Constraining the quintessential $\alpha$-attractor inflation through dynamical horizon exit method
Abstract
In the present paper, we perform a sub-Planckian quantum mode analysis of linear cosmological perturbation in the inflaton field over a classical quasi de-Siter metric background by dynamical horizon exit (DHE) method. In this way, we probe the inflationary regime of a quintessential -attractor model by analysing the COBE/Planck normalized power spectra, spectral indices, tensor to scalar ratio, number of e-folds, running of the spectral index and inflationary Hubble parameter in -space. We compare our results with ordinary -attractor and models and with that of Planck-2018 results. Our estimated values of and lie within CL with respect to Planck data for Mpc for all values of . The values, obtained in our calculations satisfy various post inflationary constraints regarding preheating and reheating, reported in current literature. We observe that quintessence sets an upper bound of and thereby restricts the model from becoming of the power law type, making it more efficacious than ordinary -attractors in explaining both inflation and dark energy. A striking observation in our analyses is that, unlike in our previous study, we find a continuous values of within for the specified range. At the end, we have shown that the model parameters constrained in this work give a very small vacuum density which is an essential criterion for current and future dark energy observations of the universe.
Keywords
Cite
@article{arxiv.2305.00230,
title = {Constraining the quintessential $\alpha$-attractor inflation through dynamical horizon exit method},
author = {Arunoday Sarkar and Buddhadeb Ghosh},
journal= {arXiv preprint arXiv:2305.00230},
year = {2023}
}
Comments
46 pages, 20 figures, 2 tables