A dark force for baryons
Abstract
We suggest the existence of a fundamental connection between baryonic and dark matter. This is motivated by both the stability of these two types of matter as well as the observed similarity of their present-day densities. A unified genesis of baryonic and dark matter is natural in models in which the baryon number is promoted to a spontaneously broken local gauge symmetry. This is illustrated in a specific class of SUSY models using the Affleck-Dine mechanism. The dark matter candidate in these scenarios is charged under the baryon gauge symmetry and must have a mass around the GeV scale to give the correct present-day abundance. We discuss constraints from B-factories, LEP, mono-jet searches at the Tevatron, and dark matter direct detection experiments. A baryonic dark force is shown to be consistent with all data for mediators as light as the GeV scale.
Keywords
Cite
@article{arxiv.1107.2666,
title = {A dark force for baryons},
author = {Michael L. Graesser and Ian M. Shoemaker and Luca Vecchi},
journal= {arXiv preprint arXiv:1107.2666},
year = {2011}
}
Comments
24 pages + appendices + references, 7 figures