Dark hyperCharge Symmetry
Abstract
We introduce a new class of symmetries where all Standard Model fermions are ``chiral," i.e., the left- and right-handed components have different charges under the symmetry. Gauge anomaly cancellation is achieved by introducing three Standard Model gauge singlet dark fermions (; ) charged under this symmetry. We systematically present chiral solutions for cases in which (a) one, (b) two, or (c) all three generations of Standard Model fermions are charged under the symmetry. The charges of these dark fermions are uniquely determined by anomaly cancellation conditions. These new fermions belong to the dark sector, with the lightest of them being a good dark matter candidate. Additionally, the gauge boson mediates interactions between the dark and visible sectors, and we call this symmetry as the ``dark hyperCharge" symmetry. Using a benchmark model, we explore phenomenological implications in the heavy case (), analyzing collider constraints and examining the lightest dark fermion's viability as dark matter. Our analysis shows that it satisfies all current dark matter constraints over a wide range of dark matter mass.
Keywords
Cite
@article{arxiv.2411.02512,
title = {Dark hyperCharge Symmetry},
author = {Hemant Prajapati and Rahul Srivastava},
journal= {arXiv preprint arXiv:2411.02512},
year = {2026}
}
Comments
37 pages, 12 figures, 5 tables, matches with accepted PRD version