The Non-Minimal Ekpyrotic Trispectrum
Abstract
Employing the covariant formalism, we derive the evolution equations for two scalar fields with non-canonical field space metric up to third order in perturbation theory. These equations can be used to derive predictions for local bi- and trispectra of multi-field cosmological models. Our main application is to ekpyrotic models in which the primordial curvature perturbations are generated via the non-minimal entropic mechanism. In these models, nearly scale-invariant entropy perturbations are generated first due to a non-minimal kinetic coupling between two scalar fields, and subsequently these perturbations are converted into curvature perturbations. Remarkably, the entropy perturbations have vanishing bi- and trispectra during the ekpyrotic phase. However, as we show, the conversion process to curvature perturbations induces local non-Gaussianity parameters and at levels that should be detectable by near-future observations. In fact, in order to obtain a large enough amplitude and small enough bispectrum of the curvature perturbations, as seen in current measurements, the conversion process must be very efficient. Interestingly, for such efficient conversions the trispectrum parameter remains negative and typically of a magnitude resulting in a distinguishing feature of non-minimally coupled ekpyrotic models.
Cite
@article{arxiv.1510.03439,
title = {The Non-Minimal Ekpyrotic Trispectrum},
author = {Angelika Fertig and Jean-Luc Lehners},
journal= {arXiv preprint arXiv:1510.03439},
year = {2016}
}
Comments
47 pages, 7 figures