Geant4 10.7.0
Toolkit for the simulation of the passage of particles through matter
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G4CRCoalescence.hh
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1//
2// ********************************************************************
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24// ********************************************************************
25//
26//
27//---------------------------------------------------------------------------
28//
29// ClassName: G4CRCoalescence ("CR" stands for "Cosmic Ray")
30//
31// Author: 2020 Alberto Ribon , based on code written by
32// Diego Mauricio Gomez Coral for the GAPS Collaboration
33//
34// Description: This class can be optionally used in the method:
35//
36// G4TheoFSGenerator::ApplyYourself
37//
38// to coalesce pairs of proton-neutron and antiproton-antineutron
39// into deuterons and antideuterons, respectively, from the list
40// of secondaries produced by a string model.
41// This class can be useful in particular for Cosmic Ray (CR)
42// applications.
43// By default, this class is not used.
44// However, it can be enabled via the UI command:
45//
46// /process/had/enableCRCoalescence true
47//
48// It is assumed that the candidate proton-neutron and
49// antiproton-antideuteron pairs originate from the same
50// spatial position, so the condition for coalescence takes
51// into account only their closeness in momentum space.
52//
53// This class is based entirely on code written by
54// Diego Mauricio Gomez Coral for the GAPS Collaboration.
55// The main application of this work is for cosmic ray physics.
56//
57// Notes:
58// - In its current version, coalescence can occur only for
59// proton projectile (because the coalescence parameters
60// for deuteron and antideuteron are set to non-null values
61// only for the case of proton projectile).
62// - This class is not meant be used for secondaries produces
63// by intranuclear cascade models - such as BERT, BIC and
64// INCL - which should have already a coalescence phase.
65//
66// Modified:
67//
68//----------------------------------------------------------------------------
69//
70#ifndef G4CRCoalescence_h
71#define G4CRCoalescence_h 1
72
74#include "G4HadProjectile.hh"
76
78 public:
79
80 explicit G4CRCoalescence();
81 ~G4CRCoalescence() override;
82 G4CRCoalescence( const G4CRCoalescence &right ) = delete;
83 const G4CRCoalescence & operator=( const G4CRCoalescence &right ) = delete;
84 G4bool operator==( const G4CRCoalescence &right ) const = delete;
85 G4bool operator!=( const G4CRCoalescence &right ) const = delete;
86
87 // Set the parameter used in the coalescence condition
88 void SetP0Coalescence( const G4HadProjectile &thePrimary, G4String /* model */ );
89
90 // Main method: form deuterons and antideuterons by coalescence of, respectively,
91 // proton-neutron and antiproton-antineutron pairs with close momenta
93
94 private:
95
96 // Utility methods
97 void PushDeuteron( const G4ThreeVector &p1, const G4ThreeVector &p2, G4int charge,
99 G4int FindPartner( const G4ThreeVector &p1, G4double m1,
100 std::vector< std::pair< G4int, G4ThreeVector > > &neutron,
101 G4double m2, G4int charge );
102 G4bool Coalescence( const G4ThreeVector &p1, G4double m1,
103 const G4ThreeVector &p2, G4double m2, G4int charge );
104 G4bool Coalescence( G4double p1x, G4double p1y, G4double p1z, G4double m1,
105 G4double p2x, G4double p2y, G4double p2z, G4double m2, G4int charge );
106 G4double GetPcm( const G4ThreeVector& p1, G4double m1,
107 const G4ThreeVector& p2, G4double m2 );
108 G4double GetPcm( G4double p1x, G4double p1y, G4double p1z, G4double m1,
109 G4double p2x, G4double p2y, G4double p2z, G4double m2 );
110 G4double GetS( G4double p1x, G4double p1y, G4double p1z, G4double m1,
111 G4double p2x, G4double p2y, G4double p2z, G4double m2 );
112
113 G4double fP0_d; // Coalescence parameter for deuterons
114 G4double fP0_dbar; // Coalescence parameter for antideuterons
115};
116
117#endif
std::vector< G4ReactionProduct * > G4ReactionProductVector
double G4double
Definition: G4Types.hh:83
bool G4bool
Definition: G4Types.hh:86
int G4int
Definition: G4Types.hh:85
G4bool operator==(const G4CRCoalescence &right) const =delete
void GenerateDeuterons(G4ReactionProductVector *result)
~G4CRCoalescence() override
G4bool operator!=(const G4CRCoalescence &right) const =delete
G4CRCoalescence(const G4CRCoalescence &right)=delete
const G4CRCoalescence & operator=(const G4CRCoalescence &right)=delete
void SetP0Coalescence(const G4HadProjectile &thePrimary, G4String)