| Geant4 Cross Reference |
1 1
2 Geant4 extended examples - Hadronic pr 2 Geant4 extended examples - Hadronic processes
3 -------------------------------------- 3 ----------------------------------------------
4 4
5 Examples in this directory demonstrate specif 5 Examples in this directory demonstrate specific hadronic physics simulation
6 with histogramming. 6 with histogramming.
7 7
8 Hadr00 8 Hadr00
9 ------ 9 ------
10 10
11 This example demonstrates a usage of G4PhysLis 11 This example demonstrates a usage of G4PhysListFactory to build
12 Physics List and G4HadronicProcessStore to acc 12 Physics List and G4HadronicProcessStore to access cross sections.
13 13
14 Hadr01 14 Hadr01
15 ------ 15 ------
16 16
17 This example application is based on the appli 17 This example application is based on the application IION developed for
18 simulation of proton or ion beam interaction w 18 simulation of proton or ion beam interaction with a water target. Different
19 aspects of beam target interaction are demonst 19 aspects of beam target interaction are demonstrating in the example including
20 longitudinal profile of energy deposition, spe 20 longitudinal profile of energy deposition, spectra of secondary particles,
21 spectra of particles leaving the target. 21 spectra of particles leaving the target.
22 22
23 Hadr02 23 Hadr02
24 ------ 24 ------
25 25
26 This example application is providing simulati 26 This example application is providing simulation of ion beam interaction with different
27 targets. Hadronic aspects of beam target inter 27 targets. Hadronic aspects of beam target interaction are demonstrated in the example
28 including longitudinal profile of energy depos 28 including longitudinal profile of energy deposition, spectra of secondary particles,
29 isotope production spectra. 29 isotope production spectra.
30 30
31 Hadr03 31 Hadr03
32 ------ 32 ------
33 33
34 This example demonstrates how to compute total 34 This example demonstrates how to compute total cross section from the direct evaluation of the
35 mean free path ( see below, item Physics), how 35 mean free path ( see below, item Physics), how to identify nuclear reactions, how to plot
36 energy spectrum of secondary particles. 36 energy spectrum of secondary particles.
37 37
38 Hadr04 <<
39 ------ <<
40 <<
41 This example is focused on neutronHP physics, <<
42 including thermal scattering. <<
43 See A.R. Garcia, E. Mendoza, D. Cano-Ott prese <<
44 meeting (04/2013) and note on G4NeutronHP pack <<
45 <<
46 Hadr05 <<
47 ------ <<
48 <<
49 Examples of hadronic calorimeters <<
50 <<
51 Hadr06 <<
52 ------ <<
53 <<
54 This example demonstrates survey of energy dep <<
55 a hadronic cascade. <<
56 <<
57 Hadr07 <<
58 ------ <<
59 <<
60 Survey energy deposition and particle's flux f <<
61 Use PhysicsConstructor objects rather than pre <<
62 Show how to plot a depth dose profile in a rec <<
63 <<
64 Hadr08 <<
65 ------ <<
66 <<
67 This example shows how to get "hadronic model <<
68 biasing: in particular, it is shown how to use <<
69 while using the default "FTFP+BERT" in all oth <<
70 Notice that we use the generic biasing machine <<
71 of all tracks remain to the usual value (1.0) <<
72 case. <<
73 <<
74 Hadr09 <<
75 ------ <<
76 <<
77 This example shows how to use Geant4 as a gene <<
78 inelastic hadron-nuclear interactions. <<
79 Notice that the Geant4 run-manager is not used <<
80 <<
81 Hadr10 <<
82 ------ <<
83 <<
84 This example aims to test the treatment of dec <<
85 In particular, we want to test the decays of t <<
86 bottom hadrons, and the use of pre-assigned de <<
87 <<
88 FissionFragment <<
89 --------------- <<
90 This example demonstrates the Fission Fragment <<
91 neutron_hp model. It will demostrate the capab <<
92 containmentby the cladding in a water moderate <<
93 also be further extended to calculate the effe <<
94 the subcritical assembly for various loading s <<
95 <<
96 FlukaCern <<
97 ------------- <<
98 A set of 2 examples, demonstrating how to make <<
99 the interface to `FLUKA` hadron-nucleus inelas <<
100 The examples are at the process (interaction) <<
101 (G4_HP_CernFLUKAHadronInelastic_PhysicsList) i <<
102 The interface to `FLUKA` itself is also includ <<
103 <<
104 NeutronSource <<
105 ------------- <<
106 NeutronSource is an example of neutrons produc <<
107 of nuclear reactions and radioactive decay pro <<
108 It survey energy deposition and particle's flu <<
109 It uses PhysicsConstructor objects. <<
110 <<
111 ParticleFluence <<
112 --------------- <<
113 This example aims to monitor the particle flue <<
114 and set-ups. The particle fluence at a given p <<
115 average number of particles crossing a unit su <<
116 (normalized per one incident primary). The par <<
117 estimated by summing the particles' track leng <<
118 and dividing for the cubic volume of such a sc <<