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G4BinaryCascade.hh
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29 // GEANT4 Class file
30 //
31 //
32 // File name: G4BinaryCascade.hh
33 //
34 // Authors: Alessandro Brunengo (Alessandro.Brunengo@ge.infn.it)
35 // Hans-Peter Wellisch
36 // Gunter Folger
37 //
38 // Creation date: 8 June 2000
39 //
40 // -----------------------------------------------------------------------------
41 
42 #ifndef G4BinaryCascade_hh
43 #define G4BinaryCascade_hh
44 
47 #include "G4KineticTrackVector.hh"
48 #include "G4ListOfCollisions.hh"
49 #include "G4V3DNucleus.hh"
50 #include "G4Fancy3DNucleus.hh"
51 #include "G4Fragment.hh"
52 #include "G4VFieldPropagation.hh"
53 #include "G4VScatterer.hh"
54 #include "G4LorentzVector.hh"
55 #include "G4LorentzRotation.hh"
56 
57 #include "G4BCDecay.hh"
58 #include "G4BCLateParticle.hh"
59 #include "G4BCAction.hh"
60 
61 #include "G4DecayKineticTracks.hh"
62 
63 class G4CollisionManager;
64 
65 class G4Track;
66 class G4KineticTrack;
67 class G43DNucleus;
68 class G4Scatterer;
69 
71 {
72 public:
73 
75 
76  virtual ~G4BinaryCascade();
77 
79  G4Nucleus& theNucleus);
81  G4V3DNucleus *);
82 
83  virtual void ModelDescription(std::ostream&) const;
84  virtual void PropagateModelDescription(std::ostream&) const;
85 
86 private:
87 
89  const G4BinaryCascade& operator=(G4BinaryCascade & right);
90  G4int operator==(G4BinaryCascade& right) {return (this == &right);}
91  G4int operator!=(G4BinaryCascade& right) {return (this != &right);}
92 
93 // Implementation
94  void PrintWelcomeMessage();
95  void BuildTargetList();
96  G4bool BuildLateParticleCollisions(G4KineticTrackVector * secondaries);
97  void FindCollisions(G4KineticTrackVector *);
98  void FindDecayCollision(G4KineticTrack *);
99  void FindLateParticleCollision(G4KineticTrack *);
100 
101 // void PropagateInit();
102 // void Cascade();
103  G4ReactionProductVector * DeExcite();
104  G4ReactionProductVector * DecayVoidNucleus();
105  G4ReactionProductVector * ProductsAddFinalState (G4ReactionProductVector * products, G4KineticTrackVector & finalState );
106  G4ReactionProductVector * ProductsAddPrecompound(G4ReactionProductVector * products ,G4ReactionProductVector * preco );
107 
108  G4bool ApplyCollision(G4CollisionInitialState *);
109  G4bool Capture(G4bool verbose=false);
110  G4bool Absorb();
111  G4bool CheckPauliPrinciple(G4KineticTrackVector *);
112  G4double GetExcitationEnergy();
113  void CorrectFinalPandE();
114 
115  G4double CorrectShortlivedPrimaryForFermi(
116  G4KineticTrack* primary,G4KineticTrackVector target_collection);
117  G4bool CorrectShortlivedFinalsForFermi(
118  G4KineticTrackVector * products, G4double initial_Efermi);
119 
120  void UpdateTracksAndCollisions(G4KineticTrackVector * oldSecondaries,
121  G4KineticTrackVector * oldTarget,
122  G4KineticTrackVector * newSecondaries);
123  G4bool DoTimeStep(G4double timeStep);
124  G4KineticTrackVector* CorrectBarionsOnBoundary(G4KineticTrackVector *in,
125  G4KineticTrackVector *out);
126  G4Fragment * FindFragments();
127  void StepParticlesOut();
128 
129  G4LorentzVector GetFinal4Momentum();
130  G4LorentzVector GetFinalNucleusMomentum();
131 
133  G4V3DNucleus *);
134  G4double GetIonMass(G4int Z, G4int A);
135 
136  G4int GetTotalCharge(std::vector<G4KineticTrack *> & aV)
137  {
138  G4int result = 0;
139  std::vector<G4KineticTrack *>::iterator i;
140  for(i = aV.begin(); i != aV.end(); ++i)
141  {
142  result += G4lrint((*i)->GetDefinition()->GetPDGCharge());
143  }
144  return result;
145  }
146  G4int GetTotalBaryonCharge(std::vector<G4KineticTrack *> & aV)
