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G4ExcitedBaryonConstructor.cc
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27 // $Id$
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30 // --------------------------------------------------------------
31 // GEANT 4 class implementation file
32 //
33 // History: first implementation, based on object model of
34 // 10 oct 1998 H.Kurashige
35 // ---------------------------------------------------------------
36 
37 
38 #include "G4ExcitedBaryonConstructor.hh"
39 
40 #include "G4SystemOfUnits.hh"
41 #include "G4ParticleDefinition.hh"
42 #include "G4ParticleTable.hh"
43 #include "G4ShortLivedTable.hh"
44 #include "G4PhaseSpaceDecayChannel.hh"
45 #include "G4VDecayChannel.hh"
46 #include "G4DecayTable.hh"
47 
48 
49 G4ExcitedBaryonConstructor::G4ExcitedBaryonConstructor(G4int nStates,
50  G4int isoSpin)
51  : NumberOfStates(nStates), iIsoSpin(isoSpin), type("baryon"),
52  iConjugation(0), iGParity(0), leptonNumber(0), baryonNumber(1)
53 {
54 }
55 
56 G4ExcitedBaryonConstructor::~G4ExcitedBaryonConstructor()
57 {
58 }
59 
60 void G4ExcitedBaryonConstructor::Construct(G4int idx)
61 {
62  if (idx < 0 ) {
63  for (G4int state=0; state< NumberOfStates; state +=1) {
64  ConstructParticle(state);
65  ConstructAntiParticle(state);
66  }
67  } else if (idx < NumberOfStates) {
68  ConstructParticle(idx);
69  ConstructAntiParticle(idx);
70  } else {
71 #ifdef G4VERBOSE
72  if (G4ParticleTable::GetParticleTable()->GetVerboseLevel()>1) {
73  G4cerr << "G4ExcitedBaryonConstructor::Construct()";
74  G4cerr << " illegal index os state = " << idx << G4endl;
75  }
76 #endif
77  }
78 }
79 
80 
81 #include "G4ExcitedBaryons.hh"
82 
83 void G4ExcitedBaryonConstructor::ConstructParticle(G4int idx)
84 {
85  if (!Exist(idx) ) return;
86 
87  // Construct Resonace particles as dynamic object
88  // Arguments for constructor are as follows
89  // name mass width charge
90  // 2*spin parity C-conjugation
91  // 2*Isospin 2*Isospin3 G-parity
92  // type lepton number baryon number PDG encoding
93  // stable lifetime decay table
94 
95 
96  G4String name;
97  G4ParticleDefinition* particle;
98 
99  for (G4int iIso3 = -1*iIsoSpin; iIso3 <= iIsoSpin; iIso3 +=2) {
100  name= GetName(iIso3, idx);
101 
102  particle = new G4ExcitedBaryons(
103  name, GetMass(idx,iIso3), GetWidth(idx,iIso3), GetCharge(iIso3),
104  GetiSpin(idx), GetiParity(idx), iConjugation,
105  iIsoSpin, iIso3, iGParity,
106  type, leptonNumber, baryonNumber, GetEncoding( iIso3,idx),
107  false, 0.0, NULL
108  );
109  ((G4ExcitedBaryons*)(particle))->SetMultipletName(GetMultipletName(idx));
110  particle->SetDecayTable(CreateDecayTable( name, iIso3, idx, false));
111  }
112 }
113 
114 void G4ExcitedBaryonConstructor::ConstructAntiParticle(G4int idx)
115 {
116  if (!Exist(idx) ) return;
117 
118  // Construct Resonace particles as dynamic object
119  // Arguments for constructor are as follows
120  // name mass width charge
121  // 2*spin parity C-conjugation
122  // 2*Isospin 2*Isospin3 G-parity
123  // type lepton number baryon number PDG encoding
124  // stable lifetime decay table
125 
126 
127  G4String name;
128  G4ParticleDefinition* particle;
129 
130  for (G4int iIso3 = -1*iIsoSpin; iIso3 <= iIsoSpin; iIso3 +=2) {
131  name = GetName(iIso3, idx);
132  name = "anti_" + name;
133 
134  particle = new G4ExcitedBaryons(
135  name, GetMass(idx,iIso3), GetWidth(idx,iIso3), -1.0*GetCharge(iIso3),
136  GetiSpin(idx), GetiParity(idx), iConjugation,
137  iIsoSpin, -1*iIso3, iGParity,
138  type, leptonNumber,
139  -1*baryonNumber,
140  -1*GetEncoding( iIso3,idx),
141  false, 0.0, NULL
142  );
143 
144  ((G4ExcitedBaryons*)(particle))->SetMultipletName(GetMultipletName(idx));
145  particle->SetDecayTable(CreateDecayTable( name, iIso3, idx, true));
146  }
147 
148 }
149 
150 G4double G4ExcitedBaryonConstructor::GetCharge(G4int iIsoSpin3)
151 {
152  G4double charge = 0.0;
153  static G4double quark_charge[7] =
154  {
155  0., -1./3., +2./3., -1./3., +2./3., -1./3., +2./3.
156  };
157 
158  for (G4int idx=0; idx<3; idx+=1){
159  charge += quark_charge[GetQuarkContents(idx, iIsoSpin3)]*eplus;
160  }
161  return charge;
162 }
163 
164 G4int G4ExcitedBaryonConstructor::GetEncoding(G4int iIsoSpin3, G4int idxState)
165 {
166  G4int encoding = GetEncodingOffset(idxState);
167  encoding += 1000*GetQuarkContents(0, iIsoSpin3);
168  encoding += 100*GetQuarkContents(1, iIsoSpin3);
169  encoding += 10*GetQuarkContents(2, iIsoSpin3);
170  if (GetiSpin(idxState) <9) {
171  encoding += GetiSpin(idxState) +1;
172  } else {
173  encoding += (GetiSpin(idxState) +1)*10000000;
174  }
175  return encoding;
176 }
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