Dark Matter From Weak Polyplets
Abstract
The addition of new multiplets of fermions charged under the Standard Model gauge group is investigated, with the aim of identifying a possible dark matter candidate. These fermions are charged under , and their quantum numbers are determined by requiring all new particles to obtain masses via Yukawa couplings and all triangle anomalies to cancel as in the Standard Model; more than one multiplet is required and we refer to such a set of these multiplets as a polyplet. For sufficiently large multiplets, the stability of the dark matter candidate is ensured by an accidental symmetry; for clarity, however, we introduce a model with a particularly simple polyplet structure and stabilize the dark matter by imposing a new discrete symmetry. We then explore the features of this model; constraints from colliders, electroweak precision measurements, the dark matter relic density, and direct detection experiments are considered. We find that the model can accommodate a viable dark matter candidate for large Higgs boson masses; for GeV, a subdominant contribution to the dark matter relic density can be achieved.
Cite
@article{arxiv.1207.0510,
title = {Dark Matter From Weak Polyplets},
author = {Andre de Gouvea and Wei-Chih Huang and Jennifer Kile},
journal= {arXiv preprint arXiv:1207.0510},
year = {2012}
}
Comments
v2: Updated to reflect latest Xenon100 and LHC Higgs results, small changes in discussion of resonant annihilation, added comments on possibility of subdominant DM contribution; 23 pages, 5 figures