Fluctuations in a Hořava-Lifshitz Bouncing Cosmology

Nov, 2009
19 pages
Published in:
  • JCAP 02 (2010) 020
e-Print:

Citations per year

2009201320172021202505101520
Abstract: (arXiv)
Ho\v{r}ava-Lifshitz gravity is a potentially UV complete theory with important implications for the very early universe. In particular, in the presence of spatial curvature it is possible to obtain a non-singular bouncing cosmology. The bounce is realized as a consequence of higher order spatial curvature terms in the gravitational action. Here, we extend the study of linear cosmological perturbations in Ho\v{r}ava-Lifshitz gravity coupled to matter in the case when spatial curvature is present. As in the case without spatial curvature, we find that there is no extra dynamical degree of freedom for scalar metric perturbations. We study the evolution of fluctuations through the bounce and show that the solutions remain non-singular throughout. If we start with quantum vacuum fluctuations on sub-Hubble scales in the contracting phase, and if the contracting phase is dominated by pressure-less matter, then for λ=1\lambda = 1 and in the infrared limit the perturbations at late times are scale invariant. Thus, Ho\v{r}ava-Lifshitz gravity can provide a realization of the ``matter bounce'' scenario of structure formation.
Note:
  • 19 pages
  • 98.80.Cq
  • gravitation: coupling
  • gravitation: action
  • fluctuation: vacuum
  • space-time: perturbation
  • curvature
  • bounce
  • higher-order
  • formation
  • infrared