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G4NeutronHPCaptureData.cc
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25 //
26 // neutron_hp -- source file
27 // J.P. Wellisch, Nov-1996
28 // A prototype of the low energy neutron transport model.
29 //
30 // 070523 add neglecting doppler broadening on the fly. T. Koi
31 // 070613 fix memory leaking by T. Koi
32 // 071002 enable cross section dump by T. Koi
33 // 080428 change checking point of "neglecting doppler broadening" flag
34 // from GetCrossSection to BuildPhysicsTable by T. Koi
35 // 081024 G4NucleiPropertiesTable:: to G4NucleiProperties::
36 //
38 #include "G4PhysicalConstants.hh"
39 #include "G4SystemOfUnits.hh"
40 #include "G4Neutron.hh"
41 #include "G4ElementTable.hh"
42 #include "G4NeutronHPData.hh"
43 
45 :G4VCrossSectionDataSet("NeutronHPCaptureXS")
46 {
47  SetMinKinEnergy( 0*MeV );
48  SetMaxKinEnergy( 20*MeV );
49 
50  ke_cache = 0.0;
51  xs_cache = 0.0;
52  element_cache = NULL;
53  material_cache = NULL;
54 
55  theCrossSections = 0;
56  onFlightDB = true;
57 
59 }
60 
62 {
63  if ( theCrossSections != 0 ) theCrossSections->clearAndDestroy();
64 
65  delete theCrossSections;
66 }
67 
69  G4int /*Z*/ , G4int /*A*/ ,
70  const G4Element* /*elm*/ ,
71  const G4Material* /*mat*/ )
72 {
73  G4double eKin = dp->GetKineticEnergy();
74  if ( eKin > GetMaxKinEnergy()
75  || eKin < GetMinKinEnergy()
76  || dp->GetDefinition() != G4Neutron::Neutron() ) return false;
77 
78  return true;
79 }
80 
82  G4int /*Z*/ , G4int /*A*/ ,
83  const G4Isotope* /*iso*/ ,
84  const G4Element* element ,
85  const G4Material* material )
86 {
87  if ( dp->GetKineticEnergy() == ke_cache && element == element_cache && material == material_cache ) return xs_cache;
88 
89  ke_cache = dp->GetKineticEnergy();
90  element_cache = element;
91  material_cache = material;
92  G4double xs = GetCrossSection( dp , element , material->GetTemperature() );
93  xs_cache = xs;
94  return xs;
95 }
96 
97 /*
98 G4bool G4NeutronHPCaptureData::IsApplicable(const G4DynamicParticle*aP, const G4Element*)
99 {
100  G4bool result = true;
101  G4double eKin = aP->GetKineticEnergy();
102  if(eKin>20*MeV||aP->GetDefinition()!=G4Neutron::Neutron()) result = false;
103  return result;
104 }
105 */
106 
108 {
109  if(&aP!=G4Neutron::Neutron())
110  throw G4HadronicException(__FILE__, __LINE__, "Attempt to use NeutronHP data for particles other than neutrons!!!");
111 
112 //080428
113  if ( getenv( "G4NEUTRONHP_NEGLECT_DOPPLER" ) )
114  {
115  G4cout << "Find environment variable of \"G4NEUTRONHP_NEGLECT_DOPPLER\"." << G4endl;
116  G4cout << "On the fly Doppler broadening will be neglect in the cross section calculation of capture reaction of neutrons (<20MeV)." << G4endl;
117  onFlightDB = false;
118  }
119 
120  size_t numberOfElements = G4Element::GetNumberOfElements();
121  // G4cout << "CALLED G4NeutronHPCaptureData::BuildPhysicsTable "<<numberOfElements<<G4endl;
122  // TKDB
123  //if ( theCrossSections == 0 ) theCrossSections = new G4PhysicsTable( numberOfElements );
124  if ( theCrossSections == NULL )
125  theCrossSections = new G4PhysicsTable( numberOfElements );
126  else
127  theCrossSections->clearAndDestroy();
128 
129  // make a PhysicsVector for each element
130 
131  static const G4ElementTable *theElementTable = G4Element::GetElementTable();
132  for( size_t i=0; i<numberOfElements; ++i )
133  {
134  if(getenv("CaptureDataIndexDebug"))
135  {
136  G4int index_debug = ((*theElementTable)[i])->GetIndex();
137  G4cout << "IndexDebug "<< i <<" "<<index_debug<<G4endl;
138  }
140  Instance()->MakePhysicsVector((*theElementTable)[i], this);
141  theCrossSections->push_back(physVec);
142  }
143 }
144 
146 {
147  if(&aP!=G4Neutron::Neutron())
148  throw G4HadronicException(__FILE__, __LINE__, "Attempt to use NeutronHP data for particles other than neutrons!!!");
