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Auteurs principaux: Berera, Arjun, Brahma, Suddhasattwa, Qiu, Zizang, Ramos, Rudnei O., Rodrigues, Gabriel S.
Format: Preprint
Publié: 2025
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Accès en ligne:https://arxiv.org/abs/2504.02655
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author Berera, Arjun
Brahma, Suddhasattwa
Qiu, Zizang
Ramos, Rudnei O.
Rodrigues, Gabriel S.
author_facet Berera, Arjun
Brahma, Suddhasattwa
Qiu, Zizang
Ramos, Rudnei O.
Rodrigues, Gabriel S.
contents The recently released data from the $\textit{Atacama Cosmology Telescope}$ (ACT) confirms that the primordial scalar spectrum is extremely flat. This, together with current upper bounds on the tensor-to-scalar ratio, implies that the simplest models of inflation coming from particle physics (for instance, a minimally-coupled scalar with monomial potentials) need additional ingredients in order to make them compatible with observations. Instead of invoking arbitrary new couplings or new interactions that are not protected symmetries, we argue that dissipation of the inflaton field with the radiation bath should be added as a new physical principle. Accordingly, we show that warm inflation provides the correct paradigm to explain the current observations, given very natural choices of dissipative terms. The model analyzed here has mirror and $Z_4$ symmetries, which explicitly protect the inflaton potential from large quantum and thermal corrections. We use a recent precision numerical code designed for warm inflationary perturbations, improving on the determination of the cosmological observables previously obtained for such models.
format Preprint
id arxiv_https___arxiv_org_abs_2504_02655
institution arXiv
publishDate 2025
record_format arxiv
spellingShingle The early universe is $\textit{ACT}$-ing $\textit{warm}$
Berera, Arjun
Brahma, Suddhasattwa
Qiu, Zizang
Ramos, Rudnei O.
Rodrigues, Gabriel S.
High Energy Physics - Theory
Cosmology and Nongalactic Astrophysics
General Relativity and Quantum Cosmology
The recently released data from the $\textit{Atacama Cosmology Telescope}$ (ACT) confirms that the primordial scalar spectrum is extremely flat. This, together with current upper bounds on the tensor-to-scalar ratio, implies that the simplest models of inflation coming from particle physics (for instance, a minimally-coupled scalar with monomial potentials) need additional ingredients in order to make them compatible with observations. Instead of invoking arbitrary new couplings or new interactions that are not protected symmetries, we argue that dissipation of the inflaton field with the radiation bath should be added as a new physical principle. Accordingly, we show that warm inflation provides the correct paradigm to explain the current observations, given very natural choices of dissipative terms. The model analyzed here has mirror and $Z_4$ symmetries, which explicitly protect the inflaton potential from large quantum and thermal corrections. We use a recent precision numerical code designed for warm inflationary perturbations, improving on the determination of the cosmological observables previously obtained for such models.
title The early universe is $\textit{ACT}$-ing $\textit{warm}$
topic High Energy Physics - Theory
Cosmology and Nongalactic Astrophysics
General Relativity and Quantum Cosmology
url https://arxiv.org/abs/2504.02655