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26 #ifndef G4INCLXXNeutronBuilder_h 26 #ifndef G4INCLXXNeutronBuilder_h
27 #define G4INCLXXNeutronBuilder_h 1 27 #define G4INCLXXNeutronBuilder_h 1
28 28
29 #include "globals.hh" 29 #include "globals.hh"
30 30
31 #include "G4HadronElasticProcess.hh" 31 #include "G4HadronElasticProcess.hh"
32 #include "G4NeutronFissionProcess.hh" << 32 #include "G4HadronFissionProcess.hh"
33 #include "G4NeutronCaptureProcess.hh" << 33 #include "G4HadronCaptureProcess.hh"
>> 34 #include "G4NeutronInelasticProcess.hh"
34 #include "G4VNeutronBuilder.hh" 35 #include "G4VNeutronBuilder.hh"
35 36
36 #include "G4INCLXXInterface.hh" 37 #include "G4INCLXXInterface.hh"
37 #include "G4VPreCompoundModel.hh" 38 #include "G4VPreCompoundModel.hh"
>> 39 #include "G4NeutronInelasticCrossSection.hh"
38 40
39 /** 41 /**
40 * Builder for neutron processes using the INC 42 * Builder for neutron processes using the INCL++ intra-nuclear
41 * cascade model. 43 * cascade model.
42 * 44 *
43 * By default the INCL++ model is used for pro 45 * By default the INCL++ model is used for projectile energies 0 - 3 GeV.
44 * 46 *
45 * The builder uses INCL++ cascade model with 47 * The builder uses INCL++ cascade model with G4ExcitationHandler
46 * de-excitation. This is implemented in inter 48 * de-excitation. This is implemented in interface
47 * G4INCLXXInterface. 49 * G4INCLXXInterface.
48 * 50 *
49 * @see G4INCLXXInterface 51 * @see G4INCLXXInterface
50 * @see G4INCLXXProtonBuilder 52 * @see G4INCLXXProtonBuilder
51 * @see G4INCLXXPiKBuilder 53 * @see G4INCLXXPiKBuilder
52 */ 54 */
53 class G4INCLXXNeutronBuilder : public G4VNeutr 55 class G4INCLXXNeutronBuilder : public G4VNeutronBuilder
54 { 56 {
55 public: 57 public:
56 G4INCLXXNeutronBuilder(); 58 G4INCLXXNeutronBuilder();
57 virtual ~G4INCLXXNeutronBuilder() {} << 59 virtual ~G4INCLXXNeutronBuilder();
58 60
59 public: 61 public:
60 virtual void Build(G4HadronElasticProcess << 62 virtual void Build(G4HadronElasticProcess * aP);
61 virtual void Build(G4NeutronFissionProcess << 63 virtual void Build(G4HadronFissionProcess * aP);
62 virtual void Build(G4NeutronCaptureProcess << 64 virtual void Build(G4HadronCaptureProcess * aP);
63 virtual void Build(G4HadronInelasticProces << 65 virtual void Build(G4NeutronInelasticProcess * aP);
64 66
65 virtual void SetMinEnergy(G4double aM) fin << 67 void SetMinEnergy(G4double aM) {theMin = aM;}
66 virtual void SetMaxEnergy(G4double aM) fin << 68 void SetMaxEnergy(G4double aM) {theMax = aM;}
67 69
68 void SetMinPreCompoundEnergy(G4double aM) 70 void SetMinPreCompoundEnergy(G4double aM) {thePreCompoundMin = aM;}
69 void SetMaxPreCompoundEnergy(G4double aM) 71 void SetMaxPreCompoundEnergy(G4double aM) {thePreCompoundMax = aM;}
70 72
71 void UsePreCompound(const G4bool w) { with 73 void UsePreCompound(const G4bool w) { withPreCompound = w;}
72 74
73 using G4VNeutronBuilder::Build; //Prevent <<
74 private: 75 private:
75 G4INCLXXInterface * theModel; 76 G4INCLXXInterface * theModel;
76 G4VPreCompoundModel * thePreCompoundModel; 77 G4VPreCompoundModel * thePreCompoundModel;
>> 78 G4NeutronInelasticCrossSection theXSec;
77 G4bool withPreCompound; 79 G4bool withPreCompound;
78 G4double thePreCompoundMin; 80 G4double thePreCompoundMin;
79 G4double thePreCompoundMax; 81 G4double thePreCompoundMax;
80 G4double theMin; 82 G4double theMin;
81 G4double theMax; 83 G4double theMax;
82 84
83 }; 85 };
>> 86
>> 87 // 2011 by P. Kaitaniemi
84 88
85 #endif 89 #endif
86 90
87 91