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Geant4/processes/hadronic/models/qmd/src/G4QMDNucleus.cc

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Diff markup

Differences between /processes/hadronic/models/qmd/src/G4QMDNucleus.cc (Version 11.3.0) and /processes/hadronic/models/qmd/src/G4QMDNucleus.cc (Version 9.6)


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 25 //                                                 25 //
 26 // 081024 G4NucleiPropertiesTable:: to G4Nucle     26 // 081024 G4NucleiPropertiesTable:: to G4NucleiProperties::
 27 //                                                 27 //
 28 #include <numeric>                                 28 #include <numeric>
 29                                                    29 
 30 #include "G4QMDNucleus.hh"                         30 #include "G4QMDNucleus.hh"
 31 #include "G4Pow.hh"                            << 
 32 #include "G4SystemOfUnits.hh"                      31 #include "G4SystemOfUnits.hh"
 33 #include "G4Proton.hh"                             32 #include "G4Proton.hh"
 34 #include "G4Neutron.hh"                            33 #include "G4Neutron.hh"
 35 #include "G4NucleiProperties.hh"                   34 #include "G4NucleiProperties.hh"
 36 #include "G4HadronicException.hh"              << 
 37                                                    35 
 38 G4QMDNucleus::G4QMDNucleus()                       36 G4QMDNucleus::G4QMDNucleus()
 39 {                                                  37 {
 40    G4QMDParameters* parameters = G4QMDParamete     38    G4QMDParameters* parameters = G4QMDParameters::GetInstance();
 41    hbc = parameters->Get_hbc();                    39    hbc = parameters->Get_hbc();
 42                                                << 
 43    jj = 0; // will be calcualted in CalEnergyA << 
 44    potentialEnergy = 0.0; // will be set throu << 
 45    excitationEnergy = 0.0;                     << 
 46 }                                                  40 }
 47                                                    41 
 48                                                    42 
 49                                                    43 
 50 //G4QMDNucleus::~G4QMDNucleus()                <<  44 G4QMDNucleus::~G4QMDNucleus()
 51 //{                                            <<  45 {
 52 //   ;                                         <<  46    ;
 53 //}                                            <<  47 }
 54                                                    48 
 55                                                    49 
 56 G4LorentzVector G4QMDNucleus::Get4Momentum()       50 G4LorentzVector G4QMDNucleus::Get4Momentum()
 57 {                                                  51 {
 58    G4LorentzVector p( 0 );                         52    G4LorentzVector p( 0 );
 59    std::vector< G4QMDParticipant* >::iterator      53    std::vector< G4QMDParticipant* >::iterator it; 
 60    for ( it = participants.begin() ; it != par     54    for ( it = participants.begin() ; it != participants.end() ; it++ ) 
 61       p += (*it)->Get4Momentum();                  55       p += (*it)->Get4Momentum();   
 62                                                    56 
 63    return p;                                       57    return p;
 64 }                                                  58 }
 65                                                    59 
 66                                                    60 
 67                                                    61 
 68 G4int G4QMDNucleus::GetMassNumber()                62 G4int G4QMDNucleus::GetMassNumber()
 69 {                                                  63 {
 70                                                    64 
 71    G4int A = 0;                                    65    G4int A = 0; 
 72    std::vector< G4QMDParticipant* >::iterator      66    std::vector< G4QMDParticipant* >::iterator it; 
 73    for ( it = participants.begin() ; it != par     67    for ( it = participants.begin() ; it != participants.end() ; it++ ) 
 74    {                                               68    {
 75       if ( (*it)->GetDefinition() == G4Proton:     69       if ( (*it)->GetDefinition() == G4Proton::Proton() 
 76         || (*it)->GetDefinition() == G4Neutron     70         || (*it)->GetDefinition() == G4Neutron::Neutron() ) 
 77          A++;                                      71          A++; 
