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Geant4/processes/electromagnetic/xrays/include/G4VXTRenergyLoss.hh

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Differences between /processes/electromagnetic/xrays/include/G4VXTRenergyLoss.hh (Version 11.3.0) and /processes/electromagnetic/xrays/include/G4VXTRenergyLoss.hh (Version 4.0.p1)


  1 //                                                  1 
  2 // *******************************************    
  3 // * License and Disclaimer                       
  4 // *                                              
  5 // * The  Geant4 software  is  copyright of th    
  6 // * the Geant4 Collaboration.  It is provided    
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  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 //////////////////////////////////////////////    
 27 //                                                
 28 // base class for 'fast' parametrisation model    
 29 // created in some G4Envelope. Angular distrib    
 30 // method                                         
 31 //                                                
 32 // History:                                       
 33 // 06.10.05  V. Grichine first step to discret    
 34 // 15.01.02  V. Grichine first version            
 35 // 28.07.05, P.Gumplinger add G4ProcessType to    
 36 // 28.09.07, V.Ivanchenko general cleanup with    
 37 // 19.09.21, V. Grichine, set/get functions fo    
 38                                                   
 39 #ifndef G4VXTRenergyLoss_h                        
 40 #define G4VXTRenergyLoss_h 1                      
 41                                                   
 42 #include "globals.hh"                             
 43 #include "G4Gamma.hh"                             
 44 #include "G4LogicalVolume.hh"                     
 45 #include "G4Material.hh"                          
 46 #include "G4ParticleChange.hh"                    
 47 #include "G4PhysicsTable.hh"                      
 48 #include "G4Step.hh"                              
 49 #include "G4Track.hh"                             
 50 #include "G4VDiscreteProcess.hh"                  
 51                                                   
 52 class G4SandiaTable;                              
 53 class G4VParticleChange;                          
 54 class G4PhysicsFreeVector;                        
 55 class G4PhysicsLinearVector;                      
 56 class G4PhysicsLogVector;                         
 57                                                   
 58 class G4VXTRenergyLoss : public G4VDiscretePro    
 59 {                                                 
 60  public:                                          
 61   explicit G4VXTRenergyLoss(G4LogicalVolume* a    
 62                             G4Material*, G4dou    
 63                             const G4String& pr    
 64                             G4ProcessType type    
 65   virtual ~G4VXTRenergyLoss();                    
 66                                                   
 67   virtual void ProcessDescription(std::ostream    
 68   virtual void DumpInfo() const override { Pro    
 69                                                   
 70   G4VXTRenergyLoss(G4VXTRenergyLoss&) = delete    
 71   G4VXTRenergyLoss& operator=(const G4VXTRener    
 72                                                   
 73   // Virtual methods to be implemented in inhe    
 74   virtual G4double GetStackFactor(G4double ene    
 75                                   G4double var    
 76                                                   
 77   virtual G4bool IsApplicable(const G4Particle    
 78                                                   
 79   virtual G4VParticleChange* PostStepDoIt(cons    
 80                                           cons    
 81                                                   
 82   virtual G4double GetMeanFreePath(const G4Tra    
 83                                    G4double pr    
 84                                    G4ForceCond    
 85                                                   
 86   virtual void BuildPhysicsTable(const G4Parti    
 87   void BuildEnergyTable();                        
 88   void BuildAngleForEnergyBank();                 
 89                                                   
 90   void BuildTable(){};                            
 91   void BuildAngleTable();                         
 92   void BuildGlobalAngleTable();                   
 93                                                   
 94   G4complex OneInterfaceXTRdEdx(G4double energ    
