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Main Authors: Kim, Jinsu, Yang, Zihao, Zhang, Ying-li
Format: Preprint
Published: 2025
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Online Access:https://arxiv.org/abs/2503.16907
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author Kim, Jinsu
Yang, Zihao
Zhang, Ying-li
author_facet Kim, Jinsu
Yang, Zihao
Zhang, Ying-li
contents We present a comprehensive analysis of the preheating dynamics and associated gravitational wave signatures in the Higgs--$R^2$ inflationary model. Using lattice simulations, we investigate the post-inflationary evolution of the system across the parameter space, covering both the Higgs-like and $R^2$-like scenarios. We demonstrate that the efficiency of preheating is significantly dependent on the nonminimal coupling parameter $ξ$. As the $ξ$ parameter increases, moving from the $R^2$-like regime to the Higgs-like regime, we observe more efficient preheating. Through detailed numerical computations, efficient preheating is shown to lead to stronger gravitational wave production. The amplitude of the gravitational wave spectrum varies by several orders of magnitude as we move from the $R^2$-like regime to the Higgs-like regime. The resultant gravitational wave signatures can serve as a potential observational probe to distinguish between different parameter regimes of the Higgs--$R^2$ model.
format Preprint
id arxiv_https___arxiv_org_abs_2503_16907
institution arXiv
publishDate 2025
record_format arxiv
spellingShingle Gravitational wave signatures of preheating in Higgs--$R^2$ inflation
Kim, Jinsu
Yang, Zihao
Zhang, Ying-li
Cosmology and Nongalactic Astrophysics
High Energy Physics - Phenomenology
We present a comprehensive analysis of the preheating dynamics and associated gravitational wave signatures in the Higgs--$R^2$ inflationary model. Using lattice simulations, we investigate the post-inflationary evolution of the system across the parameter space, covering both the Higgs-like and $R^2$-like scenarios. We demonstrate that the efficiency of preheating is significantly dependent on the nonminimal coupling parameter $ξ$. As the $ξ$ parameter increases, moving from the $R^2$-like regime to the Higgs-like regime, we observe more efficient preheating. Through detailed numerical computations, efficient preheating is shown to lead to stronger gravitational wave production. The amplitude of the gravitational wave spectrum varies by several orders of magnitude as we move from the $R^2$-like regime to the Higgs-like regime. The resultant gravitational wave signatures can serve as a potential observational probe to distinguish between different parameter regimes of the Higgs--$R^2$ model.
title Gravitational wave signatures of preheating in Higgs--$R^2$ inflation
topic Cosmology and Nongalactic Astrophysics
High Energy Physics - Phenomenology
url https://arxiv.org/abs/2503.16907