Geant4 10.7.0
Toolkit for the simulation of the passage of particles through matter
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G4CascadeCoalescence.hh
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1//
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25//
26// G4CascadeCoalescence: Factory model for final-state interactions to
27// produce light ions from cascade nucleons. The algorithm implemented
28// here is descirbed in Section 2.3 of the LAQGSM documentation (p. 11-12)
29// [http://lib-www.lanl.gov/la-pubs/00818645.pdf].
30//
31// 20110917 Michael Kelsey
32// 20110920 M. Kelsey -- Use environment variables to set momentum cuts for tuning,
33// replace polymorphic argument lists with use of "ClusterCandidate"
34// 20140116 M. Kelsey -- Move statics to const data members to avoid weird
35// interactions with MT.
36// 20151016 M. Kelsey -- Replace forward declare of G4InuclElemPart w/include.
37// 20170406 M. Kelsey -- Remove clusterHash and triedClusters registry.
38
39#ifndef G4CASCADE_COALESCENCE_HH
40#define G4CASCADE_COALESCENCE_HH
41
42#include "globals.hh"
44#include "G4InuclNuclei.hh"
45#include "G4LorentzVector.hh"
46#include <vector>
47#include <set>
48
50
51
53public:
54 G4CascadeCoalescence(G4int verbose=0);
55 virtual ~G4CascadeCoalescence();
56
57 // Final state particle list is modified directly
58 void FindClusters(G4CollisionOutput& finalState);
59
60 void setVerboseLevel(G4int verbose) { verboseLevel = verbose; }
61
62private:
63 typedef std::vector<size_t> ClusterCandidate; // Indices of constituents
64
65 G4int verboseLevel; // Control diagnostic messages
66
67 std::vector<ClusterCandidate> allClusters; // List of candidates found
68 std::set<size_t> usedNucleons; // List of converted nucleons
69
70 G4CollisionOutput* thisFinalState; // Pointers to current event
71 const std::vector<G4InuclElementaryParticle>* thisHadrons;
72
73 ClusterCandidate thisCluster; // Reusable buffer for attempts
74 G4InuclNuclei thisLightIon; // Reusable construction buffer
75
76 const G4double dpMaxDoublet; // Relative momenta for clusters
77 const G4double dpMaxTriplet;
78 const G4double dpMaxAlpha;
79
80 // Processing stages -- search, construct, cleanup
81 void selectCandidates();
82 void createNuclei();
83 void removeNucleons();
84
85 // Do combinatorics of given nucleons to make candidates
86 void tryClusters(size_t idx1, size_t idx2);
87 void tryClusters(size_t idx1, size_t idx2, size_t idx3);
88 void tryClusters(size_t idx1, size_t idx2, size_t idx3, size_t idx4);
89
90 // Create cluster candidate with listed indices
91 void fillCluster(size_t idx1, size_t idx2);
92 void fillCluster(size_t idx1, size_t idx2, size_t idx3);
93 void fillCluster(size_t idx1, size_t idx2, size_t idx3, size_t idx4);
94
95 // Check if indexed nucleon is already in a cluster
96 bool nucleonUsed(size_t idx) const {
97 return usedNucleons.find(idx) != usedNucleons.end();
98 }
99
100 // Evaluate conditions for cluster to form light ion
101 bool allNucleons(const ClusterCandidate& clus) const;
102 bool goodCluster(const ClusterCandidate& clus) const;
103 G4int clusterType(const ClusterCandidate& aCluster) const;
104
105 // Extract hadron from final state list
106 const G4InuclElementaryParticle& getHadron(size_t idx) const {
107 return (*thisHadrons)[idx];
108 }
109
110 // Convert candidate nucleon set into output nucleus (true == success)
111 bool makeLightIon(const ClusterCandidate& aCluster);
112
113 // Kinematics for cluster evaluations
114 G4LorentzVector getClusterMomentum(const ClusterCandidate& aCluster) const;
115 mutable G4LorentzVector pCluster; // Reusable buffer to reduce churn
116
117 G4double maxDeltaP(const ClusterCandidate& aCluster) const;
118
119 // Report cluster arguments for validation
120 void reportArgs(const G4String& name, const ClusterCandidate& clus) const;
121 void reportResult(const G4String& name, const G4InuclNuclei& nucl) const;
122};
123
124#endif /* G4CASCADE_COALESCENCE_HH */
double G4double
Definition: G4Types.hh:83
int G4int
Definition: G4Types.hh:85
void FindClusters(G4CollisionOutput &finalState)
void setVerboseLevel(G4int verbose)