Dark Energy Radiation
Abstract
We show that if dark energy evolves in time, its dynamical component could be dominated by a bath of dark radiation. Within current constraints this radiation could have up to times more energy density than the cosmic microwave background. We demonstrate particular models in which a rolling scalar field generates different forms of dark radiation such as hidden photons, milli-charged particles and even Standard Model neutrinos. We find the leading effect on the late-time cosmological expansion history depends on a single parameter beyond CDM, namely the temperature of the dark radiation today. Cosmological observations of this modified expansion rate could provide a striking signature of this scenario. The dark radiation itself could even be directly detectable in laboratory experiments, suggesting a broader experimental program into the nature of dark energy.
Cite
@article{arxiv.2012.10549,
title = {Dark Energy Radiation},
author = {Kim V. Berghaus and Peter W. Graham and David E. Kaplan and Guy D. Moore and Surjeet Rajendran},
journal= {arXiv preprint arXiv:2012.10549},
year = {2021}
}
Comments
12 pages, 1 Figure