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G4FPYNormalFragmentDist.cc
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26 /*
27  * File: G4FPYNormalFragmentDist.cc
28  * Author: B. Wendt (wendbryc@isu.edu)
29  *
30  * Created on July 26, 2011, 12:26 PM
31  */
32 
33 #include "G4Ions.hh"
34 #include "Randomize.hh"
35 #include "globals.hh"
36 
37 #include "G4FFGDebuggingMacros.hh"
38 #include "G4FFGEnumerations.hh"
41 
44  G4FFGEnumerations::MetaState WhichMetaState,
46  G4FFGEnumerations::YieldType WhichYieldType,
47  std::istringstream& dataFile)
48 : G4FissionProductYieldDist( WhichIsotope,
49  WhichMetaState,
50  WhichCause,
51  WhichYieldType,
52  dataFile)
53 {
54  // Initialize the class
55  Initialize();
56 }
57 
60  G4FFGEnumerations::MetaState WhichMetaState,
62  G4FFGEnumerations::YieldType WhichYieldType,
64  std::istringstream& dataFile)
65 : G4FissionProductYieldDist( WhichIsotope,
66  WhichMetaState,
67  WhichCause,
68  WhichYieldType,
69  Verbosity,
70  dataFile)
71 {
72  // Initialize the class
73  Initialize();
74 }
75 
77 Initialize( void )
78 {
80 
81  // Nothing here yet
82 
84 }
85 
88 {
90 
91  G4Ions* Particle;
92 
93  // Generate a (0, 1] random number and return the respective particle.
94  // The ENDF data tables lists 72172 as the largest fission fragment produced
95  // for any fission event. The maximum alpha production is 10 and the
96  // smallest fissile isotope is 90227. This means that if isotope 72172 were
97  // selected as the first daughter product, then at 10 alpha particles only
98  // 15 nucleons and -2 protons would remain for the second daughter product.
99  // Although the actual probability of this occurring is very small, or 0 in
100  // this case, a check should still be made to ensure that the second
101  // daughter product can be physically realized. This would prevent a
102  // situation such as this extreme example which results in a nucleus of 13
103  // neutrons and 2 anti-protons.
104  // This quick sanity check may become even more valid if the ENDF data
105  // tables are expanded in the future and include larger fission products.
106 
107  G4int icounter=0;
108  G4int icounter_max=1024;
109  do
110  {
111  icounter++;
112  if ( icounter > icounter_max ) {
113  G4cout << "Loop-counter exceeded the threshold value at " << __LINE__ << "th line of " << __FILE__ << "." << G4endl;
114  break;
115  }
117  } while(Particle->GetAtomicMass() > RemainingA_ + 1
118  || Particle->GetAtomicNumber() > RemainingZ_ + 1);
119  // Loop checking, 11.05.2015, T. Koi
120 
122  return Particle;
123 }
124 
126 {
128 
129  // Empty - all the data elements to be deconstructed are removed by
130  // ~G4FissionProductYieldDist()
131 
133 }
G4FPYNormalFragmentDist(G4int WhichIsotope, G4FFGEnumerations::MetaState WhichMetaState, G4FFGEnumerations::FissionCause WhichCause, G4FFGEnumerations::YieldType WhichYieldType, std::istringstream &dataFile)
#define G4FFG_FUNCTIONLEAVE__
#define G4endl
Definition: G4ios.hh:61
virtual G4Ions * GetFissionProduct(void)
Definition: G4Ions.hh:51
G4Ions * FindParticle(G4double RandomParticle)
int G4int
Definition: G4Types.hh:78
G4GLOB_DLL std::ostream G4cout
G4double G4SampleUniform(void)
#define G4FFG_FUNCTIONENTER__