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Geant4/processes/electromagnetic/xrays/include/G4Cerenkov.hh

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Differences between /processes/electromagnetic/xrays/include/G4Cerenkov.hh (Version 11.3.0) and /processes/electromagnetic/xrays/include/G4Cerenkov.hh (Version 10.3.p1)


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 25 //                                                 25 //
                                                   >>  26 //
                                                   >>  27 // $Id: G4Cerenkov.hh 98002 2016-06-30 13:03:36Z gcosmo $
                                                   >>  28 //
                                                   >>  29 // 
 26 //////////////////////////////////////////////     30 ////////////////////////////////////////////////////////////////////////
 27 // Cerenkov Radiation Class Definition             31 // Cerenkov Radiation Class Definition
 28 //////////////////////////////////////////////     32 ////////////////////////////////////////////////////////////////////////
 29 //                                                 33 //
 30 // File:        G4Cerenkov.hh                      34 // File:        G4Cerenkov.hh
 31 // Description: Discrete Process - Generation      35 // Description: Discrete Process - Generation of Cerenkov Photons
 32 // Version:     2.0                                36 // Version:     2.0
 33 // Created:     1996-02-21                         37 // Created:     1996-02-21
 34 // Author:      Juliet Armstrong                   38 // Author:      Juliet Armstrong
 35 // Updated:     2007-09-30 change inheritance      39 // Updated:     2007-09-30 change inheritance to G4VDiscreteProcess
 36 //              2005-07-28 add G4ProcessType t     40 //              2005-07-28 add G4ProcessType to constructor
 37 //              1999-10-29 add method and clas     41 //              1999-10-29 add method and class descriptors
 38 //              1997-04-09 by Peter Gumplinger     42 //              1997-04-09 by Peter Gumplinger
 39 //              > G4MaterialPropertiesTable; n     43 //              > G4MaterialPropertiesTable; new physics/tracking scheme
                                                   >>  44 // mail:        gum@triumf.ca
 40 //                                                 45 //
 41 //////////////////////////////////////////////     46 ////////////////////////////////////////////////////////////////////////
 42                                                    47 
 43 #ifndef G4Cerenkov_h                               48 #ifndef G4Cerenkov_h
 44 #define G4Cerenkov_h 1                             49 #define G4Cerenkov_h 1
 45                                                    50 
                                                   >>  51 /////////////
                                                   >>  52 // Includes
                                                   >>  53 /////////////
                                                   >>  54 
                                                   >>  55 #include <CLHEP/Units/SystemOfUnits.h>
                                                   >>  56 
 46 #include "globals.hh"                              57 #include "globals.hh"
                                                   >>  58 #include "templates.hh"
                                                   >>  59 #include "Randomize.hh"
                                                   >>  60 #include "G4ThreeVector.hh"
                                                   >>  61 #include "G4ParticleMomentum.hh"
                                                   >>  62 #include "G4Step.hh"
                                                   >>  63 #include "G4VProcess.hh"
                                                   >>  64 #include "G4OpticalPhoton.hh"
 47 #include "G4DynamicParticle.hh"                    65 #include "G4DynamicParticle.hh"
 48 #include "G4ForceCondition.hh"                 <<  66 #include "G4Material.hh"
 49 #include "G4GPILSelection.hh"                  <<  67 #include "G4PhysicsTable.hh"
 50 #include "G4MaterialPropertyVector.hh"             68 #include "G4MaterialPropertyVector.hh"
 51 #include "G4VProcess.hh"                       <<  69 #include "G4MaterialPropertiesTable.hh"
                                                   >>  70 #include "G4PhysicsOrderedFreeVector.hh"
 52                                                    71 
 53 class G4Material;                              <<  72 // Class Description:
 54 class G4ParticleDefinition;                    <<  73 // Discrete Process -- Generation of Cerenkov Photons.
 55 class G4PhysicsTable;                          <<  74 // Class inherits publicly from G4VDiscreteProcess.
