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Geant4/physics_lists/constructors/ions/README

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Diff markup

Differences between /physics_lists/constructors/ions/README (Version 11.3.0) and /physics_lists/constructors/ions/README (Version 10.7.p2)


  1 ----------------------------------------------      1 -------------------------------------------------------------------
  2                                                     2 
  3                                                     3 
  4  G4IonBinaryCascadePhysics                          4  G4IonBinaryCascadePhysics
  5  -------------------------                          5  -------------------------
  6  Inelastic ion-ion processes (for deuteron, tr      6  Inelastic ion-ion processes (for deuteron, triton, He3, alpha and
  7  generic ion projectiles), with Glauber-Gribov      7  generic ion projectiles), with Glauber-Gribov cross section and
  8  Binary Light Ion (BIC, with Precompound/de-ex      8  Binary Light Ion (BIC, with Precompound/de-excitation) and Fritiof (FTF)
  9  string model (with Precompound/de-excitation)      9  string model (with Precompound/de-excitation) for the final state.
 10  BIC is used for projectiles of kinetic energi     10  BIC is used for projectiles of kinetic energies below 6 GeV/nucleon, and
 11  FTF above 3 GeV/nucleon.                          11  FTF above 3 GeV/nucleon.
 12                                                    12  
 13  G4IonINCLXXPhysics                                13  G4IonINCLXXPhysics
 14  ------------------                                14  ------------------
 15  Inelastic ion-ion processes (for deuteron, tr     15  Inelastic ion-ion processes (for deuteron, triton, He3, alpha and
 16  generic ion projectiles), with Glauber-Gribov     16  generic ion projectiles), with Glauber-Gribov cross section and
 17  INCLXX and FTFP for the final state. INCLXX i     17  INCLXX and FTFP for the final state. INCLXX is used below 3 GeV/nucleon,
 18  and FTF above 2.9 GeV/nucleon.                    18  and FTF above 2.9 GeV/nucleon.
 19                                                    19  
 20  G4IonPhysics                                      20  G4IonPhysics
 21  ------------                                      21  ------------
 22  Currently equivalent to G4IonBinaryCascadePhy     22  Currently equivalent to G4IonBinaryCascadePhysics.
 23                                                    23 
 24  G4IonPhysicsXS                                    24  G4IonPhysicsXS
 25  --------------                                    25  --------------
 26  As G4IonPhysics, except that for deuteron, tr     26  As G4IonPhysics, except that for deuteron, triton, He3 and alpha
 27  the corresponding G4ParticleInelasticXS cross     27  the corresponding G4ParticleInelasticXS cross section is used
 28  (instead of G4ComponentGGNuclNuclXsc).            28  (instead of G4ComponentGGNuclNuclXsc).
 29                                                    29 
 30  G4IonPhysicsPHP                                   30  G4IonPhysicsPHP
 31  ---------------                                   31  ---------------
 32  Similar to G4IonBinaryCascadePhysics, except      32  Similar to G4IonBinaryCascadePhysics, except that ParticleHP (for both
 33  cross sections and final states) is used belo     33  cross sections and final states) is used below 200 MeV/n for deuteron,
 34  triton, He3 and alpha (and BIC used above 190     34  triton, He3 and alpha (and BIC used above 190 MeV/n for these light ions).
 35                                                    35 
 36  G4IonQMDPhysics                               <<  36  G4IonQMDPhysic
 37  ---------------                               <<  37  --------------
 38  Inelastic ion-ion processes (for deuteron, tr     38  Inelastic ion-ion processes (for deuteron, triton, He3, alpha and
 39  generic ion projectiles), with Glauber-Gribov     39  generic ion projectiles), with Glauber-Gribov cross section and
 40  BIC, QMD and FTFP for the final state. These      40  BIC, QMD and FTFP for the final state. These three final-state models
 41  are used in the following intervals of projec     41  are used in the following intervals of projectile kinetic energy:
 42  -  BIC below 110 MeV/nucleon;                     42  -  BIC below 110 MeV/nucleon;
 43  -  QMD between 100 and 6'000 MeV/nucleon;         43  -  QMD between 100 and 6'000 MeV/nucleon;
 44  -  FTF above 5990 MeV/nucleon.                << 
 45                                                << 
 46  G4IonLightIonQMDPhysics                       << 
 47  -----------------------                       << 
 48 A variant of G4IonQMDPhysics, in which G4Light << 
 49 in the interval [30 MeV, 510 MeV].             << 
 50 These four final-state models are used in the  << 
 51 projectile kinetic energy:                     << 
 52  -  BIC below 40 MeV/nucleon;                  << 
 53  -  LightIonQMD between 30 and 510 MeV/nucleon << 
 54  -  QMD between 500 and 6'000 MeV/nucleon;     << 
 55  -  FTF above 5990 MeV/nucleon.                    44  -  FTF above 5990 MeV/nucleon.