Geant4 Cross Reference |
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Please see the license in the file LICENSE and URL above * 16 // * for the full disclaimer and the limitatio 16 // * for the full disclaimer and the limitation of liability. * 17 // * 17 // * * 18 // * This code implementation is the result 18 // * This code implementation is the result of the scientific and * 19 // * technical work of the GEANT4 collaboratio 19 // * technical work of the GEANT4 collaboration. * 20 // * By using, copying, modifying or distri 20 // * By using, copying, modifying or distributing the software (or * 21 // * any work based on the software) you ag 21 // * any work based on the software) you agree to acknowledge its * 22 // * use in resulting scientific publicati 22 // * use in resulting scientific publications, and indicate your * 23 // * acceptance of all terms of the Geant4 Sof 23 // * acceptance of all terms of the Geant4 Software license. * 24 // ******************************************* 24 // ******************************************************************** 25 // 25 // 26 // << 26 #include "G4FTFBinaryPiKBuilder.hh" 27 //-------------------------------------------- << 27 #include "G4ParticleDefinition.hh" 28 // << 28 #include "G4ParticleTable.hh" 29 // ClassName: G4FTFBinaryPiKBuilder << 29 #include "G4ProcessManager.hh" 30 // << 30 31 // Author: 2008 G.Folger << 31 G4FTFBinaryPiKBuilder:: 32 // << 32 G4FTFBinaryPiKBuilder(G4bool quasiElastic) 33 // Modified: << 33 { 34 // 18.11.2010 G.Folger, use G4CrossSectionPair << 34 theMin = 4*GeV; 35 // section at high energies. << 35 theModel = new G4TheoFSGenerator; 36 // 30.03.2009 V.Ivanchenko create cross sectio << 36 37 // 12.04.2017 A.Dotti move to new design with << 37 theStringModel = new G4FTFModel; 38 // << 38 theStringDecay = new G4ExcitedStringDecay(new G4LundStringFragmentation); 39 //-------------------------------------------- << 39 theStringModel->SetFragmentationModel(theStringDecay); 40 // << 40 41 #include "G4FTFBinaryPiKBuilder.hh" << 41 theCascade = new G4BinaryCascade; 42 #include "G4SystemOfUnits.hh" << 42 thePreEquilib = new G4PreCompoundModel(new G4ExcitationHandler); 43 #include "G4ParticleDefinition.hh" << 43 theCascade->SetDeExcitation(thePreEquilib); 44 #include "G4ParticleTable.hh" << 44 45 #include "G4ProcessManager.hh" << 45 theModel->SetHighEnergyGenerator(theStringModel); 46 #include "G4BGGPionInelasticXS.hh" << 46 if (quasiElastic) 47 #include "G4HadronicParameters.hh" << 47 { 48 << 48 theQuasiElastic=new G4QuasiElasticChannel; 49 << 49 theModel->SetQuasiElasticChannel(theQuasiElastic); 50 G4FTFBinaryPiKBuilder:: << 50 } else 51 G4FTFBinaryPiKBuilder(G4bool quasiElastic) << 51 { theQuasiElastic=0;} 52 { << 52 53 theMin = G4HadronicParameters::Instance()->G << 53 theModel->SetTransport(theCascade); 54 theModel = new G4TheoFSGenerator("FTFB"); << 54 theModel->SetMinEnergy(theMin); 55 << 55 theModel->SetMaxEnergy(100*TeV); 56 G4FTFModel* theStringModel = new G4FTFModel; << 56 } 57 theStringModel->SetFragmentationModel(new G4 << 57 58 << 58 G4FTFBinaryPiKBuilder:: 59 G4BinaryCascade* theCascade = new G4BinaryCa << 59 ~G4FTFBinaryPiKBuilder() 60 theModel->SetTransport(theCascade); << 60 { 61 << 61 delete theCascade; 62 theModel->SetHighEnergyGenerator(theStringMo << 62 delete theStringDecay; 63 theModel->SetMinEnergy(theMin); << 63 delete theStringModel; 64 << 64 delete theModel; 65 if (quasiElastic) { << 65 if ( theQuasiElastic ) delete theQuasiElastic; 66 theModel->SetQuasiElasticChannel(new G4Qu << 66 } 67 } << 67 68 theModel->SetMaxEnergy( G4HadronicParameters << 68 void G4FTFBinaryPiKBuilder:: 69 } << 69 Build(G4HadronElasticProcess * ) {} 70 << 70 71 G4FTFBinaryPiKBuilder:: ~G4FTFBinaryPiKBuilder << 71 void G4FTFBinaryPiKBuilder:: 72 { << 72 Build(G4PionPlusInelasticProcess * aP) 73 } << 73 { 74 << 74 aP->AddDataSet(&thePiData); 75 void G4FTFBinaryPiKBuilder:: << 75 aP->RegisterMe(theModel); 76 Build(G4HadronInelasticProcess * aP) << 76 } 77 { << 77 78 theModel->SetMinEnergy(theMin); << 78 void G4FTFBinaryPiKBuilder:: 79 if ( aP->GetParticleDefinition() == G4PionPl << 79 Build(G4PionMinusInelasticProcess * aP) 80 aP->AddDataSet( new G4BGGPionInelasticXS( << 80 { 81 } else if ( aP->GetParticleDefinition() == G << 81 theModel->SetMinEnergy(theMin); 82 aP->AddDataSet( new G4BGGPionInelasticXS( << 82 theModel->SetMaxEnergy(100*TeV); 83 } << 83 aP->AddDataSet(&thePiData); 84 aP->RegisterMe(theModel); << 84 aP->RegisterMe(theModel); 85 } << 85 } >> 86 >> 87 void G4FTFBinaryPiKBuilder:: >> 88 Build(G4KaonPlusInelasticProcess * aP) >> 89 { >> 90 theModel->SetMinEnergy(theMin); >> 91 theModel->SetMaxEnergy(100*TeV); >> 92 aP->RegisterMe(theModel); >> 93 } >> 94 >> 95 void G4FTFBinaryPiKBuilder:: >> 96 Build(G4KaonMinusInelasticProcess * aP) >> 97 { >> 98 theModel->SetMinEnergy(theMin); >> 99 theModel->SetMaxEnergy(100*TeV); >> 100 aP->RegisterMe(theModel); >> 101 } >> 102 >> 103 void G4FTFBinaryPiKBuilder:: >> 104 Build(G4KaonZeroLInelasticProcess * aP) >> 105 { >> 106 theModel->SetMinEnergy(theMin); >> 107 theModel->SetMaxEnergy(100*TeV); >> 108 aP->RegisterMe(theModel); >> 109 } >> 110 >> 111 void G4FTFBinaryPiKBuilder:: >> 112 Build(G4KaonZeroSInelasticProcess * aP) >> 113 { >> 114 theModel->SetMinEnergy(theMin); >> 115 theModel->SetMaxEnergy(100*TeV); >> 116 aP->RegisterMe(theModel); >> 117 } 86 118