Geant4 Cross Reference |
1 -------------------------------------------------- 2 3 ========================================================= 4 Geant4 - an Object-Oriented Toolkit for Simulation in HEP 5 ========================================================= 6 7 TestEm by theme 8 --------------- 9 10 -------------------------------------------------------------------------- 11 | Check basic quantities | 12 |------------------------------------------------------------------------| 13 | Total cross-sections, mean free paths ... | Em0 Em13 Em14 | 14 |------------------------------------------------------------------------| 15 | Stopping power, particle range ... | Em0 Em1 Em5 Em11 Em12 | 16 |------------------------------------------------------------------------| 17 | Final state : | | 18 | energy spectra, angular distributions ... | Em14 | 19 |------------------------------------------------------------------------| 20 | Energy loss fluctuations | Em18 | 21 -------------------------------------------------------------------------- 22 23 24 ------------------------------------------------------------------------- 25 | Multiple Coulomb scattering | 26 |-----------------------------------------------------------------------| 27 | as an isolated mechanism | Em15 | 28 |-----------------------------------------------------------------------| 29 | as a result of particle transport | Em5 | 30 ------------------------------------------------------------------------- 31 32 33 ------------------------------------------------------------------------- 34 | More global verifications | 35 |-----------------------------------------------------------------------| 36 | Single layer : | | 37 | transmission, absoption, reflexion ... | Em5 | 38 |-----------------------------------------------------------------------| 39 | Bragg curve, tallies | Em7 | 40 |-----------------------------------------------------------------------| 41 | Depth dose distribution | Em11 Em12 | 42 |-----------------------------------------------------------------------| 43 | Shower shapes, Moliere radius | Em2 | 44 |-----------------------------------------------------------------------| 45 | Sampling calorimeters, energy flow | Em3 | 46 |-----------------------------------------------------------------------| 47 | Crystal calorimeters | Em9 | 48 ------------------------------------------------------------------------- 49 50 51 ------------------------------------------------------------------------- 52 | Other specialized programs | 53 |-----------------------------------------------------------------------| 54 | High energy muon physics | Em17 | 55 |-----------------------------------------------------------------------| 56 | Other rare, high energy processes | Em6 | 57 |-----------------------------------------------------------------------| 58 | Synchrotron radiation | Em16 | 59 |-----------------------------------------------------------------------| 60 | Transition radiation | Em8 | 61 |-----------------------------------------------------------------------| 62 | Photo-absorption-ionization model | Em10 | 63 |-----------------------------------------------------------------------| 64 | Gamma Conversion Bethe - Heitler 5D model | Em15 | 65 ------------------------------------------------------------------------- 66 67 68 69 TestEm0 - how to print cross-sections and stopping power used in input by 70 the standard EM package 71 72 TestEm1 - how to count processes, activate/inactivate them and survey 73 the range of charged particles. How to define a maximum step size 74 75 TestEm2 - shower development in an homogeneous material : 76 longitudinal and lateral profiles 77 78 TestEm3 - shower development in a sampling calorimeter : collect energy 79 deposited, survey energy flow and print stopping power 80 81 TestEm4 - 9 MeV point like photon source: plot spectrum of energy 82 deposited in a single media 83 84 TestEm5 - how to study transmission, absorption and reflection of particles 85 through a single, thin or thick, layer. 86 87 TestEm6 - physics list for rare, high energy, electromagnetic processes : 88 gamma conversion and e+ annihilation into pair of muons 89 90 TestEm7 - how to produce a Bragg curve in water phantom. 91 How to compute dose in tallies 92 93 TestEm8 - test of photo-absorption-ionisation model in thin absorbers, 94 and transition radiation 95 96 TestEm9 - shower development in a crystal calorimeter; cut-per-region 97 98 TestEm10 - XTR transition radiation model, investigation of ionisation 99 in thin absorbers 100 101 TestEm11 - how to plot a depth dose profile in a rectangular box 102 103 TestEm12 - how to plot a depth dose profile in spherical geometry : 104 point like source 105 106 TestEm13 - how to compute cross sections of EM processes from rate of 107 transmission coefficient 108 109 TestEm14 - how to compute cross sections of EM processes from direct 110 evaluation of the mean-free path. How to plot final state 111 112 TestEm15 - compute and plot final state of Multiple Scattering 113 or Gamma Conversion as an isolated process 114 115 TestEm16 - simulation of synchrotron radiation 116 117 TestEm17 - check the cross sections of high energy muon processes 118 119 TestEm18 - energy lost by a charged particle in a single layer, 120 due to ionization and bremsstrahlung