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Wellisch, Nov-1996 27 // J.P. Wellisch, Nov-1996 28 // A prototype of the low energy neutron trans 28 // A prototype of the low energy neutron transport model. 29 // 29 // 30 // P. Arce, Dec-2014 Conversion neutron_hp to 30 // P. Arce, Dec-2014 Conversion neutron_hp to particle_hp 31 // 31 // 32 #include "G4ParticleHP3AInelasticFS.hh" 32 #include "G4ParticleHP3AInelasticFS.hh" 33 << 34 #include "G4Alpha.hh" << 35 #include "G4Nucleus.hh" 33 #include "G4Nucleus.hh" >> 34 #include "G4Alpha.hh" 36 #include "G4PhysicsModelCatalog.hh" 35 #include "G4PhysicsModelCatalog.hh" 37 36 38 G4ParticleHP3AInelasticFS::G4ParticleHP3AInela 37 G4ParticleHP3AInelasticFS::G4ParticleHP3AInelasticFS() 39 { 38 { 40 secID = G4PhysicsModelCatalog::GetModelID("m << 39 secID = G4PhysicsModelCatalog::GetModelID( "model_G4ParticleHP3AInelasticFS_F29" ); 41 } 40 } 42 41 43 G4HadFinalState* G4ParticleHP3AInelasticFS::Ap << 42 G4HadFinalState * G4ParticleHP3AInelasticFS::ApplyYourself(const G4HadProjectile & theTrack) 44 { 43 { 45 // these are the particle types in the final << 44 // these are the particle types in the final state 46 45 47 G4ParticleDefinition* theDefs[3]; << 46 G4ParticleDefinition * theDefs[3]; 48 theDefs[0] = G4Alpha::Alpha(); 47 theDefs[0] = G4Alpha::Alpha(); 49 theDefs[1] = G4Alpha::Alpha(); 48 theDefs[1] = G4Alpha::Alpha(); 50 theDefs[2] = G4Alpha::Alpha(); 49 theDefs[2] = G4Alpha::Alpha(); 51 << 50 52 // fill the final state << 51 // fill the final state 53 G4ParticleHPInelasticBaseFS::BaseApply(theTr 52 G4ParticleHPInelasticBaseFS::BaseApply(theTrack, theDefs, 3); 54 << 53 55 // return the result << 54 // return the result 56 return theResult.Get(); << 55 return theResult.Get(); 57 } 56 } 58 57 59 void G4ParticleHP3AInelasticFS::Init(G4double << 58 void G4ParticleHP3AInelasticFS:: 60 const G4S << 59 Init (G4double A, G4double Z, G4int M, G4String & dirName, G4String & aFSType, G4ParticleDefinition* projectile) 61 { 60 { 62 G4ParticleHPInelasticBaseFS::Init(A, Z, M, d << 61 G4ParticleHPInelasticBaseFS::Init(A, Z, M, dirName, aFSType, projectile); 63 G4double ResidualA = 0; << 62 G4double ResidualA = 0; 64 G4double ResidualZ = 0; << 63 G4double ResidualZ = 0; 65 if (projectile == G4Neutron::Neutron()) { << 64 if( projectile == G4Neutron::Neutron() ) { 66 ResidualA = A - 11; << 65 ResidualA = A-11; 67 ResidualZ = Z - 6; << 66 ResidualZ = Z-6; 68 } << 67 } else if( projectile == G4Proton::Proton() ) { 69 else if (projectile == G4Proton::Proton()) { << 68 ResidualA = A-11; 70 ResidualA = A - 11; << 69 ResidualZ = Z-5; 71 ResidualZ = Z - 5; << 70 } else if( projectile == G4Deuteron::Deuteron() ) { 72 } << 71 ResidualA = A-10; 73 else if (projectile == G4Deuteron::Deuteron( << 72 ResidualZ = Z-5; 74 ResidualA = A - 10; << 73 } else if( projectile == G4Triton::Triton() ) { 75 ResidualZ = Z - 5; << 74 ResidualA = A-9; 76 } << 75 ResidualZ = Z-5; 77 else if (projectile == G4Triton::Triton()) { << 76 } else if( projectile == G4He3::He3() ) { 78 ResidualA = A - 9; << 77 ResidualA = A-9; 79 ResidualZ = Z - 5; << 78 ResidualZ = Z-4; 80 } << 79 } else if( projectile == G4Alpha::Alpha() ) { 81 else if (projectile == G4He3::He3()) { << 80 ResidualA = A-8; 82 ResidualA = A - 9; << 81 ResidualZ = Z-4; 83 ResidualZ = Z - 4; << 82 } 84 } << 85 else if (projectile == G4Alpha::Alpha()) { << 86 ResidualA = A - 8; << 87 ResidualZ = Z - 4; << 88 } << 89 83 90 G4ParticleHPInelasticBaseFS::InitGammas(Resi << 84 G4ParticleHPInelasticBaseFS::InitGammas(ResidualA, ResidualZ); 91 } 85 } 92 86