Geant4 11.2.2
Toolkit for the simulation of the passage of particles through matter
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G4CascadeDeexcitation.cc
Go to the documentation of this file.
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25//
26//
27// Takes an arbitrary excited or unphysical nuclear state and produces
28// a final state with evaporated particles and (possibly) a stable nucleus.
29//
30// 20100926 M. Kelsey -- Move to new G4VCascadeDeexcitation base class.
31// 20110302 M. Kelsey -- Don't do "final" conservation check (not needed)
32// 20130621 Replace collide() interface with deExcite() using G4Fragment
33// 20130622 Inherit from G4CascadeDeexciteBase
34
36#include "globals.hh"
37#include "G4BigBanger.hh"
40#include "G4InuclNuclei.hh"
41#include "G4InuclParticle.hh"
42
43
44// Constructor and destructor
45
47 : G4CascadeDeexciteBase("G4CascadeDeexcitation"),
48 theBigBanger(new G4BigBanger),
49 theNonEquilibriumEvaporator(new G4NonEquilibriumEvaporator),
50 theEquilibriumEvaporator(new G4EquilibriumEvaporator) {}
51
53 delete theBigBanger;
54 delete theNonEquilibriumEvaporator;
55 delete theEquilibriumEvaporator;
56}
57
60 theBigBanger->setVerboseLevel(verbose);
61 theNonEquilibriumEvaporator->setVerboseLevel(verbose);
62 theEquilibriumEvaporator->setVerboseLevel(verbose);
63}
64
65
66// Convert generic G4Fragment into Bertini particle
67
69 G4CollisionOutput& globalOutput) {
70 if (verboseLevel) {
71 G4cout << " >>> G4CascadeDeexcitation::deExcite" << G4endl;
72 }
73
74 if (verboseLevel > 1) G4cout << fragment << G4endl;
75
76 // Check if fragment should be broken up
77 if (explosion(fragment)) {
78 if (verboseLevel > 1) G4cout << " big bang after cascade " << G4endl;
79
80 // Add result of explosion directly to output and exit
81 theBigBanger->deExcite(fragment, globalOutput);
82 return;
83 }
84
85 // Fragment is unstable nucleus
86 tempOutput.reset();
87 theNonEquilibriumEvaporator->deExcite(fragment, tempOutput);
88
89 if (verboseLevel > 1) {
90 G4cout << " After NonEquilibriumEvaporator " << G4endl;
91 tempOutput.printCollisionOutput(G4cout);
92 }
93
94 // Copy evaporated particles (not nuclear fragment) to output
95 globalOutput.addOutgoingParticles(tempOutput.getOutgoingParticles());
96
97 // Use nuclear fragment left from non-equilibrium for next step
98 // NOTE: Must make a copy before reset occurs below
99 G4Fragment newfrag = tempOutput.getRecoilFragment();
100
101 tempOutput.reset();
102 theEquilibriumEvaporator->deExcite(newfrag, tempOutput);
103
104 if (verboseLevel > 1) {
105 G4cout << " After EquilibriumEvaporator " << G4endl;
106 tempOutput.printCollisionOutput(G4cout);
107 }
108
109 globalOutput.add(tempOutput); // Evaporated particles and nucleus
110}
111
int G4int
Definition G4Types.hh:85
#define G4endl
Definition G4ios.hh:67
G4GLOB_DLL std::ostream G4cout
virtual void deExcite(const G4Fragment &target, G4CollisionOutput &output)
virtual void setVerboseLevel(G4int verbose)
virtual void deExcite(const G4Fragment &fragment, G4CollisionOutput &globalOutput)
virtual void setVerboseLevel(G4int verbose=0)
virtual G4bool explosion(const G4Fragment &target) const
void printCollisionOutput(std::ostream &os=G4cout) const
const std::vector< G4InuclElementaryParticle > & getOutgoingParticles() const
const G4Fragment & getRecoilFragment(G4int index=0) const
void add(const G4CollisionOutput &right)
void addOutgoingParticles(const std::vector< G4InuclElementaryParticle > &particles)
virtual void setVerboseLevel(G4int verbose)
virtual void deExcite(const G4Fragment &target, G4CollisionOutput &output)
virtual void deExcite(const G4Fragment &target, G4CollisionOutput &output)