Stochastic Inflationary Scalar Electrodynamics
Abstract
We stochastically formulate the theory of scalar quantum electrodynamics on a de Sitter background. This reproduces the leading infrared logarithms at each loop order. It also allows one to sum the series of leading infrared logarithms to obtain explicit, nonperturbative results about the late time behavior of the system. One consequence is confirmation of the conjecture by Davis, Dimopoulos, Prokopec and Tornkvist that super-horizon photons acquire mass during inflation. We compute a photon mass-suqared of about 3.2991 H^2. The scalar stays perturbatively light with a mass-squared of about 0.8961 3 e^2 H^2/8pi^2. Interestingly, the induced change in the cosmological constant is negative, of about -0.6551 3 G H^4/pi.
Keywords
Cite
@article{arxiv.0707.0847,
title = {Stochastic Inflationary Scalar Electrodynamics},
author = {T. Prokopec and N. C. Tsamis and R. P. Woodard},
journal= {arXiv preprint arXiv:0707.0847},
year = {2008}
}
Comments
52 pages, 7 figures, uses LaTeX 2epsilon, version 2 corrects eqn (138) and updates the reference list