Late-time Cosmic Acceleration from Compactification
Abstract
We investigate the implications of energy conditions on cosmological compactification solutions of the higher-dimensional Einstein field equations. It is known that the Strong Energy Condition forbids time-independent compactifications to de Sitter space but allows time-dependent compactifications to other (homogeneous and isotropic) expanding universes that undergo a {\it transient} period of acceleration. Here we show that the same assumptions allow compactification to FLRW universes undergoing {late-time} accelerated expansion; the late-time stress tensor is a perfect fluid but with a lower bound on the pressure/energy-density ratio that excludes de Sitter but allows accelerated power-law expansion. The compact space undergoes a decelerating expansion that leads to decompactification, but on an arbitrarily long timescale.
Keywords
Cite
@article{arxiv.1811.03660,
title = {Late-time Cosmic Acceleration from Compactification},
author = {J. G. Russo and P. K. Townsend},
journal= {arXiv preprint arXiv:1811.03660},
year = {2019}
}
Comments
23 pages. New subsections and references added