Cosmology with positive and negative exponential potentials
摘要
We present a phase-plane analysis of cosmologies containing a scalar field with an exponential potential where and may be positive or negative. We show that power-law kinetic-potential scaling solutions only exist for sufficiently flat () positive potentials or steep () negative potentials. The latter correspond to a class of ever-expanding cosmologies with negative potential. However we show that these expanding solutions with a negative potential are to unstable in the presence of ordinary matter, spatial curvature or anisotropic shear, and generic solutions always recollapse to a singularity. Power-law kinetic-potential scaling solutions are the late-time attractor in a collapsing universe for steep negative potentials (the ekpyrotic scenario) and stable against matter, curvature or shear perturbations. Otherwise kinetic-dominated solutions are the attractor during collapse (the pre big bang scenario) and are only marginally stable with respect to anisotropic shear.
引用
@article{arxiv.gr-qc/0206085,
title = {Cosmology with positive and negative exponential potentials},
author = {Imogen P. C. Heard and David Wands},
journal= {arXiv preprint arXiv:gr-qc/0206085},
year = {2009}
}
备注
8 pages, latex with revtex, 9 figures