Viscous Cosmologies
Abstract
We probe into universes filled with Quark Gluon Plasma with non-zero viscosities. In particular, we study the evolution of a universe with non-zero shear viscosity motivated by the theoretical result of a non-vanishing shear viscosity in the Quark Gluon Plasma due to quantum-mechanical effects. We first review the consequences of a non-zero bulk viscosity and show explicitly the non-singular nature of the bulk-viscosity-universe by calculating the cosmological scale factor which goes to zero only asymptotically. We further extend the model of bulk viscosity to include a Cosmological Constant. We contrast the previous results with the cosmology of universes with non-zero shear viscosity. We first clarify under which conditions shear viscosity terms are compatible with the Friedmann-Lama\^itre-Robertson-Walker metric. To this end we use a version of the energy-momentum tensor from the M\"uller-Isreal-Stewart theory which leads to causal Navier-Stoke equations. We then derive the corresponding Friedmann equations and show under which conditions the universe emerges non-singular.
Keywords
Cite
@article{arxiv.1901.09787,
title = {Viscous Cosmologies},
author = {Sergio Bravo Medina and Marek Nowakowski and Davide Batic},
journal= {arXiv preprint arXiv:1901.09787},
year = {2019}
}
Comments
49 pages, 18 figures