 56 class G4Step;                                  <<  75 // Class Description - End:
 57 class G4Track;                                 <<  76 
 58 class G4VParticleChange;                       <<  77 /////////////////////
                                                   >>  78 // Class Definition
                                                   >>  79 /////////////////////
 59                                                    80 
 60 class G4Cerenkov : public G4VProcess               81 class G4Cerenkov : public G4VProcess
 61 {                                                  82 {
 62  public:                                       <<  83 
 63   explicit G4Cerenkov(const G4String& processN <<  84 public:
 64                       G4ProcessType type       <<  85 
                                                   >>  86   ////////////////////////////////
                                                   >>  87   // Constructors and Destructor
                                                   >>  88   ////////////////////////////////
                                                   >>  89 
                                                   >>  90   explicit G4Cerenkov(const G4String& processName = "Cerenkov", 
                                                   >>  91              G4ProcessType type = fElectromagnetic);
 65   ~G4Cerenkov();                                   92   ~G4Cerenkov();
 66                                                    93 
 67   explicit G4Cerenkov(const G4Cerenkov& right) <<  94   explicit G4Cerenkov(const G4Cerenkov &right);
                                                   >>  95 
                                                   >>  96 private:
 68                                                    97 
 69   G4Cerenkov& operator=(const G4Cerenkov& righ <<  98   //////////////
                                                   >>  99   // Operators
                                                   >> 100   //////////////
                                                   >> 101 
                                                   >> 102   G4Cerenkov& operator=(const G4Cerenkov &right) = delete;
                                                   >> 103 
                                                   >> 104 public:
                                                   >> 105 
                                                   >> 106   ////////////
                                                   >> 107   // Methods
                                                   >> 108   ////////////
 70                                                   109 
 71   G4bool IsApplicable(const G4ParticleDefiniti    110   G4bool IsApplicable(const G4ParticleDefinition& aParticleType) override;
 72   // Returns true -> 'is applicable', for all     111   // Returns true -> 'is applicable', for all charged particles
 73   // except short-lived particles.                112   // except short-lived particles.
 74                                                   113 
 75   void BuildPhysicsTable(const G4ParticleDefin    114   void BuildPhysicsTable(const G4ParticleDefinition& aParticleType) override;
 76   // Build table at a right time                  115   // Build table at a right time
 77                                                   116 
 78   void PreparePhysicsTable(const G4ParticleDef << 117   G4double GetMeanFreePath(const G4Track& aTrack, 
 79   void Initialise();                           << 118                            G4double, G4ForceCondition* );
 80                                                << 
 81   G4double GetMeanFreePath(const G4Track& aTra << 
 82   // Returns the discrete step limit and sets     119   // Returns the discrete step limit and sets the 'StronglyForced'
 83   // condition for the DoIt to be invoked at e    120   // condition for the DoIt to be invoked at every step.
 84                                                   121 
 85   G4double PostStepGetPhysicalInteractionLengt << 122   G4double PostStepGetPhysicalInteractionLength(const G4Track& aTrack,
 86                                                << 123                                                 G4double ,
                                                   >> 124                                                 G4ForceCondition* ) override;
 87   // Returns the discrete step limit and sets     125   // Returns the discrete step limit and sets the 'StronglyForced'
 88   // condition for the DoIt to be invoked at e    126   // condition for the DoIt to be invoked at every step.
 89                                                   127 
 90   G4VParticleChange* PostStepDoIt(const G4Trac << 128   G4VParticleChange* PostStepDoIt(const G4Track& aTrack, 
 91                                   const G4Step << 129                                   const G4Step&  aStep) override;
 92   // This is the method implementing the Ceren    130   // This is the method implementing the Cerenkov process.
 93                                                   131 
 94   //  no operation in  AtRestDoIt and  AlongSt    132   //  no operation in  AtRestDoIt and  AlongStepDoIt
 95   virtual G4double AlongStepGetPhysicalInterac << 133   virtual G4double AlongStepGetPhysicalInteractionLength(const G4Track&,
 96     const G4Track&, G4double, G4double, G4doub << 134                                                          G4double  ,
 97   {                                            << 135                                                          G4double  ,
 98     return -1.0;                               << 136                                                          G4double& ,
 99   };                                           << 137                                                          G4GPILSelection*
100                                                << 138                                                 ) override { return -1.0; };
101   virtual G4double AtRestGetPhysicalInteractio << 139 
102     const G4Track&, G4ForceCondition*) overrid << 140   virtual G4double AtRestGetPhysicalInteractionLength(const G4Track& ,
103   {                                            << 141                                                       G4ForceCondition*
104     return -1.0;                               << 142                                                  ) override { return -1.0; };
105   };                                           << 
106                                                   143 
107   //  no operation in  AtRestDoIt and  AlongSt    144   //  no operation in  AtRestDoIt and  AlongStepDoIt
108   virtual G4VParticleChange* AtRestDoIt(const  << 145   virtual G4VParticleChange* AtRestDoIt(const G4Track& , const G4Step& ) 
109   {                                            << 146                              override {return nullptr;};
110     return nullptr;                            << 147 
111   };                                           << 148   virtual G4VParticleChange* AlongStepDoIt(const G4Track& , const G4Step&) 
112                                                << 149                              override {return nullptr;};
113   virtual G4VParticleChange* AlongStepDoIt(con << 
114                                            con << 
115   {                                            << 
116     return nullptr;                            << 
117   };                                           << 
118                                                   150 
119   void SetTrackSecondariesFirst(const G4bool s    151   void SetTrackSecondariesFirst(const G4bool state);
120   // If set, the primary particle tracking is  << 152   // If set, the primary particle tracking is interrupted and any 
121   // produced Cerenkov photons are tracked nex << 153   // produced Cerenkov photons are tracked next. When all have 
122   // been tracked, the tracking of the primary    154   // been tracked, the tracking of the primary resumes.
