdjPartDef);
203   // and in function of adjoint particle type  << 166   
204   std::vector<G4PhysicsTable*> fTotalFwdSigmaT << 167   //inline
205   std::vector<G4PhysicsTable*> fTotalAdjSigmaT << 168   inline void SetTmin(G4double aVal){Tmin=aVal;}
206                                                << 169   inline void SetTmax(G4double aVal){Tmax=aVal;}
207   // Sigma table for each G4VAdjointEMModel    << 170   inline void SetNbins(G4int aInt){nbins=aInt;}
208   std::vector<G4PhysicsTable*> fSigmaTableForA << 171   inline void SetIon(G4ParticleDefinition* adjIon,
209   std::vector<G4PhysicsTable*> fSigmaTableForA << 172                G4ParticleDefinition* fwdIon) {theAdjIon=adjIon; theFwdIon =fwdIon;}
210                                                << 173   
211   std::vector<std::vector<G4double>> fEminForF << 174   
212   std::vector<std::vector<G4double>> fEminForA << 175   private:
213   std::vector<std::vector<G4double>> fEkinofFw << 176         static G4ThreadLocal  G4AdjointCSManager* theInstance;
214   std::vector<std::vector<G4double>> fEkinofAd << 177     std::vector< std::vector<G4AdjointCSMatrix*> > theAdjointCSMatricesForScatProjToProj; //x dim is for G4VAdjointEM*, y dim is for elements
215                                                << 178   std::vector< std::vector<G4AdjointCSMatrix*> > theAdjointCSMatricesForProdToProj;
216   // list of forward G4VEmProcess and of G4VEn << 179   std::vector< G4VEmAdjointModel*> listOfAdjointEMModel;
217   // adjoint particle                          << 180     
218   std::vector<std::vector<G4VEmProcess*>*> fFo << 181   std::vector<G4AdjointCSMatrix*> 
219   std::vector<std::vector<G4VEnergyLossProcess << 182         BuildCrossSectionsMatricesForAGivenModelAndElement(G4VEmAdjointModel* aModel,
220                                                << 183                        G4int Z,
221   // list of adjoint particles considered      << 184                        G4int A,
222   std::vector<G4ParticleDefinition*> fAdjointP << 185                        G4int nbin_pro_decade);
223                                                << 186   
224   G4double fMassRatio              = 1.;  // i << 187   std::vector<G4AdjointCSMatrix*> 
225   G4double fLastCSCorrectionFactor = 1.;       << 188         BuildCrossSectionsMatricesForAGivenModelAndMaterial(G4VEmAdjointModel* aModel,
226                                                << 189                        G4Material* aMaterial,
227   G4ParticleDefinition* fCurrentParticleDef =  << 190                        G4int nbin_pro_decade);
228   std::size_t fCurrentParticleIndex = 0;       << 191   
229   std::size_t fCurrentMatIndex      = 0;       << 192   
                                                   >> 193   G4Material* lastMaterial;
                                                   >> 194   G4double    lastPrimaryEnergy;
                                                   >> 195   G4double    lastTcut; 
                                                   >> 196   std::vector< size_t> listOfIndexOfAdjointEMModelInAction;
                                                   >> 197   std::vector< G4bool> listOfIsScatProjToProjCase;
                                                   >> 198   std::vector< std::vector<G4double> > lastAdjointCSVsModelsAndElements;
                                                   >> 199   G4bool CrossSectionMatrixesAreBuilt;
                                                   >> 200   size_t  currentParticleIndex;
                                                   >> 201   G4ParticleDefinition* currentParticleDef;
                                                   >> 202   
                                                   >> 203   //total adjoint and total forward cross section table in function of material and in function of adjoint particle type
                                                   >> 204   //--------------------------------------------------------------------------------------------------------------------
                                                   >> 205   std::vector<G4PhysicsTable*>        theTotalForwardSigmaTableVector;
                                                   >> 206   std::vector<G4PhysicsTable*>        theTotalAdjointSigmaTableVector;
                                                   >> 207   std::vector< std::vector<G4double> >  EminForFwdSigmaTables;  
                                                   >> 208   std::vector< std::vector<G4double> >  EminForAdjSigmaTables;  
                                                   >> 209   std::vector< std::vector<G4double> >  EkinofFwdSigmaMax;  
                                                   >> 210   std::vector< std::vector<G4double> >  EkinofAdjSigmaMax;
                                                   >> 211   G4bool TotalSigmaTableAreBuilt;
                                                   >> 212   
                                                   >> 213   //Sigma tavle for each G4VAdjointEMModel 
                                                   >> 214   std::vector<G4PhysicsTable*>        listSigmaTableForAdjointModelScatProjToProj;
                                                   >> 215   std::vector<G4PhysicsTable*>        listSigmaTableForAdjointModelProdToProj;
                                                   >> 216      
                                                   >> 217   //list of forward G4VEMLossProcess and of G4VEMProcess for the different adjoint particle
