Difference between revisions of "Description of output files"
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− | The data is printed in Matlab format in two variabls: string array "nuc", which contains the nuclide identifiers (ZA.id), and table "rr", consisting | + | The data is printed in Matlab format in two variabls: string array "nuc", which contains the nuclide identifiers (ZA.id), and table "rr", consisting one row for each reaction and 7 columns: |
# Nuclide index corresponding to the entries in the nuc array | # Nuclide index corresponding to the entries in the nuc array | ||
# [[ENDF reaction MT's and macroscopic reaction numbers|Reaction mt]] | # [[ENDF reaction MT's and macroscopic reaction numbers|Reaction mt]] | ||
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# Reaction rate | # Reaction rate | ||
# Relative statistical error of reaction rate | # Relative statistical error of reaction rate | ||
+ | |||
+ | [u]notes:[/u] | ||
+ | *The values are microscopic reaction rates integrated over all materials and energies. | ||
+ | *In photon transport mode |
Revision as of 12:47, 21 November 2015
Reaction rate output
Calculation of analog reaction rates by counting the number of sampled interactions is invoked using the set arr option. The output is printed in file:
<input>_arr<bi>.m
where:
<input> | : is the name of the input file |
<bi> | : is the burnup index (zero for first step or if no burnup calculation is run) |
The data is printed in Matlab format in two variabls: string array "nuc", which contains the nuclide identifiers (ZA.id), and table "rr", consisting one row for each reaction and 7 columns:
- Nuclide index corresponding to the entries in the nuc array
- Reaction mt
- Nuclide ZAI
- Minimum energy of the reaction mode
- Maximum energy of the reaction mode
- Reaction rate
- Relative statistical error of reaction rate
[u]notes:[/u]
- The values are microscopic reaction rates integrated over all materials and energies.
- In photon transport mode