Geant4 Cross Reference

Cross-Referencing   Geant4
Geant4/processes/hadronic/models/lend/src/MCGIDI_kinetics.cc

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Diff markup

Differences between /processes/hadronic/models/lend/src/MCGIDI_kinetics.cc (Version 11.3.0) and /processes/hadronic/models/lend/src/MCGIDI_kinetics.cc (Version 7.1.p1)


  1 /*                                                  1 
  2 # <<BEGIN-copyright>>                             
  3 # <<END-copyright>>                               
  4 */                                                
  5 #include <string.h>                               
  6 #include <cmath>                                  
  7                                                   
  8 #include "MCGIDI.h"                               
  9                                                   
 10 #if defined __cplusplus                           
 11 namespace GIDI {                                  
 12 using namespace GIDI;                             
 13 #endif                                            
 14                                                   
 15 /*                                                
 16 **********************************************    
 17 */                                                
 18 int MCGIDI_kinetics_2BodyReaction( statusMessa    
 19         MCGIDI_sampledProductsData *outgoingDa    
 20                                                   
 21     double m1 = angular->projectileMass_MeV, m    
 22                                                   
 23     mi = m1 + m2;                                 
 24     mf = m3 + m4;                                 
 25     beta = std::sqrt( K * ( K + 2. * m1 ) ) /     
 26     x = K * m2 / ( mi * mi );                     
 27     if( x < 2e-5 ) {                              
 28         Kp = mi - mf + K * m2 / mi * ( 1 - 0.5    
 29     else {                                        
 30         Kp = std::sqrt( mi * mi + 2 * K * m2 )    
 31     }                                             
 32     if( Kp < 0 ) Kp = 0.;           /* ???? Th    
 33     return( MCGIDI_kinetics_COMKineticEnergy2L    
 34 }                                                 
 35 /*                                                
 36 **********************************************    
 37 */                                                
 38 int MCGIDI_kinetics_COMKineticEnergy2LabEnergy    
 39         double m3cc, double m4cc, MCGIDI_sampl    
 40 /*                                                
 41 *   beta            the velocity/speedOflight     
 42 *   e_kinetic_com   Total kinetic energy (K1 +    
 43 *   mu              cos( theta ) in the COM fr    
 44 */                                                
 45     double x, v_p, p, pp3, pp4, px3, py3, pz3,    
 46                                                   
 47     p = std::sqrt( e_kinetic_com * ( e_kinetic    
 48             ( 2. * ( e_kinetic_com + m3cc + m4    
 49     py3 = p * std::sqrt( 1 - mu * mu );           
 50     px3 = py3 * std::cos( phi );                  
 51     py3 *= std::sin( phi );                       
 52     pz = p * mu;                                  
 53     if( 1 ) {                           /* ???    
 54         E3 = std::sqrt( p * p + m3cc2 );          
 55         E4 = std::sqrt( p * p + m4cc2 );          
 56         gamma = std::sqrt( 1. / ( 1. - beta *     
 57         pz3 = gamma * (  pz + beta * E3 );        
 58         pz4 = gamma * ( -pz + beta * E4 ); }      
 59     else {                              /* COM    
 60         pz3 = pz;                                 
 61         pz4 = -pz;                                
 62     }                                             
 63     outgoingData[1].isVelocity = outgoingData[    
 64                                                   
 65     p_perp2 = px3 * px3 + py3 * py3;              
 66                                                   
 67     outgoingData[0].px_vx = px3;                  
 68     outgoingData[0].py_vy = py3;                  
 69     outgoingData[0].pz_vz = pz3;                  
 70     pp3 = p_perp2 + pz3 * pz3;                    
 71     x = ( m3cc > 0 ) ? pp3 / ( 2 * m3cc2 ) : 1    
 72     if( x < 1e-5 ) {                              
 73         outgoingData[0].kineticEnergy = m3cc *    
 74     else {                                        
 75         outgoingData[0].kineticEnergy = std::s    
 76     }                                             
 77     outgoingData[1].px_vx = -px3;                 
 78     outgoingData[1].py_vy = -py3;                 
 79     outgoingData[1].pz_vz = pz4;                  
 80     pp4 = p_perp2 + pz4 * pz4;                    
 81     x = ( m4cc > 0 ) ? pp4 / ( 2 * m4cc2 ) : 1    
 82     if( x < 1e-5 ) {                              
 83         outgoingData[1].kineticEnergy = m4cc *    
 84     else {                                        
 85         outgoingData[1].kineticEnergy = std::s    
 86     }                                             
 87                                                   
 88     if( outgoingData[0].isVelocity ) {            
 89         v_p = MCGIDI_speedOfLight_cm_sec / std    
 90         outgoingData[0].px_vx *= v_p;             
 91         outgoingData[0].py_vy *= v_p;             
 92         outgoingData[0].pz_vz *= v_p;             
 93                                                   
 94         v_p = MCGIDI_speedOfLight_cm_sec / std    
 95         outgoingData[1].px_vx *= v_p;             
 96         outgoingData[1].py_vy *= v_p;             
 97         outgoingData[1].pz_vz *= v_p;             
 98     }                                             
 99                                                   
100     return( 0 );                                  
101 }                                                 
102 /*                                                
103 **********************************************    
104 */                                                
105 int MCGIDI_kinetics_COM2Lab( statusMessageRepo    
106 /*                                                
107 *       massProjectile = masses[0], massTarget    
108 */                                                
109     double a = masses[0] + masses[1], b, e_in     
110                                                   
111     if( decaySamplingInfo->frame != xDataTOM_f    
112         smr_setReportError2( smr, smr_unknownI    
113         return( 1 );                              
114     }                                             
115     a = std::sqrt( e_in );                        
116     b = std::sqrt( decaySamplingInfo->Ep );       
117     Ep = decaySamplingInfo->Ep + e_in + 2. * d    
118     if( Ep != 0 ) {                               
119         decaySamplingInfo->mu = ( a + decaySam    
120     }                                             
121     decaySamplingInfo->Ep = Ep;                   
122     decaySamplingInfo->frame = xDataTOM_frame_    
123     return( 0 );                                  
124 }                                                 
125                                                   
126 #if defined __cplusplus                           
127 }                                                 
128 #endif                                            
129