Probing conversion-driven freeze-out at the LHC
Abstract
Conversion-driven freeze-out is an appealing mechanism to explain the observed relic density while naturally accommodating the null-results from direct and indirect detection due to a very weak dark matter coupling. Interestingly, the scenario predicts long-lived particles decaying into dark matter with lifetimes favorably coinciding with the range that can be resolved at the LHC. However, the small mass splitting between the long-lived particle and dark matter renders the visible decay products soft, challenging current search strategies. We consider four different classes of searches covering the entire range of lifetimes: heavy stable charge particles, disappearing tracks, displaced vertices, and missing energy searches. We discuss the applicability of these searches to conversion-driven freeze-out and derive current constraints highlighting their complementarity. For the displaced vertices search, we demonstrate how a slight modification of the current analysis significantly improves its sensitivity to the scenario.
Cite
@article{arxiv.2404.16086,
title = {Probing conversion-driven freeze-out at the LHC},
author = {Jan Heisig and Andre Lessa and Lucas Magno D. Ramos},
journal= {arXiv preprint arXiv:2404.16086},
year = {2024}
}
Comments
12 pages + references, 11 figures. v2: Appendix B added, minor corrections in CMS DT analysis; matches published version