Inflation from Dynamical Projective Connections
Abstract
We show how the recently developed string-inspired, projectively-invariant gravitational model Thomas-Whitehead gravity (TW gravity) naturally gives rise to a field acting as the inflaton. In the formulation of TW gravity, a field is introduced into the projective connection components and is related to a rank-two tensor field . Through the dynamical action of TW gravity, in terms of projective curvature, the tensor field acquires dynamics. By decomposing into its trace and traceless degrees of freedom, and choosing the connection to be Levi-Civita, we demonstrate that TW gravity contains a non-minimally coupled scalar field with a specific potential. Considering only the trace degrees of freedom, we demonstrate that the scalar field acts as an inflaton in the slow roll approximation. We find a range of values for the parameters introduced by TW gravity that fit the experimental constraints of the most recent cosmological data.
Keywords
Cite
@article{arxiv.2203.04435,
title = {Inflation from Dynamical Projective Connections},
author = {Muhammad Abdullah and Calvin Bavor and Biruk Chafamo and Xiaole Jiang and Muhammad Hamza Kalim and Kory Stiffler and Catherine A. Whiting},
journal= {arXiv preprint arXiv:2203.04435},
year = {2025}
}
Comments
39 pages, 9 figures, added background material on coadjoint orbits of Virasoro algebra that demonstrates the string-inspired nature of the model, made various minor edits and corrections