]>
Commit | Line | Data |
---|---|---|
60cdbb7d | 1 | #ifndef TFLUKACODES |
2 | #define TFLUKACODES | |
60cdbb7d | 3 | typedef enum { |
4 | kNoProcess = 0, | |
c1f3e2aa | 5 | kKASKAD = 1, // KASKAD code first digit |
60cdbb7d | 6 | kKASKADelarecoil = 10, // elastic interaction recoil |
7 | kKASKADinelarecoil = 11, // inelastic interaction recoil | |
8 | kKASKADstopping = 12, // stopping particle | |
9 | kKASKADpseudon = 13, // pseudo-neutron deposition | |
10 | kKASKADescape = 14, // escape | |
11 | kKASKADtimekill = 15, // time kill | |
12 | kKASKADboundary = 19, // boundary crossing | |
13 | kKASKADnelint = 100, // elastic interaction | |
14 | kKASKADinelint = 101, // inelastic interaction | |
15 | kKASKADdecay = 102, // particle decay | |
16 | kKASKADdray = 103, // delta ray generation | |
17 | kKASKADpair = 104, // pair production | |
18 | kKASKADbrems = 105, // bremsstrahlung | |
c1f3e2aa | 19 | kEMFSCO = 2, // EMFSCO code first digit |
60cdbb7d | 20 | kEMSCOlocaledep = 20, // local energy deposition (i.e. photoelectric) |
21 | kEMFSCOstopping1 = 21, // below user-defined cut-off | |
22 | kEMFSCOstopping2 = 22, // below user cut-off | |
23 | kEMFSCOescape = 23, // escape | |
24 | kEMFSCOtimekill = 24, // time kill | |
25 | kEMFSCOboundary = 29, // boundary crossing | |
26 | kEMFSCObrems = 208, // bremsstrahlung | |
27 | kEMFSCOmoller = 210, // Moller | |
28 | kEMFSCObhabha = 212, // Bhabha | |
29 | kEMFSCOanniflight = 214, // in-flight annihilation | |
30 | kEMFSCOannirest = 215, // annihilation at rest | |
31 | kEMFSCOpair = 217, // pair production | |
32 | kEMFSCOcompton = 219, // Compton scattering | |
33 | kEMFSCOphotoel = 221, // photoelectric effect | |
34 | kEMFSCOrayleigh = 225, // Rayleigh scattering | |
c1f3e2aa | 35 | kKASNEU = 3, // KASNEU code first digit |
60cdbb7d | 36 | kKASNEUtargrecoil = 30, // target recoil |
37 | kKASNEUstopping = 31, // neutron below threshold | |
38 | kKASNEUescape = 32, // escape | |
39 | kKASNEUtimekill = 33, // time kill | |
40 | kKASNEUboundary = 39, // boundary crossing | |
41 | kKASNEUhadronic = 300, // neutron interaction | |
c1f3e2aa | 42 | kKASHEA = 4, // KASHEA code first digit |
60cdbb7d | 43 | kKASHEAescape = 40, // escape |
44 | kKASHEAtimekill = 41, // time kill | |
45 | kKASHEAboundary = 49, // boundary crossing | |
46 | kKASHEAdray = 400, // delta ray generation | |
c1f3e2aa | 47 | kKASOPH = 5, // KASOPH code first digit |
60cdbb7d | 48 | kKASOPHabsorption = 50, // optical photon absorption |
49 | kKASOPHescape = 51, // escape | |
50 | kKASOPHtimekill = 52, // time kill | |
51 | kKASOPHrefraction = 59 // boundary crossing (i.e. refraction) | |
52 | } | |
53 | FlukaProcessCode_t; | |
54 | ||
55 | typedef enum { | |
c1f3e2aa | 56 | kEEDRAW = 2, // Stepping called from eedraw |
57 | kENDRAW = 3, // Stepping called from endraw | |
58 | kMGDRAW = 4, // Stepping called from mgdraw | |
59 | kSODRAW = 5, // Stepping called from sodraw | |
60 | kUSDRAW = 6, // Stepping called from usdraw | |
61 | kBXEntering = 11, // Stepping called from bxdraw (entering track) | |
62 | kBXExiting = 12, // Stepping called from bxdraw (exiting track) | |
63 | kMGResumedTrack = 40, // Stepping called from mgdraw (resumed track) | |
64 | kUSTCKV = 50 // Stepping called from ustckv | |
60cdbb7d | 65 | } |
66 | FlukaCallerCode_t; | |
67 | ||
68 | typedef enum { | |
c1f3e2aa | 69 | kFLUKAcodemin = - 6, // minimum particle code used by FLUKA |
70 | kFLUKAcodemax = 250, // maximum particle code used by FLUKA | |
71 | kFLUKAoptical = - 1, // code for optical photon | |
72 | kFLUKAelectron = 3, // electron | |
73 | kFLUKApositron = 4, // positron | |
74 | kFLUKAphoton = 7, // photon | |
75 | kFLUKAmuplus = 10, // mu+ | |
76 | kFLUKAmuminus = 11 // mu- | |
60cdbb7d | 77 | } |
78 | FlukaParticleCode_t; | |
79 | ||
80 | #endif //TFLUKACODE |