Inflationary $\alpha$-attractor cosmology: A global dynamical systems perspective
Abstract
We study flat FLRW -attractor - and -models by introducing a dynamical systems framework that yields regularized unconstrained field equations on two-dimensional compact state spaces. This results in both illustrative figures and a complete description of the entire solution spaces of these models, including asymptotics. In particular, it is shown that observational viability, which requires a sufficient number of -folds, is associated with a solution given by a one-dimensional center manifold of a past asymptotic de Sitter state, where the center manifold structure also explains why nearby solutions are attracted to this `inflationary attractor solution.' A center manifold expansion yields a description of the inflationary regime with arbitrary analytic accuracy, where the slow-roll approximation asymptotically describes the tangency condition of the center manifold at the asymptotic de Sitter state.
Cite
@article{arxiv.1702.00306,
title = {Inflationary $\alpha$-attractor cosmology: A global dynamical systems perspective},
author = {Artur Alho and Claes Uggla},
journal= {arXiv preprint arXiv:1702.00306},
year = {2017}
}
Comments
15 pages, 11 figures. Matches published version