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G4ParticleHPThermalScatteringNames.cc
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25 //
26 // Class Description
27 // Name list of Elements for a high precision (based on evaluated data
28 // libraries) description of themal neutron scattering below 4 eV;
29 // Based on Thermal neutron scattering files
30 // from the evaluated nuclear data files ENDF/B-VI, Release2
31 // To be used in your physics list in case you need this physics.
32 // In this case you want to register an object of this class with
33 // the corresponding process.
34 // Class Description - End
35 
36 // 15-Nov-06 First implementation is done by T. Koi (SLAC/SCCS)
37 // P. Arce, June-2014 Conversion neutron_hp to particle_hp
38 //
39 
41 #include "G4Neutron.hh"
42 #include "G4ElementTable.hh"
43 //#include "G4ParticleHPData.hh"
44 
46 {
47  names.insert ( std::pair < G4String , G4String > ( "TS_Aluminium_Metal" , "al_metal" ) );
48  names.insert ( std::pair < G4String , G4String > ( "TS_Beryllium_Metal" , "be_metal" ) );
49  names.insert ( std::pair < G4String , G4String > ( "TS_Be_of_Beryllium_Oxide" , "be_beo" ) );
50  names.insert ( std::pair < G4String , G4String > ( "TS_C_of_Graphite" , "graphite" ) );
51  names.insert ( std::pair < G4String , G4String > ( "TS_D_of_Heavy_Water" , "d_heavy_water" ) );
52  names.insert ( std::pair < G4String , G4String > ( "TS_H_of_Water" , "h_water" ) );
53  names.insert ( std::pair < G4String , G4String > ( "TS_H_of_Zirconium_Hydride" , "h_zrh" ) );
54  names.insert ( std::pair < G4String , G4String > ( "TS_H_of_Polyethylene" , "h_polyethylene" ) );
55  names.insert ( std::pair < G4String , G4String > ( "TS_Iron_Metal" , "fe_metal" ) );
56  names.insert ( std::pair < G4String , G4String > ( "TS_O_of_Uranium_Dioxide" , "o_uo2" ) );
57  names.insert ( std::pair < G4String , G4String > ( "TS_O_of_Beryllium_Oxide" , "o_beo" ) );
58  names.insert ( std::pair < G4String , G4String > ( "TS_U_of_Uranium_Dioxide" , "u_uo2" ) );
59  names.insert ( std::pair < G4String , G4String > ( "TS_Zr_of_Zirconium_Hydride" , "zr_zrh" ) );
60 
61 
62  names.insert ( std::pair < G4String , G4String > ( "TS_H_of_Para_Hydrogen" , "h_para_h2" ) );
63  names.insert ( std::pair < G4String , G4String > ( "TS_H_of_Ortho_Hydrogen" , "h_ortho_h2" ) );
64 
65  names.insert ( std::pair < G4String , G4String > ( "TS_D_of_Para_Deuterium" , "d_para_d2" ) );
66  names.insert ( std::pair < G4String , G4String > ( "TS_D_of_Ortho_Deuterium" , "d_ortho_d2" ) );
67 
68  names.insert ( std::pair < G4String , G4String > ( "TS_H_of_Liquid_Methane", "h_l_ch4" ) );
69  names.insert ( std::pair < G4String , G4String > ( "TS_H_of_Solid_Methane", "h_s_ch4" ) );
70 
71  //names.insert ( std::pair < G4String , G4String > ( "TS_Benzene", "benzen" ) );
72 
73 
74  nist_names.insert ( std::pair < std::pair < G4String , G4String > , G4String > ( std::pair < G4String , G4String > ( "G4_BERYLLIUM_OXIDE" , "Be" ) , "be_beo" ) );
75  nist_names.insert ( std::pair < std::pair < G4String , G4String > , G4String > ( std::pair < G4String , G4String > ( "G4_BERYLLIUM_OXIDE" , "O" ) , "o_beo" ) );
76  nist_names.insert ( std::pair < std::pair < G4String , G4String > , G4String > ( std::pair < G4String , G4String > ( "G4_GRAPHITE" , "C" ) , "graphite" ) );
77  nist_names.insert ( std::pair < std::pair < G4String , G4String > , G4String > ( std::pair < G4String , G4String > ( "G4_POLYETHYLENE" , "H" ) , "h_polyethylene" ) );
78  nist_names.insert ( std::pair < std::pair < G4String , G4String > , G4String > ( std::pair < G4String , G4String > ( "G4_URANIUM_OXIDE" , "O" ) , "o_uo2" ) );
79  nist_names.insert ( std::pair < std::pair < G4String , G4String > , G4String > ( std::pair < G4String , G4String > ( "G4_URANIUM_OXIDE" , "U" ) , "u_uo2" ) );
80  nist_names.insert ( std::pair < std::pair < G4String , G4String > , G4String > ( std::pair < G4String , G4String > ( "G4_WATER" , "H" ) , "h_water" ) );
81 
82  //nist_names.insert ( std::pair < std::pair < G4String , G4String > , G4String > ( std::pair < G4String , G4String > ( "G4_BENZENE" , "H" ) , "benzen" ) );
83  //nist_names.insert ( std::pair < std::pair < G4String , G4String > , G4String > ( std::pair < G4String , G4String > ( "G4_BENZENE" , "C" ) , "benzen" ) );
84 }
85 
87 {
88 ;
89 }
90 
92 {
93  G4bool result = false;
94  if ( names.find ( aname ) != names.end() ) result = true;
95  return result;
96 }
97 
99 {
100  G4bool result = false;
101  if ( nist_names.find ( std::pair<G4String,G4String>(material,element) ) != nist_names.end() ) result = true;
102  return result;
103 }
104 
105  //Name of G4Element , Name of NDL file
107 {
108  if ( names.find ( nameG4Element ) == names.end() ) names.insert( std::pair<G4String,G4String>( nameG4Element , filename ) );
109 }
G4double G4ParticleHPJENDLHEData::G4double result
string material
Definition: eplot.py:19
bool G4bool
Definition: G4Types.hh:79