123                                                   155 
124   G4bool GetTrackSecondariesFirst() const;        156   G4bool GetTrackSecondariesFirst() const;
125   // Returns the boolean flag for tracking sec    157   // Returns the boolean flag for tracking secondaries first.
126                                                   158 
127   void SetMaxBetaChangePerStep(const G4double     159   void SetMaxBetaChangePerStep(const G4double d);
128   // Set the maximum allowed change in beta =  << 160   // Set the maximum allowed change in beta = v/c in % (perCent)
                                                   >> 161   // per step.
129                                                   162 
130   G4double GetMaxBetaChangePerStep() const;       163   G4double GetMaxBetaChangePerStep() const;
131   // Returns the maximum allowed change in bet    164   // Returns the maximum allowed change in beta = v/c in % (perCent)
132                                                   165 
133   void SetMaxNumPhotonsPerStep(const G4int Num    166   void SetMaxNumPhotonsPerStep(const G4int NumPhotons);
134   // Set the maximum number of Cerenkov photon << 167   // Set the maximum number of Cerenkov photons allowed to be 
135   // a tracking step. This is an average ONLY; << 168   // generated during a tracking step. This is an average ONLY; 
136   // around this average. If invoked, the maxi << 169   // the actual number will vary around this average. If invoked, 
137   // of the size set. If not called, the step  << 170   // the maximum photon stack will roughly be of the size set.
                                                   >> 171   // If not called, the step is not limited by the number of 
138   // photons generated.                           172   // photons generated.
139                                                   173 
140   G4int GetMaxNumPhotonsPerStep() const;          174   G4int GetMaxNumPhotonsPerStep() const;
141   // Returns the maximum number of Cerenkov ph    175   // Returns the maximum number of Cerenkov photons allowed to be
142   // generated during a tracking step.            176   // generated during a tracking step.
143                                                   177 
144   void SetStackPhotons(const G4bool);          << 178   void SetStackPhotons(const G4bool );
145   // Call by the user to set the flag for stac    179   // Call by the user to set the flag for stacking the scint. photons
146                                                   180 
147   G4bool GetStackPhotons() const;                 181   G4bool GetStackPhotons() const;
148   // Return the boolean for whether or not the    182   // Return the boolean for whether or not the scint. photons are stacked
149                                                   183 
150   G4int GetNumPhotons() const;                    184   G4int GetNumPhotons() const;
151   // Returns the current number of scint. phot    185   // Returns the current number of scint. photons (after PostStepDoIt)
152                                                   186 
153   G4PhysicsTable* GetPhysicsTable() const;        187   G4PhysicsTable* GetPhysicsTable() const;
154   // Returns the address of the physics table.    188   // Returns the address of the physics table.
155                                                   189 
156   void DumpPhysicsTable() const;                  190   void DumpPhysicsTable() const;
157   // Prints the physics table.                    191   // Prints the physics table.
158                                                   192 
159   G4double GetAverageNumberOfPhotons(const G4d << 193 private:
160                                      const G4M << 194 
                                                   >> 195   void BuildThePhysicsTable();
                                                   >> 196 
                                                   >> 197   /////////////////////
                                                   >> 198   // Helper Functions
                                                   >> 199   /////////////////////
                                                   >> 200 
                                                   >> 201   G4double GetAverageNumberOfPhotons(const G4double charge,
                                                   >> 202                                      const G4double beta,
                                                   >> 203                                      const G4Material *aMaterial,
161                                      G4Materia    204                                      G4MaterialPropertyVector* Rindex) const;
162                                                   205 
163   void DumpInfo() const override {ProcessDescr << 206   ///////////////////////
164   void ProcessDescription(std::ostream& out) c << 207   // Class Data Members
                                                   >> 208   ///////////////////////
165                                                   209 
166   void SetVerboseLevel(G4int);                 << 210 protected:
167   // sets verbosity                            << 
168                                                   211 
169  protected:                                    << 
170   G4PhysicsTable* thePhysicsTable;                212   G4PhysicsTable* thePhysicsTable;
                                                   >> 213   //  A Physics Table can be either a cross-sections table or
                                                   >> 214   //  an energy table (or can be used for other specific
                                                   >> 215   //  purposes).
