Minicharged Particles at Accelerators: Progress and Prospects
Abstract
Minicharged particles (mCPs), hypothetical free particles with effective electric charges much smaller than the elementary charge, , offer a valuable probe of dark sectors and fundamental physics through several clear experimental signatures. Various models of physics beyond the Standard Model predict such particles, the existence of which could help elucidate the ongoing mysteries regarding electric charge quantization and the nature of dark matter. Moreover, a hypothetical scenario involving a small minicharged subcomponent of dark matter has recently been demonstrated as a viable explanation of the anomaly in the 21 cm hydrogen absorption signal reported by the EDGES collaboration. Although several decades of indirect observations and direct experimental searches for mCPs at particle accelerators have led to severe constraints, a substantial window of the mCP massmixing parameter space remains unexplored at the energy frontier accessible to current state-of-the-art accelerators, such as the Large Hadron Collider (LHC). Consequently, mCPs have remained topical over the years, and new experimental searches at accelerators have been gaining interest. In this article, we review the theoretical frameworks in which mCPs emerge and their phenomenological implications, the current direct and indirect constraints on mCPs, and the present state of the ongoing and upcoming searches for mCPs at particle accelerators.
Keywords
Cite
@article{arxiv.2307.07855,
title = {Minicharged Particles at Accelerators: Progress and Prospects},
author = {Marc de Montigny and Pierre-Philippe A. Ouimet and James Pinfold and Ameir Shaa and Michael Staelens},
journal= {arXiv preprint arXiv:2307.07855},
year = {2026}
}
Comments
22 pages, 3 figures. Paper accepted for publication in the European Physical Journal ST issue titled The MoEDAL-MAPP Experiment $\unicode{x2014}$ The LHC's First Dedicated Search Experiment for BSM Physics