 78    }                                               72    }
 79                                                    73 
 80    if ( A == 0 ) {                             << 
 81       throw G4HadronicException(__FILE__, __LI << 
 82    }                                           << 
 83                                                << 
 84    return A;                                       74    return A;
 85 }                                                  75 }
 86                                                    76 
 87                                                    77 
 88                                                    78 
 89 G4int G4QMDNucleus::GetAtomicNumber()              79 G4int G4QMDNucleus::GetAtomicNumber()
 90 {                                                  80 {
 91    G4int Z = 0;                                    81    G4int Z = 0; 
 92    std::vector< G4QMDParticipant* >::iterator      82    std::vector< G4QMDParticipant* >::iterator it; 
 93    for ( it = participants.begin() ; it != par     83    for ( it = participants.begin() ; it != participants.end() ; it++ ) 
 94    {                                               84    {
 95       if ( (*it)->GetDefinition() == G4Proton:     85       if ( (*it)->GetDefinition() == G4Proton::Proton() ) 
 96          Z++;                                      86          Z++; 
 97    }                                               87    }
 98    return Z;                                       88    return Z;
 99 }                                                  89 }
100                                                    90 
101                                                    91 
102                                                    92 
103 G4double G4QMDNucleus::GetNuclearMass()            93 G4double G4QMDNucleus::GetNuclearMass()
104 {                                                  94 {
105                                                    95 
106    G4double mass = G4NucleiProperties::GetNucl     96    G4double mass = G4NucleiProperties::GetNuclearMass( GetMassNumber() , GetAtomicNumber() );
107                                                    97    
108    if ( mass == 0.0 )                              98    if ( mass == 0.0 )
109    {                                               99    {
110                                                   100 
111       G4int Z = GetAtomicNumber();                101       G4int Z = GetAtomicNumber();
112       G4int A = GetMassNumber();                  102       G4int A = GetMassNumber();
113       G4int N = A - Z;                            103       G4int N = A - Z;
114                                                   104 
115 // Weizsacker-Bethe                               105 // Weizsacker-Bethe 
116                                                   106 
117       G4double Av = 16*MeV;                       107       G4double Av = 16*MeV; 
118       G4double As = 17*MeV;                       108       G4double As = 17*MeV; 
119       G4double Ac = 0.7*MeV;                      109       G4double Ac = 0.7*MeV; 
120       G4double Asym = 23*MeV;                     110       G4double Asym = 23*MeV; 
121                                                   111 
122       G4double BE = Av * A                        112       G4double BE = Av * A 
123                   - As * G4Pow::GetInstance()- << 113                   - As * std::pow ( G4double ( A ) , 2.0/3.0 ) 
124                   - Ac * Z*Z/G4Pow::GetInstanc << 114                   - Ac * Z*Z/std::pow ( G4double ( A ) , 1.0/3.0 )
125                   - Asym * ( N - Z )* ( N - Z     115                   - Asym * ( N - Z )* ( N - Z ) / A; 
126                                                   116 
127       mass = Z * G4Proton::Proton()->GetPDGMas    117       mass = Z * G4Proton::Proton()->GetPDGMass() 
128            + N * G4Neutron::Neutron()->GetPDGM    118            + N * G4Neutron::Neutron()->GetPDGMass()
129            - BE;                                  119            - BE;
130                                                   120 
131    }                                              121    }
132                                                   122 
133    return mass;                                   123    return mass;
134 }                                                 124 }
135                                                   125 
