Light scalars on cosmological backgrounds
Abstract
We study the behaviour of a light quartically self-interacting scalar field on curved backgrounds that may be described with the cosmological equation state parameter . At leading order in the non-perturbative 2PI expansion we find a general formula for the variance and show for several previously unexplored cases, including matter domination and kination, that the curvature of space can induce a significant excitation of the field. We discuss how the generation of a non-zero variance for can be understood as a process of self-regulation of the infrared divergences very similarly to what is known to occur in de Sitter space. To conclude, the appearance of an effective mass due to self-interaction is generic for a light scalar in curved space and can have important implications for reheating, vacuum stability and dark matter generation.
Cite
@article{arxiv.1711.07502,
title = {Light scalars on cosmological backgrounds},
author = {Tommi Markkanen},
journal= {arXiv preprint arXiv:1711.07502},
year = {2018}
}
Comments
16 pages, 1 figure. v2: 18 pages with expanded discussion, improved structure and updated references. v3: several improvements and updated references, to be published in JHEP