Instrumental uncertainties in radiative corrections for the MUSE experiment

Author(s)

Li, L.; Strauch, S.; Bernauer, J. C.; Briscoe, W. J.; Christopher Ndukwe, A.; Cline, E.; Cohen, D.; Deiters, K.; Downie, E. J.; Fernando, I. P.; Flannery, A.; Gilman, R.; Ilieva, Y.; Kohl, M.; Lavrukhin, I.; Lin, W.; Lorenzon, W.; Lunkenheimer, S.; Mohanmurthy, P.; Nazeer, J.; ... Show more Show less

Abstract

The MUSE experiment at the Paul Scherrer Institute is measuring elastic lepton-proton scattering cross sections in a four-momentum transfer range from Q2 of approximately 0.002–0.08 GeV2 using positively and negatively charged electrons and muons. The extraction of the Born cross sections from the experimental data requires radiative corrections. Estimates of the instrumental uncertainties in those corrections have been made using the ESEPP event generator. The results depend in particular on the minimum lepton momentum that contributes to the experimental cross section and the fraction of events with hard initial-state radiation that is detected in the MUSE calorimeter and is excluded from the data. These results show that the angular-dependent instrumental uncertainties in radiative corrections to the electron cross section are less than 0.4% and are negligible for the muon cross section.

Date issued

2024-01-10

URI

https://hdl.handle.net/1721.1/159159

Department

Massachusetts Institute of Technology. Laboratory for Nuclear Science

Journal

The European Physical Journal A

Publisher

Springer Berlin Heidelberg

Citation

Li, L., Strauch, S., Bernauer, J.C. et al. Instrumental uncertainties in radiative corrections for the MUSE experiment. Eur. Phys. J. A 60, 8 (2024).

Version: Author's final manuscript