Inflationary dynamics in modified gravity models
Abstract
Higher-order theories of gravity are a branch of modified gravity wherein the geometrodynamics of the four-dimensional Riemannian manifold is determined by field equations involving derivatives of the metric tensor of order higher than two. This paper considers a general action built with the Einstein-Hilbert term plus additional curvature-based invariants, viz. the Starobinsky -type term, a term scaling with , and a correction of the type . The focus is on the background inflationary regime accommodated by these three models. For that, the higher-order field equations are built and specified for the FLRW line element. The dynanical analysis in the phase space is carried in each case. This analysis shows that the Starobinsky-plus- model keeps the good features exhibited by the pure Starobinsky inflationary model, although the set of initial conditions for the inflaton field leading to a graceful exit scenario is more contrived; the coupling constant of the invariant is also constrained by the dynamical analysis. The Starobinsky-plus- model turns out being a double-field inflation model; it consistently enables an almost-exponential primordial acceleration followed by a radiation dominated universe if its coupling takes values in the interval . The models introducing higher-order correction to Starobinsky inflation are interesting due to the possibility of a running spectral index , something that is allowed by current CMB observations.
Keywords
Cite
@article{arxiv.2404.11904,
title = {Inflationary dynamics in modified gravity models},
author = {R. R. Cuzinatto and L. G. Medeiros},
journal= {arXiv preprint arXiv:2404.11904},
year = {2024}
}
Comments
11 pages, 4 figures. Chapter in: "Tribute to Ruben Aldrovandi", F. Caruso, J.G. Pereira, A. Santoro (eds.) (Editora Livraria da F\'isica, S\~ao Paulo, 2024), pages 135-151