Sensitivity of an early dark matter search using the electromagnetic calorimeter as a target for the Light Dark Matter eXperiment
/ Authors
T. Åkesson, E. Berzin, C. Bravo, Liam Brennan, L. Bryngemark, P. Butti, Filippo Delzanno, E. Dukes, V. Dutta, B. Echenard
and 45 more authors
Ralf Ehrlich, Thomas Eichlersmith, Einar El'en, A. Furmanski, Victor Gomez, Matt Graham, C. Grieco, Craig Group, H. Herde, C. Herwig, D. Hitlin, T. Horoho, J. Incandela, Nathan Jay, A. Jige, Wesley Ketchum, G. Krnjaic, A. Li, Zihan Ma, Jeremiah Mans, C. Mantilla Suárez, Sanjit Masanam, P. Masterson, S. Metallo, Sophie Middleton, Joseph Muse, T. Nelson, Rory O’Dwyer, J. Oyang, Jessica Pascadlo, Emrys Peets, Luis Sarmiento Pico, R. Pöttgen, P. Schuster, Chris Sellgren, Lauren Tompkins, N. Toro, N. Tran, T. Vámi, Erik Wallin, Yuxuan Wang, A. Whitbeck, D. Wilmot, Xinyi Xu, Danyi Zhang
/ Abstract
The Light Dark Matter eXperiment (LDMX) is proposed to employ a thin tungsten target and a multi-GeV electron beam to carry out a missing momentum search for the production of dark matter candidate particles. We study the sensitivity for a complementary missing-energy-based search using the LDMX Electromagnetic Calorimeter as an active target with a focus on early running. In this context, we construct an event selection from a limited set of variables that projects sensitivity into previously-unexplored regions of light dark matter phase space — down to an effective dark photon interaction strength y of approximately 2 × 10−13 (5 × 10−12) for a 1 MeV (10 MeV) dark matter candidate mass.
Journal: Journal of High Energy Physics