GUT-scale inflation with sizeable tensor modes
Abstract
A sizeable tensor-to-scalar ratio, such as recently claimed by BICEP2, would imply a scale of inflation at the typical scale of supersymmetric grand unification. This could be an accident, or strong support for supersymmetric theories. Models of F-term hybrid inflation naturally connect the GUT scale with the inflationary scale, but they also predict the tensor-to-scalar ratio to be unmeasurably small. In this work we analyze a general UV embedding of F-term hybrid inflation into a supergravity theory with a general Kahler potential. The CMB observables are generated during the early phase of inflation, at large inflaton values, where the potential is dominated by Planck-suppressed operators. Tuning the leading higher-order terms can give an inflaton potential with sizeable tensor fluctuations and a field excursion which is still sub-Planckian but close to the Planck scale, as expected from the Lyth bound.
Cite
@article{arxiv.1405.4868,
title = {GUT-scale inflation with sizeable tensor modes},
author = {Felix Brummer and Valerie Domcke and Veronica Sanz},
journal= {arXiv preprint arXiv:1405.4868},
year = {2015}
}
Comments
15 pages, 3 figures; v2: matches journal version