English

Accelerated FRW Solutions in Chern-Simons Gravity

General Relativity and Quantum Cosmology 2014-10-16 v3 High Energy Physics - Theory

Abstract

We consider a five-dimensional Einstein-Chern-Simons action which is composed of a gravitational sector and a sector of matter, where the gravitational sector is given by a Chern-Simons gravity action instead of the Einstein-Hilbert action and where the matter sector is given by the so called perfect fluid. It is shown that (i) the Einstein-Chern-Simons (EChS) field equations subject to suitable conditions can be written in a similar way to the Einstein-Maxwell field equations; (ii) these equations have solutions that describe accelerated expansion for the three possible cosmological models of the universe, namely, spherical expansion, flat expansion and hyperbolic expansion when α\alpha , a parameter of theory, is greater than zero. This result allow us to conjeture that this solutions are compatible with the era of Dark Energy and that the energy-momentum tensor for the field hah^{a}, a bosonic gauge field from the Chern-Simons gravity action, corresponds to a form of positive cosmological constant. It is also shown that the EChS field equations have solutions compatible with the era of matter: (i) In the case of an open universe, the solutions correspond to an accelerated expansion (α>0\alpha >0) with a minimum scale factor at initial time that, when the time goes to infinity, the scale factor behaves as a hyperbolic sine function. (ii) In the case of a flat universe, the solutions describing an accelerated expansion whose scale factor behaves as a exponencial function when time grows. \item In the case of a closed universe it is found only one solution for a universe in expansion, which behaves as a hyperbolic cosine function when time grows.

Keywords

Cite

@article{arxiv.1401.2128,
  title  = {Accelerated FRW Solutions in Chern-Simons Gravity},
  author = {Juan Crisostomo and Fernando Gomez and Patricio Salgado and Cristian Quinzacara and Mauricio Cataldo and Sergio del Campo},
  journal= {arXiv preprint arXiv:1401.2128},
  year   = {2014}
}

Comments

58 pages, 24 figures

R2 v1 2026-06-22T02:42:23.929Z