FLUKA: 9.5.3} EVENTDAT output
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9.5.3} EVENTDAT output
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Option EVENTDAT produces either unformatted or formatted output (see EVENTDAT
description for instructions on how to read an unformatted output).
Unlike other estimators, no information is printed on standard output.
The formatted output begins with run title and run time, followed by a short
information about:
- Number of regions
- Number of generalised particle distributions requested
Then, for each primary history:
- History number
- Primary weight
- Primary energy
- Total energy balance for the current history, made of 12
contributions. Some of them correspond to those found in the final
balance printed at the end of the standard output, but in this
case no normalisation to the primary weight is made. Note that
some of the contributions are meaningful only in specific contexts
(e.g. if low-energy neutron transport has been requested). No
explanation is given about the meaning of each contribution, which
must be found here below in the order they are printed:
1 = energy deposited by ionisation
2 = en. depos. by pi0, electrons, positrons and photons
3 = en. depos. by nuclear recoils and heavy fragments
4 = energy deposited by particles below threshold
5 = energy leaving the system
6 = energy carried by discarded particles
7 = residual excitation energy after evaporation
8 = energy deposited by low-energy neutrons (kerma)
9 = energy of particles out of the time limit
10 = energy lost in endothermic nuclear reactions above 50 MeV
11 = energy lost in endothermic low-energy neutron reactions
12 = missing energy
- Energy or stars (depending on the generalised particle scoring
distribution) deposited or produced in each region during the
current history
- Random number generator information to be read in order to
reproduce the current sequence (skipping calls).
Example:
**** Event-Data ****
Energy deposition by protons in PbWO4
DATE: 1/ 5/ 5, TIME: 17:42:33
No. of regions. 3 No. of distr. scored 1
Event # 1
Primary Weight 1. Primary Energy 2. GeV
Contributions to the energy deposition
(GeV not normalised to the weight):
0.519268453 0.963951886 0.183623865 0. 0. 0.0999941751 0. 0.0797502846
0. 0. 0. 0.153411314
Generalised scoring distribution # 208
from first to last region:
0. 0.109102778 1.6374917
Seeds after event # 1
Event # 2
Primary Weight 1. Primary Energy 2. GeV
Contributions to the energy deposition
(GeV not normalised to the weight):
1.04533529 0.827161014 0.00902671926 0. 0. 0. 0. 0.0179061908 0. 0.
0. 0.100570783
Generalised scoring distribution # 208
from first to last region:
0. 0.00186400011 1.89756525
Seeds after event # 2
......................................................................................
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