171                                                   216 
172  private:                                      << 217 private:
173   G4double fMaxBetaChange;                     << 
174                                                << 
175   G4int fMaxPhotons;                           << 
176   G4int fNumPhotons;                           << 
177                                                   218 
178   G4bool fStackingFlag;                        << 
179   G4bool fTrackSecondariesFirst;                  219   G4bool fTrackSecondariesFirst;
                                                   >> 220   G4double fMaxBetaChange;
                                                   >> 221   G4int  fMaxPhotons;
180                                                   222 
181   G4int secID = -1;  // creator modelID        << 223   G4bool fStackingFlag;
182                                                   224 
                                                   >> 225   G4int fNumPhotons;
183 };                                                226 };
184                                                   227 
185 inline G4bool G4Cerenkov::GetTrackSecondariesF << 228   ////////////////////
                                                   >> 229   // Inline methods
                                                   >> 230   ////////////////////
                                                   >> 231 
                                                   >> 232 inline
                                                   >> 233 G4bool G4Cerenkov::GetTrackSecondariesFirst() const
186 {                                                 234 {
187   return fTrackSecondariesFirst;                  235   return fTrackSecondariesFirst;
188 }                                                 236 }
189                                                   237 
190 inline G4double G4Cerenkov::GetMaxBetaChangePe << 238 inline
                                                   >> 239 G4double G4Cerenkov::GetMaxBetaChangePerStep() const
191 {                                                 240 {
192   return fMaxBetaChange;                          241   return fMaxBetaChange;
193 }                                                 242 }
194                                                   243 
195 inline G4int G4Cerenkov::GetMaxNumPhotonsPerSt << 244 inline
                                                   >> 245 G4int G4Cerenkov::GetMaxNumPhotonsPerStep() const
                                                   >> 246 {
                                                   >> 247   return fMaxPhotons;
                                                   >> 248 }
196                                                   249 
197 inline G4bool G4Cerenkov::GetStackPhotons() co << 250 inline
                                                   >> 251 void G4Cerenkov::SetStackPhotons(const G4bool stackingFlag)
                                                   >> 252 {
                                                   >> 253         fStackingFlag = stackingFlag;
                                                   >> 254 }
198                                                   255 
199 inline G4int G4Cerenkov::GetNumPhotons() const << 256 inline
                                                   >> 257 G4bool G4Cerenkov::GetStackPhotons() const
                                                   >> 258 {
                                                   >> 259         return fStackingFlag;
                                                   >> 260 }
                                                   >> 261 
                                                   >> 262 inline
                                                   >> 263 G4int G4Cerenkov::GetNumPhotons() const
                                                   >> 264 {
                                                   >> 265         return fNumPhotons;
                                                   >> 266 }
                                                   >> 267 
                                                   >> 268 inline
                                                   >> 269 void G4Cerenkov::DumpPhysicsTable() const
                                                   >> 270 {
                                                   >> 271   G4int PhysicsTableSize = thePhysicsTable->entries();
                                                   >> 272   G4PhysicsOrderedFreeVector *v;
                                                   >> 273 
                                                   >> 274   for (G4int i = 0 ; i < PhysicsTableSize ; i++ ) {
                                                   >> 275       v = (G4PhysicsOrderedFreeVector*)(*thePhysicsTable)[i];
                                                   >> 276       v->DumpValues();
                                                   >> 277   }
                                                   >> 278 }
200                                                   279 
201 inline G4PhysicsTable* G4Cerenkov::GetPhysicsT << 280 inline
                                                   >> 281 G4PhysicsTable* G4Cerenkov::GetPhysicsTable() const
202 {                                                 282 {
203   return thePhysicsTable;                         283   return thePhysicsTable;
204 }                                                 284 }
205                                                   285 
206 #endif /* G4Cerenkov_h */                         286 #endif /* G4Cerenkov_h */
207                                                   287