147  {
148  G4int result = 0;
149  std::vector<G4KineticTrack *>::iterator i;
150  for(i = aV.begin(); i != aV.end(); ++i)
151  {
152  if ( (*i)->GetDefinition()->GetBaryonNumber() != 0 ){
153  result += G4lrint((*i)->GetDefinition()->GetPDGCharge());
154  }
155  }
156  return result;
157  }
158 
159  G4ReactionProductVector * HighEnergyModelFSProducts(G4ReactionProductVector *,
160  G4KineticTrackVector * secondaries); // add secondaries of string model to G4RPV
161  G4ReactionProductVector * FillVoidNucleusProducts(G4ReactionProductVector * ); // nucleus destroyed, add secondaries to G4RPV
162 // utility methods
163 
164  G4ThreeVector GetSpherePoint(G4double r, const G4LorentzVector & momentumdirection);
165 
166  void ClearAndDestroy(G4KineticTrackVector * ktv);
167  void ClearAndDestroy(G4ReactionProductVector * rpv);
168 
169 // for debugging purpose
170 
171  G4ReactionProductVector * ProductsAddFakeGamma(G4ReactionProductVector * products );
172 
173  void PrintKTVector(G4KineticTrackVector * ktv, std::string comment=std::string(""));
174  void PrintKTVector(G4KineticTrack* kt, std::string comment=std::string(""));
175  void DebugApplyCollisionFail(G4CollisionInitialState * collision,
176  G4KineticTrackVector * products);
177  void DebugApplyCollision(G4CollisionInitialState * collision,
178  G4KineticTrackVector *products);
179  G4bool DebugFinalEpConservation(const G4HadProjectile & aTrack, G4ReactionProductVector* products);
180  G4bool DebugEpConservation(const G4String where);
181  G4bool CheckChargeAndBaryonNumber(G4String where);
182 
183 private:
184  G4KineticTrackVector theProjectileList; // replaced by theProjectile4Momentum
185  G4KineticTrackVector theTargetList; // list of nucleons in Nucleus
186  G4KineticTrackVector theSecondaryList; // particles being followed
187  G4KineticTrackVector theCapturedList; // captured particles
188  G4KineticTrackVector theFinalState; // particles for final state
189 
190 
191  G4ExcitationHandler * theExcitationHandler;
192  G4CollisionManager * theCollisionMgr;
193 
194  G4Scatterer * theH1Scatterer;
195 
196  std::vector<G4BCAction *> theImR;
197  G4BCDecay * theDecay;
198  G4BCLateParticle * theLateParticle;
199  G4VFieldPropagation * thePropagator;
200  G4DecayKineticTracks decayKTV;
201 
202  G4double theCurrentTime;
203  G4double theBCminP;
204  G4double theCutOnP;
205  G4double theCutOnPAbsorb;
206  G4LorentzVector theInitial4Mom; // suppress?
207  G4LorentzVector theProjectile4Momentum;
208  G4int currentA, currentZ, lateA, lateZ;
209  G4int initialZ, initialA,projectileA,projectileZ;
210  G4double massInNucleus, initial_nuclear_mass;
211  G4double currentInitialEnergy; // for debugging
212  G4LorentzRotation precompoundLorentzboost;
213  G4double theOuterRadius;
214  G4bool thePrimaryEscape;
215  const G4ParticleDefinition * thePrimaryType;
216  G4ThreeVector theMomentumTransfer;
217 
218 
219 
220 };
221 
222 #endif
223 
224 
225 
226 
G4double G4ParticleHPJENDLHEData::G4double result
virtual void PropagateModelDescription(std::ostream &) const
int G4int
Definition: G4Types.hh:78
G4HadFinalState * ApplyYourself(const G4HadProjectile &aTrack, G4Nucleus &theNucleus)
std::vector< G4ReactionProduct * > G4ReactionProductVector
virtual ~G4BinaryCascade()
double A(double temperature)
bool G4bool
Definition: G4Types.hh:79
virtual G4ReactionProductVector * Propagate(G4KineticTrackVector *, G4V3DNucleus *)
G4BinaryCascade(G4VPreCompoundModel *ptr=0)
virtual void ModelDescription(std::ostream &) const
int G4lrint(double ad)
Definition: templates.hh:163
double G4double
Definition: G4Types.hh:76