136                                                   126 
137                                                   127 
138 void G4QMDNucleus::CalEnergyAndAngularMomentum    128 void G4QMDNucleus::CalEnergyAndAngularMomentumInCM()
139 {                                                 129 {
140                                                   130 
141    //G4cout << "CalEnergyAndAngularMomentumInC    131    //G4cout << "CalEnergyAndAngularMomentumInCM " << this->GetAtomicNumber() << " " << GetMassNumber() << G4endl;
142                                                   132 
143    G4double gamma = Get4Momentum().gamma();       133    G4double gamma = Get4Momentum().gamma();
144    G4ThreeVector beta = Get4Momentum().v()/ Ge    134    G4ThreeVector beta = Get4Momentum().v()/ Get4Momentum().e();
145                                                   135 
146    G4ThreeVector pcm0( 0.0 ) ;                    136    G4ThreeVector pcm0( 0.0 ) ;
147                                                   137 
148    G4int n = GetTotalNumberOfParticipant();       138    G4int n = GetTotalNumberOfParticipant();
149    pcm.resize( n );                               139    pcm.resize( n );
150                                                   140 
151    for ( G4int i= 0; i < n ; i++ )                141    for ( G4int i= 0; i < n ; i++ ) 
152    {                                              142    {
153       G4ThreeVector p_i = GetParticipant( i )-    143       G4ThreeVector p_i = GetParticipant( i )->GetMomentum();
154                                                   144 
155       G4double trans = gamma / ( gamma + 1.0 )    145       G4double trans = gamma / ( gamma + 1.0 ) * p_i * beta; 
156       pcm[i] = p_i - trans*beta;                  146       pcm[i] = p_i - trans*beta;
157                                                   147 
158       pcm0 += pcm[i];                             148       pcm0 += pcm[i];
159    }                                              149    }
160                                                   150 
161    pcm0 = pcm0 / double ( n );                    151    pcm0 = pcm0 / double ( n );
162                                                   152 
163    //G4cout << "pcm0 " << pcm0 << G4endl;         153    //G4cout << "pcm0 " << pcm0 << G4endl;
164                                                   154 
165    for ( G4int i= 0; i < n ; i++ )                155    for ( G4int i= 0; i < n ; i++ ) 
166    {                                              156    {
167       pcm[i] += -pcm0;                            157       pcm[i] += -pcm0;
168       //G4cout << "pcm " << i << " " << pcm[i]    158       //G4cout << "pcm " << i << " " << pcm[i] << G4endl;
169    }                                              159    }
170                                                   160 
171                                                   161 
172    G4double tmass = 0;                            162    G4double tmass = 0;
173    G4ThreeVector rcm0( 0.0 ) ;                    163    G4ThreeVector rcm0( 0.0 ) ;
174    rcm.resize( n );                               164    rcm.resize( n );
175    es.resize( n );                                165    es.resize( n );
176                                                   166 
177    for ( G4int i= 0; i < n ; i++ )                167    for ( G4int i= 0; i < n ; i++ ) 
178    {                                              168    {
179       G4ThreeVector ri = GetParticipant( i )->    169       G4ThreeVector ri = GetParticipant( i )->GetPosition();
180       G4double trans = gamma / ( gamma + 1.0 )    170       G4double trans = gamma / ( gamma + 1.0 ) * ri * beta; 
181                                                   171 
182       es[i] = std::sqrt ( G4Pow::GetInstance() << 172       es[i] = std::sqrt ( std::pow ( GetParticipant( i )->GetMass() , 2 ) + pcm[i]*pcm[i] );
183                                                   173 
184       rcm[i] = ri + trans*beta;                   174       rcm[i] = ri + trans*beta;
185                                                   175 
186       rcm0 += rcm[i]*es[i];                       176       rcm0 += rcm[i]*es[i];
187                                                   177 
188       tmass += es[i];                             178       tmass += es[i];
189    }                                              179    }
