Dark Sector Physics at High-Intensity Experiments
Abstract
Is Dark Matter part of a Dark Sector? The possibility of a dark sector neutral under Standard Model (SM) forces furnishes an attractive explanation for the existence of Dark Matter (DM), and is a compelling new-physics direction to explore in its own right, with potential relevance to fundamental questions as varied as neutrino masses, the hierarchy problem, and the Universe's matter-antimatter asymmetry. Because dark sectors are generically weakly coupled to ordinary matter, and because they can naturally have MeV-to-GeV masses and respect the symmetries of the SM, they are only mildly constrained by high-energy collider data and precision atomic measurements. Yet upcoming and proposed intensity-frontier experiments will offer an unprecedented window into the physics of dark sectors, highlighted as a Priority Research Direction in the 2018 Dark Matter New Initiatives (DMNI) BRN report. Support for this program -- in the form of dark-sector analyses at multi-purpose experiments, realization of the intensity-frontier experiments receiving DMNI funds, an expansion of DMNI support to explore the full breadth of DM and visible final-state signatures (especially long-lived particles) called for in the BRN report, and support for a robust dark-sector theory effort -- will enable comprehensive exploration of low-mass thermal DM milestones, and greatly enhance the potential of intensity-frontier experiments to discover dark-sector particles decaying back to SM particles.
Cite
@article{arxiv.2209.04671,
title = {Dark Sector Physics at High-Intensity Experiments},
author = {Stefania Gori and Mike Williams and Phil Ilten and Nhan Tran and Gordan Krnjaic and Natalia Toro and Brian Batell and Nikita Blinov and Christopher Hearty and Robert McGehee and Philip Harris and Philip Schuster and Jure Zupan},
journal= {arXiv preprint arXiv:2209.04671},
year = {2022}
}
Comments
Report of the RF6 Topical Group for Snowmass 2021