Difference between revisions of "Private:Student Projects"
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| − | + | * Determine the Probability Density Function (PDF) of the dark scalar gauge boson, S, for the process gamma proton -> eta + proton, eta -> S + pi0, S -> gamma gamma. Since the hypothetical S mass is unknown, the PDF has to be determined for all masses between ~ a few MeV/c^2 and ~ 420 MeV/c^2 scannable by JEF. This can be done in 3 steps: | |
| − | + | # Determine PDF for fixed masses from histograms I will provide | |
| − | # | + | # Parametrize the PDF vs mass and possibly vs incident photon-beam energy |
| − | # | + | # Toy Monte Carlo simulation study to show that the model is not introducing biases for our observables#:<br> |
| − | # | + | |
</div> | </div> | ||
</div> | </div> | ||
Revision as of 22:06, 21 July 2020
Project 1
Student Project 1 (Click "Expand" to the right for more details -->):
- Determine the Probability Density Function (PDF) of the dark scalar gauge boson, S, for the process gamma proton -> eta + proton, eta -> S + pi0, S -> gamma gamma. Since the hypothetical S mass is unknown, the PDF has to be determined for all masses between ~ a few MeV/c^2 and ~ 420 MeV/c^2 scannable by JEF. This can be done in 3 steps:
- Determine PDF for fixed masses from histograms I will provide
- Parametrize the PDF vs mass and possibly vs incident photon-beam energy
- Toy Monte Carlo simulation study to show that the model is not introducing biases for our observables#:
