= Collision List = Starting with r7768 (resp. GiBUU 2019, patch 6), some additional output is possible, were all interactions at a given time step are reported in order to enable a 'replay' of the whole interactions like in a 'movie'. This feature may be switched on by selecting in the input job card {{{ &input ... printCollisionList = T ... / }}} Then, two files will be generated: === File 1: 'collisionList0.txt' === In this file, all particles after the initialization are listed. For elementary interactions on a nucleus, this includes the nucleons, i.e. the ("real") particles, as also the final state particles of the first interaction, the "perturbative" particles. The format is : {{{ iEns, uniqueID, ID, Q, anti, mass, p(0:3), x(1:3), weight }}} this may look like {{{ 1 100000 1 0 F 0.938 9.0225371E-01 -1.0175047E-01 1.4338646E-01 -5.9321802E-02 1.298E+00 -2.045E-01 -1.445E+00 0.000E+00 1 100001 1 1 F 0.938 9.2944725E-01 1.4480108E-01 -1.2407325E-01 6.9979513E-02 7.446E-01 2.159E+00 1.451E+00 0.000E+00 1 100002 1 1 F 0.938 8.9556552E-01 -7.1821512E-02 -2.7760721E-02 -1.0462916E-01 -1.503E+00 5.835E-01 1.476E+00 0.000E+00 1 100003 1 0 F 0.938 9.2123883E-01 1.4628513E-02 -2.1647804E-01 8.8490566E-03 -9.670E-01 -4.893E-01 2.062E+00 0.000E+00 1 100004 1 0 F 0.938 9.1561085E-01 -1.6724257E-01 1.2410322E-01 -2.4296521E-02 -1.479E+00 -1.640E+00 -5.354E-02 0.000E+00 1 100005 1 0 F 0.938 9.2435197E-01 6.4056098E-02 1.0551280E-01 -1.8530766E-01 -2.293E+00 4.795E-01 3.995E-01 0.000E+00 1 100006 1 0 F 0.938 9.0848757E-01 8.4948960E-03 2.5629057E-02 2.8852763E-03 2.254E+00 1.444E+00 1.011E+00 0.000E+00 1 100007 1 1 F 0.938 9.2124230E-01 1.2271338E-01 -1.2203073E-01 1.3602550E-01 -6.754E-01 -1.140E+00 -1.884E+00 0.000E+00 1 100008 1 1 F 0.938 9.1603120E-01 -4.4013649E-02 1.5004671E-02 -9.7962175E-02 7.109E-01 2.751E+00 -4.049E-01 0.000E+00 1 100009 1 1 F 0.938 9.0399729E-01 1.5904738E-01 5.4389651E-02 1.4048569E-01 -5.512E-01 -1.614E-01 -8.989E-01 0.000E+00 1 100010 1 0 F 0.938 9.1452095E-01 -1.2238473E-01 -3.4499420E-03 5.6098772E-02 -1.613E+00 -1.303E+00 -1.741E+00 0.000E+00 1 100011 1 1 F 0.938 8.9095417E-01 -6.2248362E-03 2.7860515E-02 5.9183972E-02 -1.106E+00 1.110E+00 1.728E+00 0.000E+00 2 100000 1 0 F 0.938 9.2429523E-01 -1.8125733E-01 -7.6394282E-02 -6.8386820E-02 -1.881E+00 1.440E+00 -8.276E-01 0.000E+00 2 100001 1 1 F 0.938 9.0028011E-01 -1.3851042E-01 -1.9553798E-02 -1.5139204E-01 4.042E-01 -1.214E+00 -5.098E-02 0.000E+00 2 100002 1 1 F 0.938 9.1118596E-01 1.5711670E-01 -4.7781645E-02 -5.2372578E-02 -2.273E+00 1.429E-01 7.071E-01 0.000E+00 2 100003 1 0 F 0.938 9.1986964E-01 1.3225418E-01 -3.6055300E-02 2.2317658E-01 -4.531E-01 2.377E-01 -6.777E-01 0.000E+00 ... }}} === File 2: 'collisionList.txt' === In this file, all interactions are listed. The first line indicates the time 'time', the kind of process 'iProc', the number of outgoing particles 'nOut', and the internal coordinates (iEns, iID) of the incoming particles {{{ time, iProc, nOut, iEns1,iID1 [, iEns2,iID2 [, iEns3,iID3 ]] }}} The coding of 'iProc' is: * 1-body: 11= real particle decay, 12= pert.particle decay * 2-body: 211= real+real , 212= real+pert * 3-body: 3111= real+real+real, 3112= real+real+pert Then 'nOut' lines indicating the outgoing particles are given as in 'collisionList0.txt'. This may look like {{{ ... 0.20 12 2 0 100030 0 106451 101 1 F 0.138 5.3364454E-01 4.2980800E-01 1.4786484E-01 2.4317394E-01 -2.418E-01 2.748E+00 1.235E+00 4.283E-04 0 106452 1 1 F 0.938 1.1572417E+00 2.4602193E-02 2.7953711E-01 6.3332541E-01 -2.418E-01 2.748E+00 1.235E+00 4.283E-04 ... 0.20 212 2 297 100006 0 102310 0 106884 1 0 F 0.938 1.0166981E+00 -4.8005309E-02 -3.1762840E-01 3.3194100E-01 3.752E-01 9.357E-01 1.635E+00 1.662E-05 0 106885 1 1 F 0.938 9.7085166E-01 -3.3714697E-01 -5.3550798E-02 1.3946998E-01 4.108E-01 7.829E-01 1.711E+00 1.662E-05 ... }}} Due to technical reasons, it is not sufficient to just look at the uniqueID of real particles, since this may be repeated in every ensemble. Thus only the combination of ensemble number and unique ID identifies the particle. This is not necessary for perturbative particles. To avoid confusion, here the number of the ensemble is always set to 0.