Cosmological $\alpha'$-corrections from the functional renormalization group
Abstract
We employ the techniques of the Functional Renormalization Group in string theory, in order to derive an effective mini-superspace action for cosmological backgrounds to all orders in the string scale . To this end, T-duality plays a crucial role, classifying all perturbative curvature corrections in terms of a single function of the Hubble parameter. The resulting renormalization group equations admit an exact, albeit non-analytic, solution in any spacetime dimension , which is however incompatible with Einstein gravity at low energies. Within an -expansion about , we also find an analytic solution which exhibits a non-Gaussian ultraviolet fixed point with positive Newton coupling, as well as an acceptable low-energy limit. Yet, within polynomial truncations of the full theory space, we find no evidence for an analog of this solution in . Finally, we comment on potential cosmological implications of our findings.
Cite
@article{arxiv.2101.02226,
title = {Cosmological $\alpha'$-corrections from the functional renormalization group},
author = {Ivano Basile and Alessia Platania},
journal= {arXiv preprint arXiv:2101.02226},
year = {2021}
}
Comments
31 pages, 9 figures. V2: References added and minor modifications. Matches published version