Geant4-11
G4INCLStandardPropagationModel.hh
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25//
26// INCL++ intra-nuclear cascade model
27// Alain Boudard, CEA-Saclay, France
28// Joseph Cugnon, University of Liege, Belgium
29// Jean-Christophe David, CEA-Saclay, France
30// Pekka Kaitaniemi, CEA-Saclay, France, and Helsinki Institute of Physics, Finland
31// Sylvie Leray, CEA-Saclay, France
32// Davide Mancusi, CEA-Saclay, France
33//
34#define INCLXX_IN_GEANT4_MODE 1
35
36#include "globals.hh"
37
38/*
39 * StandardPropagationModel.hh
40 *
41 * \date 4 June 2009
42 * \author Pekka Kaitaniemi
43 */
44
45#ifndef G4INCLStandardPropagationModel_hh
46#define G4INCLStandardPropagationModel_hh 1
47
48#include "G4INCLNucleus.hh"
49#include "G4INCLIPropagationModel.hh"
50#include "G4INCLIAvatar.hh"
51#include "G4INCLConfigEnums.hh"
52
53#include <iterator>
54
55namespace G4INCL {
56
69 class StandardPropagationModel: public G4INCL::IPropagationModel {
70 public:
71 StandardPropagationModel(LocalEnergyType localEnergyType, LocalEnergyType localEnergyDeltaType, const G4double hTime = 0.0);
72 virtual ~StandardPropagationModel();
73
74 G4double getCurrentTime();
78 void setNucleus(G4INCL::Nucleus *nucleus);
79
83 G4INCL::Nucleus* getNucleus();
84
85 G4double shoot(ParticleSpecies const &projectileSpecies, const G4double kineticEnergy, const G4double impactParameter, const G4double phi);
86 G4double shootParticle(ParticleType const t, const G4double kineticEnergy, const G4double impactParameter, const G4double phi);
87 G4double shootComposite(ParticleSpecies const &s, const G4double kineticEnergy, const G4double impactParameter, const G4double phi);
88
92 void setStoppingTime(G4double);
93
97 G4double getStoppingTime();
98
102 void registerAvatar(G4INCL::IAvatar *anAvatar);
103
109 IAvatar *generateBinaryCollisionAvatar(Particle * const p1, Particle * const p2);
110
117 G4double getReflectionTime(G4INCL::Particle const * const aParticle);
118
122 G4double getTime(G4INCL::Particle const * const particleA,
123 G4INCL::Particle const * const particleB, G4double *minDistOfApproach) const;
124
138 void generateUpdatedCollisions(const ParticleList &updatedParticles, const ParticleList &particles);
139
147 void generateCollisions(const ParticleList &particles);
148
161 void generateCollisions(const ParticleList &particles, const ParticleList &except);
162
170 void generateDecays(const ParticleList &particles);
171
175 void updateAvatars(const ParticleList &particles);
176
178 void generateAllAvatars();
179
180#ifdef INCL_REGENERATE_AVATARS
185 void generateAllAvatarsExceptUpdated(FinalState const * const fs);
186#endif
187
191 G4INCL::IAvatar* propagate(FinalState const * const fs);
192
193 private:
194 G4INCL::Nucleus *theNucleus;
195 G4double maximumTime;
196 G4double currentTime;
197 G4double hadronizationTime;
198 G4bool firstAvatar;
199 LocalEnergyType theLocalEnergyType, theLocalEnergyDeltaType;
200 Particle backupParticle1, backupParticle2;
201 };
202
203}
204
205
206#endif
s
static constexpr double s
Definition: G4SIunits.hh:154
G4double
double G4double
Definition: G4Types.hh:83
G4bool
bool G4bool
Definition: G4Types.hh:86
G4INCL::StandardPropagationModel::getReflectionTime
G4double getReflectionTime(G4INCL::Particle const *const aParticle)
Get the reflection time.
Definition: G4INCLStandardPropagationModel.cc:341
G4INCL::StandardPropagationModel::propagate
G4INCL::IAvatar * propagate(FinalState const *const fs)
Definition: G4INCLStandardPropagationModel.cc:491
G4INCL::StandardPropagationModel::getTime
G4double getTime(G4INCL::Particle const *const particleA, G4INCL::Particle const *const particleB, G4double *minDistOfApproach) const
Definition: G4INCLStandardPropagationModel.cc:358
G4INCL::StandardPropagationModel::generateCollisions
void generateCollisions(const ParticleList &particles)
Generate and register collisions among particles in a list, except between those in another list.
Definition: G4INCLStandardPropagationModel.cc:397
G4INCL::StandardPropagationModel::StandardPropagationModel
StandardPropagationModel(LocalEnergyType localEnergyType, LocalEnergyType localEnergyDeltaType, const G4double hTime=0.0)
Definition: G4INCLStandardPropagationModel.cc:65
G4INCL::StandardPropagationModel::registerAvatar
void registerAvatar(G4INCL::IAvatar *anAvatar)
Definition: G4INCLStandardPropagationModel.cc:260
G4INCL::StandardPropagationModel::updateAvatars
void updateAvatars(const ParticleList &particles)
Definition: G4INCLStandardPropagationModel.cc:427
G4INCL::StandardPropagationModel::generateAllAvatars
void generateAllAvatars()
(Re)Generate all possible avatars.
Definition: G4INCLStandardPropagationModel.cc:437
G4INCL::StandardPropagationModel::shoot
G4double shoot(ParticleSpecies const &projectileSpecies, const G4double kineticEnergy, const G4double impactParameter, const G4double phi)
Definition: G4INCLStandardPropagationModel.cc:84
G4INCL::StandardPropagationModel::generateBinaryCollisionAvatar
IAvatar * generateBinaryCollisionAvatar(Particle *const p1, Particle *const p2)
Generate a two-particle avatar.
Definition: G4INCLStandardPropagationModel.cc:265
G4INCL::StandardPropagationModel::generateUpdatedCollisions
void generateUpdatedCollisions(const ParticleList &updatedParticles, const ParticleList &particles)
Generate and register collisions between a list of updated particles and all the other particles.
Definition: G4INCLStandardPropagationModel.cc:378
G4INCL::StandardPropagationModel::shootComposite
G4double shootComposite(ParticleSpecies const &s, const G4double kineticEnergy, const G4double impactParameter, const G4double phi)
Definition: G4INCLStandardPropagationModel.cc:168
G4INCL::StandardPropagationModel::generateDecays
void generateDecays(const ParticleList &particles)
Generate decays for particles that can decay.
Definition: G4INCLStandardPropagationModel.cc:465
G4INCL::StandardPropagationModel::shootParticle
G4double shootParticle(ParticleType const t, const G4double kineticEnergy, const G4double impactParameter, const G4double phi)
Definition: G4INCLStandardPropagationModel.cc:91
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