Geant4 11.2.2
Toolkit for the simulation of the passage of particles through matter
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G4HadronPhysicsQGSP_BIC_HP.cc
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1//
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25//
26//
27//---------------------------------------------------------------------------
28//
29// ClassName: G4HadronPhysicsQGSP_BIC_HP
30//
31// Author: 2006 G.Folger
32//
33// Based on G4HadronPhysicsQGSP_BIC
34//
35// Modified:
36// 25.04.2007 G.Folger: Add code for quasielastic
37// 31.10.2012 A.Ribon: Use G4MiscBuilder
38// 19.03.2013 A.Ribon: Replace LEP with FTFP and BERT
39// 05.05.2020 A.Ribon: Use QGSP for antibaryons at high energies
40// 07.05.2020 A.Ribon: Use QGSP for hyperons (and anti-hyperons) at high energies
41// 20.05.2020 A.Ribon: Refactoring of the class (keeping same functionalities)
42//
43//----------------------------------------------------------------------------
44
45#include <iomanip>
47#include "globals.hh"
48#include "G4ios.hh"
49#include "G4SystemOfUnits.hh"
51#include "G4ParticleTable.hh"
52#include "G4NeutronBuilder.hh"
58#include "G4NeutronCaptureXS.hh"
60#include "G4LFission.hh"
61#include "G4ProcessVector.hh"
62#include "G4ProcessManager.hh"
64#include "G4PhysListUtil.hh"
66// factory
68//
70
71
77
79 : G4HadronPhysicsQGSP_BIC( name, quasiElastic )
80{
81 minBIC_neutron = 19.9*MeV;
82}
83
86 G4bool useFactorXS = param->ApplyFactorXS();
87
88 auto neu = new G4NeutronBuilder( true ); // Fission on
89 AddBuilder( neu );
90 auto qgs = new G4QGSPNeutronBuilder( QuasiElasticQGS );
91 AddBuilder( qgs );
92 qgs->SetMinEnergy( minQGSP_neutron );
93 neu->RegisterMe( qgs );
94 auto ftf = new G4FTFPNeutronBuilder( QuasiElasticFTF );
95 AddBuilder( ftf );
96 ftf->SetMinEnergy( minFTFP_neutron );
97 ftf->SetMaxEnergy( maxFTFP_neutron );
98 neu->RegisterMe( ftf );
99 auto bic = new G4BinaryNeutronBuilder;
100 AddBuilder( bic );
101 bic->SetMinEnergy( minBIC_neutron );
102 bic->SetMaxEnergy( maxBIC_neutron );
103 neu->RegisterMe( bic );
104 auto hp = new G4NeutronPHPBuilder;
105 AddBuilder( hp );
106 neu->RegisterMe( hp );
107 neu->Build();
108
109 const G4ParticleDefinition* neutron = G4Neutron::Neutron();
111 if(inel) {
112 if( useFactorXS ) inel->MultiplyCrossSectionBy( param->XSFactorNucleonInelastic() );
113 }
115 if ( capture ) {
116 G4NeutronRadCapture* theNeutronRadCapture = new G4NeutronRadCapture;
117 theNeutronRadCapture->SetMinEnergy( minBIC_neutron );
118 capture->RegisterMe( theNeutronRadCapture );
119 }
121 if ( fission ) {
122 G4LFission* theNeutronLEPFission = new G4LFission;
123 theNeutronLEPFission->SetMinEnergy( minBIC_neutron );
124 theNeutronLEPFission->SetMaxEnergy( G4HadronicParameters::Instance()->GetMaxEnergy() );
125 fission->RegisterMe( theNeutronLEPFission );
126 }
127}
#define G4_DECLARE_PHYSCONSTR_FACTORY(physics_constructor)
bool G4bool
Definition G4Types.hh:86
int G4int
Definition G4Types.hh:85
void SetMinEnergy(G4double anEnergy)
void SetMaxEnergy(const G4double anEnergy)
static G4HadronicParameters * Instance()
void SetVerboseLevel(const G4int val)
G4double XSFactorNucleonInelastic() const
void MultiplyCrossSectionBy(G4double factor)
void RegisterMe(G4HadronicInteraction *a)
static G4Neutron * Neutron()
Definition G4Neutron.cc:101
static G4HadronicProcess * FindInelasticProcess(const G4ParticleDefinition *)
static G4HadronicProcess * FindCaptureProcess(const G4ParticleDefinition *)
static G4HadronicProcess * FindFissionProcess(const G4ParticleDefinition *)
void AddBuilder(G4PhysicsBuilderInterface *bld)