149 
150 //
151 // Dump element based cross section
152 // range 10e-5 eV to 20 MeV
153 // 10 point per decade
154 // in barn
155 //
156 
157  G4cout << G4endl;
158  G4cout << G4endl;
159  G4cout << "Capture Cross Section of Neutron HP"<< G4endl;
160  G4cout << "(Pointwise cross-section at 0 Kelvin.)" << G4endl;
161  G4cout << G4endl;
162  G4cout << "Name of Element" << G4endl;
163  G4cout << "Energy[eV] XS[barn]" << G4endl;
164  G4cout << G4endl;
165 
166  size_t numberOfElements = G4Element::GetNumberOfElements();
167  static const G4ElementTable *theElementTable = G4Element::GetElementTable();
168 
169  for ( size_t i = 0 ; i < numberOfElements ; ++i )
170  {
171 
172  G4cout << (*theElementTable)[i]->GetName() << G4endl;
173 
174  G4int ie = 0;
175 
176  for ( ie = 0 ; ie < 130 ; ie++ )
177  {
178  G4double eKinetic = 1.0e-5 * std::pow ( 10.0 , ie/10.0 ) *eV;
179  G4bool outOfRange = false;
180 
181  if ( eKinetic < 20*MeV )
182  {
183  G4cout << eKinetic/eV << " " << (*((*theCrossSections)(i))).GetValue(eKinetic, outOfRange)/barn << G4endl;
184  }
185 
186  }
187 
188  G4cout << G4endl;
189  }
190 
191 
192 // G4cout << "G4NeutronHPCaptureData::DumpPhysicsTable still to be implemented"<<G4endl;
193 }
194 
195 #include "G4NucleiProperties.hh"
196 
199 {
200  G4double result = 0;
201  G4bool outOfRange;
202  G4int index = anE->GetIndex();
203 
204  // prepare neutron
205  G4double eKinetic = aP->GetKineticEnergy();
206 
207 //if ( getenv( "G4NEUTRONHP_NEGLECT_DOPPLER" ) )
208 //080428
209  if ( !onFlightDB )
210  {
211  G4double factor = 1.0;
212  if ( eKinetic < aT * k_Boltzmann )
213  {
214  // below 0.1 eV neutrons
215  // Have to do some, but now just igonre.
216  // Will take care after performance check.
217  // factor = factor * targetV;
218  }
219  return ( (*((*theCrossSections)(index))).GetValue(eKinetic, outOfRange) )* factor;
220  }
221 
222  G4ReactionProduct theNeutron( aP->GetDefinition() );
223  theNeutron.SetMomentum( aP->GetMomentum() );
224  theNeutron.SetKineticEnergy( eKinetic );
225 
226  // prepare thermal nucleus
227  G4Nucleus aNuc;
228  G4double eps = 0.0001;
229  G4double theA = anE->GetN();
230  G4double theZ = anE->GetZ();
231  G4double eleMass;
232  eleMass = G4NucleiProperties::GetNuclearMass( static_cast<G4int>(theA+eps) , static_cast<G4int>(theZ+eps) ) / G4Neutron::Neutron()->GetPDGMass();
233 
234  G4ReactionProduct boosted;
235  G4double aXsection;
236 
237  // MC integration loop
238  G4int counter = 0;
239  G4double buffer = 0;
240  G4int size = G4int(std::max(10., aT/60*kelvin));
241  G4ThreeVector neutronVelocity = 1./G4Neutron::Neutron()->GetPDGMass()*theNeutron.GetMomentum();
242  G4double neutronVMag = neutronVelocity.mag();
243 
244  while(counter == 0 || std::abs(buffer-result/std::max(1,counter)) > 0.03*buffer)
245  {
246  if(counter) buffer = result/counter;
247  while (counter<size)
248  {
249  counter ++;
250  G4ReactionProduct aThermalNuc = aNuc.GetThermalNucleus(eleMass, aT);
251  boosted.Lorentz(theNeutron, aThermalNuc);
252  G4double theEkin = boosted.GetKineticEnergy();
253  aXsection = (*((*theCrossSections)(index))).GetValue(theEkin, outOfRange);
254  // velocity correction, or luminosity factor...
255  G4ThreeVector targetVelocity = 1./aThermalNuc.GetMass()*aThermalNuc.GetMomentum();
256  aXsection *= (targetVelocity-neutronVelocity).mag()/neutronVMag;
257  result += aXsection;
258  }
259  size += size;
260  }
261  result /= counter;
262 /*
263  // Checking impact of G4NEUTRONHP_NEGLECT_DOPPLER
264  G4cout << " result " << result << " "
265  << (*((*theCrossSections)(index))).GetValue(eKinetic, outOfRange) << " "
266  << (*((*theCrossSections)(index))).GetValue(eKinetic, outOfRange) /result << G4endl;
267 */
268  return result;
269 }