Domain Wall Formation In The Post-Inflationary Universe
arXiv:hep-ph/9303250 · doi:10.1016/0370-2693(93)91130-F
Abstract
We consider the evolution of the probability distribution $\pp (Ï,\chib, \t)$, associated with an inhomogeneous light scalar field $Ï$ in the Robertson-Walker Universe, where the inhomogeneities are produced by quantum fluctuations during an earlier inflationary epoch. For a specific choice of scalar potential which occurs in models of so called late-time phase transitions in which domain walls are produced, $\pp$ is shown to evolve from a Gaussian to a non-Gaussian distribution. The structure of the latter justifies the recent use of 3-dimensional percolation theory to describe the initial distribution of domain walls in these models.
12pages