                                                   >> 218   //--------------------------------------------------------------
                                                   >> 219   std::vector< std::vector<G4VEmProcess*>* >    listOfForwardEmProcess;
                                                   >> 220   std::vector< std::vector<G4VEnergyLossProcess*>* >  listOfForwardEnergyLossProcess;
                                                   >> 221   
                                                   >> 222   //list of adjoint particles considered
                                                   >> 223   //--------------------------------------------------------------
                                                   >> 224   std::vector< G4ParticleDefinition*> theListOfAdjointParticlesInAction;
                                                   >> 225     
                                                   >> 226   G4double Tmin,Tmax;
                                                   >> 227   G4int nbins;
                                                   >> 228   
                                                   >> 229   //Current material
                                                   >> 230   //----------------
                                                   >> 231   G4MaterialCutsCouple* currentCouple;  
                                                   >> 232   G4Material* currentMaterial;
                                                   >> 233   size_t  currentMatIndex;
                                                   >> 234   
                                                   >> 235   G4int verbose;  
                                                   >> 236   
                                                   >> 237   //Two CS mode are possible :forward_CS_mode = false the Adjoint CS are used as it is implying a AlongStep Weight Correction.
                                                   >> 238   //         :forward_CS_mode = true the Adjoint CS are scaled to have the total adjoint CS eual to the fwd one implying a PostStep Weight Correction.
                                                   >> 239   //               For energy range  where the total FwdCS or the total adjoint CS are null, the scaling is not possble and
                                                   >> 240   //               forward_CS_is_used is set to false   
                                                   >> 241   //--------------------------------------------
                                                   >> 242   G4bool forward_CS_is_used;
                                                   >> 243   G4bool forward_CS_mode;
                                                   >> 244   
                                                   >> 245   //Adj and Fwd CS values for re-use 
                                                   >> 246   //------------------------
                                                   >> 247   
                                                   >> 248   G4double PreadjCS,PostadjCS;
                                                   >> 249   G4double PrefwdCS,PostfwdCS;
                                                   >> 250   G4double LastEkinForCS;
                                                   >> 251   G4double LastCSCorrectionFactor;
                                                   >> 252   G4ParticleDefinition* lastPartDefForCS;
                                                   >> 253   
                                                   >> 254   //Ion
                                                   >> 255   //----------------
                                                   >> 256   G4ParticleDefinition* theAdjIon; //at the moment Only one ion can be considered by simulation
                                                   >> 257   G4ParticleDefinition* theFwdIon;
                                                   >> 258   G4double massRatio;
                                                   >> 259   
                                                   >> 260   private:
                                                   >> 261         G4AdjointCSManager();  
                                                   >> 262   void DefineCurrentMaterial(const G4MaterialCutsCouple* couple);
                                                   >> 263   void DefineCurrentParticle(const G4ParticleDefinition* aPartDef);
                                                   >> 264   G4double ComputeAdjointCS(G4double aPrimEnergy, G4AdjointCSMatrix* anAdjointCSMatrix, G4double Tcut);
                                                   >> 265   size_t eindex;
230                                                   266 
231   G4bool fCSMatricesBuilt = false;             << 
232   G4bool fSigmaTableBuilt = false;             << 
233   G4bool fForwardCSUsed   = true;              << 
234   G4bool fForwardCSMode   = true;              << 
235   // Two CS mode are possible:                 << 
236   // 1) fForwardCSMode = false, the Adjoint CS << 
237   //    an AlongStep Weight Correction.        << 
238   // 2) fForwardCSMode = true, the Adjoint CS  << 
239   //    adjoint CS equal to the fwd one implyi << 
240   // For energies where the total Fwd CS or th << 
241   // the scaling is not possible and fForwardC << 
242 };                                                267 };
243 #endif                                            268 #endif
244                                                   269