 95                                 G4double varAn    
 96                                                   
 97   G4double SpectralAngleXTRdEdx(G4double varAn    
 98                                                   
 99   virtual G4double SpectralXTRdEdx(G4double en    
100                                                   
101   G4double AngleSpectralXTRdEdx(G4double energ    
102                                                   
103   G4double AngleXTRdEdx(G4double varAngle);       
104                                                   
105   G4double OneBoundaryXTRNdensity(G4double ene    
106                                   G4double var    
107                                                   
108   // for photon energy distribution tables        
109   G4double XTRNSpectralAngleDensity(G4double v    
110   G4double XTRNSpectralDensity(G4double energy    
111                                                   
112   // for photon angle distribution tables         
113   G4double XTRNAngleSpectralDensity(G4double e    
114   G4double XTRNAngleDensity(G4double varAngle)    
115                                                   
116   void GetNumberOfPhotons();                      
117                                                   
118   // Auxiliary functions for plate/gas materia    
119   G4double GetPlateFormationZone(G4double, G4d    
120   G4complex GetPlateComplexFZ(G4double, G4doub    
121   void ComputePlatePhotoAbsCof();                 
122   G4double GetPlateLinearPhotoAbs(G4double);      
123   void GetPlateZmuProduct();                      
124   G4double GetPlateZmuProduct(G4double, G4doub    
125                                                   
126   G4double GetGasFormationZone(G4double, G4dou    
127   G4complex GetGasComplexFZ(G4double, G4double    
128   void ComputeGasPhotoAbsCof();                   
129   G4double GetGasLinearPhotoAbs(G4double);        
130   void GetGasZmuProduct();                        
131   G4double GetGasZmuProduct(G4double, G4double    
132                                                   
133   G4double GetPlateCompton(G4double);             
134   G4double GetGasCompton(G4double);               
135   G4double GetComptonPerAtom(G4double, G4doubl    
136                                                   
137   G4double GetXTRrandomEnergy(G4double scaledT    
138   G4double GetXTRenergy(G4int iPlace, G4double    
139                                                   
140   G4double GetRandomAngle(G4double energyXTR,     
141   G4double GetAngleXTR(G4int iTR, G4double pos    
142                                                   
143   // set/get methods for class fields             
144                                                   
145   void     SetGamma(G4double gamma) { fGamma =    
146   G4double GetGamma() { return fGamma; };         
147   void     SetEnergy(G4double energy) { fEnerg    
148   G4double GetEnergy() { return fEnergy; };       
149   void     SetVarAngle(G4double varAngle) { fV    
150   G4double GetVarAngle() { return fVarAngle; }    
151   void   SetCompton(G4bool pC) { fCompton = pC    
152   G4bool GetCompton() { return fCompton; };       
153                                                   
154   G4int GetKrange(){ return fKrange;};            
155   void SetKrange( G4int kk ){ fKrange = kk;};     
156                                                   
157                                                   
158   void     SetAlphaGas(G4double ag){ fAlphaGas    
159   G4double GetAlphaGas() { return fAlphaGas; }    
160   void     SetAlphaPlate(G4double ap){ fAlphaP    
161   G4double GetAlphaPlate() { return fAlphaPlat    
162                                                   
163   void     SetTheMinEnergyTR(G4double minetr){    
164   G4double GetTheMinEnergyTR() { return fTheMi    
165   void     SetTheMaxEnergyTR(G4double maxetr){    
166   G4double GetTheMaxEnergyTR() { return fTheMa    
167                                                   
168   void     SetMinEnergyTR(G4double minetr){ fM    
169   G4double GetMinEnergyTR() { return fMinEnerg    
170   void     SetMaxEnergyTR(G4double maxetr){ fM    
171   G4double GetMaxEnergyTR() { return fMaxEnerg    
172                                                   
173   void     SetTheMinAngle(G4double minang){ fT    
174   G4double GetTheMinAngle() { return fTheMinAn    
175   void     SetTheMaxAngle(G4double maxang){ fT    
176   G4double GetTheMaxAngle() { return fTheMaxAn    
177                                                   
178   void     SetMinThetaTR(G4double minatr){ fMi    
