Geant4 10.7.0
Toolkit for the simulation of the passage of particles through matter
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G4IntraNucleiCascader.hh
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1//
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25//
26//
27// 20100315 M. Kelsey -- Remove "using" directory and unnecessary #includes.
28// 20100413 M. Kelsey -- Pass G4CollisionOutput by ref to ::collide()
29// 20100517 M. Kelsey -- Inherit from common base class, make other colliders
30// simple data members
31// 20100617 M. Kelsey -- Make G4NucleiModel a data member, instead of
32// creating and deleting on every cycle.
33// 20100623 M. Kelsey -- Undo change from 0617. G4NucleiModel not reusable.
34// 20100714 M. Kelsey -- Switch to new G4CascadeColliderBase class
35// 20100716 M. Kelsey -- Eliminate inter_case; use base-class functionality,
36// add function to compute recoil nuclear mass on the fly
37// 20100720 M. Kelsey -- Make EPCollider pointer member
38// 20100722 M. Kelsey -- Move cascade output buffers to .hh file
39// 20100728 M. Kelsey -- Move G4NucleiModel here, as pointer member
40// 20100907 M. Kelsey -- Add new "makeResidualFragment" to create
41// G4InuclNuclei at current stage of cascade
42// 20100909 M. Kelsey -- Drop makeResidualFragment(), getResidualMass() and
43// local G4InuclNuclei object, replace with new RecoilMaker.
44// Move goodCase() to RecoilMaker.
45// 20100916 M. Kelsey -- Add functions to handle trapped particles, and to
46// decay hyperons.
47// 20110224 M. Kelsey -- Add ::rescatter() function which takes a list of
48// pre-existing secondaries as input. Split ::collide() into
49// separate utility functions. Move cascade parameters to static
50// data members. Add setVerboseLevel().
51// 20110303 M. Kelsey -- Add more cascade functions to support rescattering
52// 20110304 M. Kelsey -- Modify rescatter to use original Propagate() input
53// 20110316 M. Kelsey -- Add function to do G4KineticTrack conversion, decay
54// rescattering resonances in situ.
55// 20110324 M. Kelsey -- Add list of nucleon hit locations for rescatter().
56// 20110721 M. Kelsey -- Drop decayTrappedParticle(G4KineticTrack*).
57// 20110722 M. Kelsey -- Deprecate "output_particles" list in favor of using
58// output directly (will help with pre-cascade issues).
59// 20110729 M. Kelsey -- Replace convertKineticToCascade() to reduce churn.
60// 20110801 M. Kelsey -- Add local target buffers for rescattering, to avoid
61// memory leak.
62// 20110919 M. Kelsey -- Add optional final-state clustering
63// 20130304 M. Kelsey -- Add new G4CascadeHistory for cacasde structure reporting
64// 20130620 Address Coverity complaint about missing copy actions
65// 20141204 M. Kelsey -- Add function to test for non-interacting particles
66
67#ifndef G4INTRA_NUCLEI_CASCADER_HH
68#define G4INTRA_NUCLEI_CASCADER_HH
69
71#include "G4CollisionOutput.hh"
72#include "G4ThreeVector.hh"
73#include <vector>
74
81class G4InuclParticle;
82class G4KineticTrack;
84class G4NucleiModel;
85class G4V3DNucleus;
86
87
89public:
91 virtual ~G4IntraNucleiCascader();
92
93 void collide(G4InuclParticle* bullet, G4InuclParticle* target,
94 G4CollisionOutput& globalOutput);
95
96 // For use with Propagate to preload a set of secondaries
97 void rescatter(G4InuclParticle* bullet, G4KineticTrackVector* theSecondaries,
98 G4V3DNucleus* theNucleus, G4CollisionOutput& globalOutput);
99
100 void setVerboseLevel(G4int verbose=0);
101
102private:
103 static const G4int itry_max; // Maximum number of attempts
104 static const G4int reflection_cut; // Maximum number of reflections
