Difference between revisions of "DV Creating LUND Files"
(→10\nu) |
(→10\nu) |
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This represents the squared 4-momentum-transfer vector q of the exchanged virtual photon. | This represents the squared 4-momentum-transfer vector q of the exchanged virtual photon. | ||
− | ==10<math>\nu</math>== | + | ==10:<math>\nu</math>== |
This represents the energy loss between scattering electrons. | This represents the energy loss between scattering electrons. | ||
− | <math>\nu = q \frac{p}{M}</math> | + | <math>\nu = q \frac{p\cdot q}{M}</math> |
=Writing LUND files= | =Writing LUND files= | ||
=Correct for vertex location= | =Correct for vertex location= |
Revision as of 17:39, 29 March 2016
The LUND format
Column | Quantity |
---|---|
Where
1:Number of Particles
This line tells how many particles follow the header line. For Moller Scattering, this number should always be 2.
2:Number of Target Nucleons
For this simulation, only an electron-electron collision is considered. This quantity is always set to 1 for the one stationary electron we consider the incident electron scattering from.
3:Number of Target Protons
For Moller Scattering, there are no target protons. This number is set to 1, but does not have any effect within the GEMC simulations.
4:Target Polarization
This represents the polarization of the target material, either positive or negative 1. This value is always set to 1 and has no effect within the GEMC simulations.
5:Beam Polarization
This represents the polarization of the electron beam, either negative or positive 1. This value is always set to positive 1.
6:x
This represents the Bjorken x scaling variable.
7:y
8:W
9:
This represents the squared 4-momentum-transfer vector q of the exchanged virtual photon.
10:
This represents the energy loss between scattering electrons.