Can dark energy be decaying?
摘要
We explore the fate of the universe given the possibility that the density associated with `dark energy' may decay slowly with time. Decaying dark energy is modeled by a homogeneous scalar field which couples minimally to gravity and whose potential has {\em at least one} local quadratic maximum. Dark energy decays as the scalar field rolls down its potential, consequently the current acceleration epoch is a transient. We examine two models of decaying dark energy. In the first, the dark energy potential is modeled by an analytical form which is generic close to the potential maximum. The second potential is the cosine, which can become negative as the field evolves, ensuring that a spatially flat universe collapses in the future. We examine the feasibility of both models using observations of high redshift type Ia supernovae. A maximum likelihood analysis is used to find allowed regions in the plane ( is the tachyon mass modulus and the initial scalar field value; and by order of magnitude). For the first model, the time for the potential to drop to half its maximum value is larger than Gyrs. In the case of the cosine potential, the time left until the universe collapses is always greater than Gyrs (both estimates are presented for , , km/sec/Mpc, and at the 95.4% confidence level).
引用
@article{arxiv.astro-ph/0302302,
title = {Can dark energy be decaying?},
author = {Ujjaini Alam and Varun Sahni and A. A. Starobinsky},
journal= {arXiv preprint arXiv:astro-ph/0302302},
year = {2009}
}
备注
13 pages, 5 figures. References revised and updated. Small changes in figures and text, main results unchanged, slight change in title. Revised version accepted for publication in JCAP