@misc{10481/60169,
year = {2019},
month = {5},
url = {http://hdl.handle.net/10481/60169},
abstract = {We study the dynamics and observational predictions of warm inflation within a supersymmetric
distributed mass model. This dissipative mechanism is well described by the interactions between the
inflaton and a tower of chiral multiplets with a mass gap, such that different bosonic and fermionic fields
become light as the inflaton scans the tower during inflation. We examine inflation for various mass
distributions, analyzing in detail the dynamics and observational predictions. We show, in particular, that
warm inflation can be consistently realized in this scenario for a broad parametric range and in excellent
agreement with the Planck legacy data. Distributed mass models can be viewed as realizations of the
landscape property of string theory, with the mass distributions coming from the underlying spectra of the
theory, which themselves would be affected by the vacuum of the theory.We discuss the recently proposed
swampland criteria for inflation models on the landscape and analyze the conditions under which they can
be met within the distributed mass warm inflation scenario.We demonstrate mass distribution models with
a range of consistency with the swampland criteria including cases in excellent consistency.},
organization = {R. H.-J. acknowledges CONACyT for financial support.
A. B. is supported by STFC.M. B.-G. is partially supported by
MINECO GrantNo. FIS2016-7819-P and Junta deAndalucía
Project No. FQM-101. J. G. R. is supported by the FCT
Investigator Grant No. IF/01597/2015, partially by the
H2020-MSCA-RISE-2015 Grant No. StronGrHEP-690904,
and by the Centro de Investigação e Desenvolvimento em
Matemática e Aplicações Project No. UID/MAT/04106/2019.},
publisher = {American Physical Society},
title = {Warm inflation within a supersymmetric distributed mass model},
doi = {10.1103/PhysRevD.99.103520},
author = {Bastero Gil, Mar and Berera, Arjun and Hernández Jiménez, Rafael and Rosa, João G.},
}