Starobinsky-Type Inflation from $\alpha'$-Corrections
Abstract
Working in the Large Volume Scenario (LVS) of IIB Calabi-Yau flux compactifications, we construct inflationary models from recently computed higher derivative -corrections. Inflation is driven by a Kaehler modulus whose potential arises from the aforementioned corrections, while we use the inclusion of string loop effects just to ensure the existence of a graceful exit when necessary. The effective inflaton potential takes a Starobinsky-type form , where we obtain one set-up with and one with corresponding to inflation occurring for increasing or decreasing respectively. The inflationary observables are thus in perfect agreement with PLANCK, while the two scenarios remain observationally distinguishable via slightly varying predictions for the tensor-to-scalar ratio . Both set-ups yield . They hence realise inflation with moderately large fields without saturating the Lyth bound. Control over higher corrections relies in part on tuning underlying microscopic parameters, and in part on intrinsic suppressions. The intrinsic part of control arises as a leftover from an approximate effective shift symmetry at parametrically large volume.
Keywords
Cite
@article{arxiv.1509.00024,
title = {Starobinsky-Type Inflation from $\alpha'$-Corrections},
author = {Benedict J. Broy and David Ciupke and Francisco G. Pedro and Alexander Westphal},
journal= {arXiv preprint arXiv:1509.00024},
year = {2016}
}
Comments
29 pages, 6 figures; v2: clarifications and refs added