190                                                   180 
191    rcm0 = rcm0/tmass;                             181    rcm0 = rcm0/tmass;
192                                                   182 
193    for ( G4int i= 0; i < n ; i++ )                183    for ( G4int i= 0; i < n ; i++ ) 
194    {                                              184    {
195       rcm[i] += -rcm0;                            185       rcm[i] += -rcm0;
196       //G4cout << "rcm " << i << " " << rcm[i]    186       //G4cout << "rcm " << i << " " << rcm[i] << G4endl;
197    }                                              187    }
198                                                   188 
199 // Angular momentum                            << 189 // Angluar momentum
200                                                   190 
201    G4ThreeVector rl ( 0.0 );                      191    G4ThreeVector rl ( 0.0 ); 
202    for ( G4int i= 0; i < n ; i++ )                192    for ( G4int i= 0; i < n ; i++ ) 
203    {                                              193    {
204       rl += rcm[i].cross ( pcm[i] );              194       rl += rcm[i].cross ( pcm[i] );
205    }                                              195    }
206                                                   196 
207 // DHW: move hbc outside of sqrt to get correc << 197    jj = int ( std::sqrt ( rl*rl / hbc ) + 0.5 );
208 //  jj = int ( std::sqrt ( rl*rl / hbc ) + 0.5 << 
209                                                   198 
210    jj = int (std::sqrt(rl*rl)/hbc + 0.5);      << 
211                                                   199 
212 // kinetic energy per nucleon in CM               200 // kinetic energy per nucleon in CM
213                                                   201 
214    G4double totalMass = 0.0;                      202    G4double totalMass = 0.0;
215    for ( G4int i= 0; i < n ; i++ )                203    for ( G4int i= 0; i < n ; i++ ) 
216    {                                              204    {
217       // following two lines are equivalent       205       // following two lines are equivalent
218       //totalMass += GetParticipant( i )->GetD    206       //totalMass += GetParticipant( i )->GetDefinition()->GetPDGMass()/GeV;
219       totalMass += GetParticipant( i )->GetMas    207       totalMass += GetParticipant( i )->GetMass();
220    }                                              208    }
221                                                   209 
222    //G4double kineticEnergyPerNucleon = ( std: << 210    kineticEnergyPerNucleon = ( std::accumulate ( es.begin() , es.end() , 0.0 ) - totalMass )/n;
223                                                   211 
224 // Total (not per nucleion ) Binding Energy       212 // Total (not per nucleion ) Binding Energy 
225    G4double bindingEnergy =  ( std::accumulate << 213    bindingEnergy =  ( std::accumulate ( es.begin() , es.end() , 0.0 ) -totalMass ) + potentialEnergy;
226                                                   214 
227    //G4cout << "KineticEnergyPerNucleon in GeV    215    //G4cout << "KineticEnergyPerNucleon in GeV " << kineticEnergyPerNucleon << G4endl;
228    //G4cout << "KineticEnergySum in GeV " << s    216    //G4cout << "KineticEnergySum in GeV " << std::accumulate ( es.begin() , es.end() , 0.0 ) - totalMass << G4endl;
229    //G4cout << "PotentialEnergy in GeV " << po    217    //G4cout << "PotentialEnergy in GeV " << potentialEnergy << G4endl;
230    //G4cout << "BindingEnergy in GeV " << bind    218    //G4cout << "BindingEnergy in GeV " << bindingEnergy << G4endl;
231    //G4cout << "G4BindingEnergy in GeV " << G4    219    //G4cout << "G4BindingEnergy in GeV " << G4NucleiProperties::GetBindingEnergy( GetAtomicNumber() , GetMassNumber() )/GeV << G4endl;
232                                                   220 
233    excitationEnergy = bindingEnergy + G4Nuclei    221    excitationEnergy = bindingEnergy + G4NucleiProperties::GetBindingEnergy( GetMassNumber() , GetAtomicNumber() )/GeV;
234    //G4cout << "excitationEnergy in GeV " << e    222    //G4cout << "excitationEnergy in GeV " << excitationEnergy << G4endl;
235    if ( excitationEnergy < 0 ) excitationEnerg    223    if ( excitationEnergy < 0 ) excitationEnergy = 0.0; 
236                                                   224 
237 }                                                 225 }
238                                                   226