105 static const G4double small_ekin; // Tolerance for round-off zero
106 static const G4double quasielast_cut; // To recover elastic scatters
107
108protected:
110
111 void newCascade(G4int itry); // Clear buffers for next attempt
112 void setupCascade(); // Fill cascade using nuclear model
113 void generateCascade(); // Track secondaries through nucleus
114 G4bool finishCascade(); // Clean up output, check consistency
115
116 void finalize(G4int itry, // Transfer final state for return
117 G4InuclParticle* bullet, G4InuclParticle* target,
118 G4CollisionOutput& globalOutput);
119
121
122 // Functions to transfer input high-energy cascade for propagation
123 void preloadCascade(G4V3DNucleus* theNucleus,
124 G4KineticTrackVector* theSecondaries);
125 void copyWoundedNucleus(G4V3DNucleus* theNucleus);
126 void copySecondaries(G4KineticTrackVector* theSecondaries);
127 void processSecondary(const G4KineticTrack* aSecondary);
128 void releaseSecondary(const G4KineticTrack* aSecondary);
129
130 // Functions to handle, e.g., low-energy hyperons stuck inside potential
131 void processTrappedParticle(const G4CascadParticle& trapped);
132 void decayTrappedParticle(const G4CascadParticle& trapped);
133
134 // Test if particle is able to interact in nucleus
135 G4bool particleCanInteract(const G4CascadParticle& cpart) const;
136
137private:
138 G4NucleiModel* model;
139 G4ElementaryParticleCollider* theElementaryParticleCollider;
140 G4CascadeRecoilMaker* theRecoilMaker;
141 G4CascadeCoalescence* theClusterMaker;
142 G4CascadeHistory* theCascadeHistory;
143
144 // Buffers and parameters for cascade attempts
145 G4InuclNuclei* tnuclei; // Target nucleus (must be non-zero)
146 G4InuclNuclei* bnuclei; // Non-zero if ion-ion collision
147 G4InuclElementaryParticle* bparticle; // Non-zero if hadron-ion collision
148
149 G4double minimum_recoil_A; // Require fragment with this mass
150 G4double coulombBarrier;
151
152 // Buffers for creation (and reuse) of rescattering targets
153 G4InuclNuclei* nucleusTarget;
154 G4InuclElementaryParticle* protonTarget;
155
156 // Buffers for collecting result of cascade (reset on each iteration)
157 G4CollisionOutput output;
158 std::vector<G4CascadParticle> cascad_particles;
159 std::vector<G4CascadParticle> new_cascad_particles;
160 G4ExitonConfiguration theExitonConfiguration;
161
162 std::vector<G4ThreeVector> hitNucleons; // Nucleons hit before rescatter
163
164private:
165 // Copying of modules is forbidden
168};
169
170#endif /* G4INTRA_NUCLEI_CASCADER_HH */
double G4double
Definition: G4Types.hh:83
bool G4bool
Definition: G4Types.hh:86
int G4int
Definition: G4Types.hh:85
void processTrappedParticle(const G4CascadParticle &trapped)
void releaseSecondary(const G4KineticTrack *aSecondary)
void copyWoundedNucleus(G4V3DNucleus *theNucleus)
G4bool particleCanInteract(const G4CascadParticle &cpart) const
void rescatter(G4InuclParticle *bullet, G4KineticTrackVector *theSecondaries, G4V3DNucleus *theNucleus, G4CollisionOutput &globalOutput)
void setVerboseLevel(G4int verbose=0)
void decayTrappedParticle(const G4CascadParticle &trapped)
void collide(G4InuclParticle *bullet, G4InuclParticle *target, G4CollisionOutput &globalOutput)
G4bool initialize(G4InuclParticle *bullet, G4InuclParticle *target)
G4InuclParticle * createTarget(G4V3DNucleus *theNucleus)
void preloadCascade(G4V3DNucleus *theNucleus, G4KineticTrackVector *theSecondaries)
void copySecondaries(G4KineticTrackVector *theSecondaries)
void processSecondary(const G4KineticTrack *aSecondary)
void finalize(G4int itry, G4InuclParticle *bullet, G4InuclParticle *target, G4CollisionOutput &globalOutput)