179   G4double GetMinThetaTR() { return fMinThetaT    
180   void     SetMaxThetaTR(G4double maxatr){ fMa    
181   G4double GetMaxThetaTR() { return fMaxThetaT    
182                                                   
183   // modes of XTR angle distribution              
184                                                   
185   void   SetFastAngle(G4bool fatr){ fFastAngle    
186   G4bool GetFastAngle() { return fFastAngle; }    
187   void   SetAngleRadDistr(G4bool fatr){ fAngle    
188   G4bool GetAngleRadDistr() { return fAngleRad    
189                                                   
190                                                   
191                                                   
192                                                   
193   G4PhysicsLogVector* GetProtonVector() { retu    
194   G4int GetTotBin() { return fTotBin; };          
195   G4PhysicsFreeVector* GetAngleVector(G4double    
196                                                   
197  protected:                                       
198   //   min TR energy                              
199   G4double fTheMinEnergyTR;                       
200   //   max TR energy                              
201   G4double fTheMaxEnergyTR;                       
202   G4double fTheMinAngle;  //  min theta of TR     
203   G4double fTheMaxAngle;  //  1.e-4;  //  max     
204                                                   
205   // static const members                         
206                                                   
207   // min Tkin of proton in tables                 
208   static constexpr G4double fMinProtonTkin = 1    
209   // max Tkin of proton in tables                 
210   static constexpr G4double fMaxProtonTkin = 1    
211   // physical constants for plasma energy         
212   static constexpr G4double fPlasmaCof =          
213     4. * CLHEP::pi * CLHEP::fine_structure_con    
214     CLHEP::hbarc / CLHEP::electron_mass_c2;       
215   static constexpr G4double fCofTR = CLHEP::fi    
216                                                   
217   G4int fTotBin;  //  number of bins in log-ga    
218   G4int fBinTR;   //  number of bins in TR ene    
219   G4int fKrange;                                  
220   G4ParticleDefinition* fPtrGamma;  // pointer    
221                                                   
222   G4double* fGammaCutInKineticEnergy;  // TR p    
223   G4LogicalVolume* fEnvelope;                     
224   G4PhysicsTable* fAngleDistrTable;               
225   G4PhysicsTable* fEnergyDistrTable;              
226   G4PhysicsTable* fAngleForEnergyTable;           
227   G4PhysicsLogVector* fProtonEnergyVector;        
228   G4PhysicsLogVector* fXTREnergyVector;           
229   G4SandiaTable* fPlatePhotoAbsCof;               
230   G4SandiaTable* fGasPhotoAbsCof;                 
231                                                   
232   G4ParticleChange fParticleChange;               
233   std::vector<G4PhysicsTable*> fAngleBank;        
234                                                   
235   G4double fGammaTkinCut;  // Tkin cut of TR p    
236   G4double fMinEnergyTR;   //  min TR energy i    
237   G4double fMaxEnergyTR;   //  max TR energy i    
238   G4double fMinThetaTR, fMaxThetaTR;    //  mi    
239   G4double fTotalDist;                            
240   G4double fPlateThick;                           
241   G4double fGasThick;                             
242   G4double fAlphaPlate;                           
243   G4double fAlphaGas;                             
244   G4double fGamma;     // current Lorentz fact    
245   G4double fEnergy;    // energy and              
246   G4double fVarAngle;  // angle squared!          
247   G4double fLambda;                               
248   G4double fSigma1;                               
249   G4double fSigma2;  // plasma energy Sq of ma    
250                                                   
251   G4int fMatIndex1;                               
252   G4int fMatIndex2;                               
253   G4int fPlateNumber;                             
254                                                   
255   G4bool fExitFlux;                               
256   G4bool fFastAngle, fAngleRadDistr;              
257   G4bool fCompton;                                
258                                                   
259   G4int secID = -1;  // creator modelID           
260 };                                                
261                                                   
262 #endif                                            
263