Tabletop potentials for inflation from $f(R)$ gravity
Abstract
We show that a large class of modified gravity theories (MOG) with the Jordan-frame Lagrangian translate into scalar-field (scalaron) models with hilltop potentials in the Einstein frame. (A rare exception to this rule is provided by the Starobinsky model for which the corresponding scalaron potential is plateau-like for .) We find that MOG models featuring two distinct mass scales lead to scalaron potentials that have a flattened hilltop, or tabletop. Inflationary evolution in tabletop models agrees very well with CMB observations. Tabletop potentials therefore provide a new and compelling class of MOG-based inflationary models. By contrast, MOG models with a single mass scale generally correspond to steep hilltop potentials and fail to reproduce the CMB power spectrum. Inflationary evolution in hilltop/tabletop models can proceed in two alternative directions: towards the stable point at small describing the observable universe, or towards the asymptotic region at large . The MOG models which we examine have several new properties including the fact that gravity can become asymptotically vanishing, with , at infinite or large finite values of the scalar curvature . A universe evolving towards the asymptotically vanishing gravity region at large will either run into a 'Big-Rip' singularity, or inflate eternally.
Keywords
Cite
@article{arxiv.2210.01828,
title = {Tabletop potentials for inflation from $f(R)$ gravity},
author = {Yuri Shtanov and Varun Sahni and Swagat S. Mishra},
journal= {arXiv preprint arXiv:2210.01828},
year = {2023}
}
Comments
35 pages, 11 figures, revised version, some clarifications and additional references, matches published version in JCAP