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Main Authors: Ramberg, Nicklas, Schmitt, Daniel
Format: Preprint
Published: 2025
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Online Access:https://arxiv.org/abs/2511.10086
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author Ramberg, Nicklas
Schmitt, Daniel
author_facet Ramberg, Nicklas
Schmitt, Daniel
contents We investigate the emergence of a resonant behavior in axion-trapped misalignment models featuring finite-temperature potential barriers. As the temperature decreases and the field is released from its trapped configuration, inhomogeneities are exponentially amplified through an instability in their equation of motion, leading to the fragmentation of the axion field. We show that this process constitutes a novel source of gravitational waves (GWs), analogous to those generated in zero-temperature axion fragmentation, but with distinct characteristics. We quantify the resulting GW spectrum, identifying the peak frequency and amplitude associated with the inhomogeneous axion dynamics. Our results indicate that the GW signal can be enhanced by up to two orders of magnitude compared to the standard fragmentation scenario, while exhibiting a markedly different spectral shape. The parameter space featuring both strong GW signals and reproducing the correct dark matter abundance is, however, limited.
format Preprint
id arxiv_https___arxiv_org_abs_2511_10086
institution arXiv
publishDate 2025
record_format arxiv
spellingShingle Trapped and Unstable: Axion-like particle fragmentation at finite temperature
Ramberg, Nicklas
Schmitt, Daniel
High Energy Physics - Phenomenology
Cosmology and Nongalactic Astrophysics
We investigate the emergence of a resonant behavior in axion-trapped misalignment models featuring finite-temperature potential barriers. As the temperature decreases and the field is released from its trapped configuration, inhomogeneities are exponentially amplified through an instability in their equation of motion, leading to the fragmentation of the axion field. We show that this process constitutes a novel source of gravitational waves (GWs), analogous to those generated in zero-temperature axion fragmentation, but with distinct characteristics. We quantify the resulting GW spectrum, identifying the peak frequency and amplitude associated with the inhomogeneous axion dynamics. Our results indicate that the GW signal can be enhanced by up to two orders of magnitude compared to the standard fragmentation scenario, while exhibiting a markedly different spectral shape. The parameter space featuring both strong GW signals and reproducing the correct dark matter abundance is, however, limited.
title Trapped and Unstable: Axion-like particle fragmentation at finite temperature
topic High Energy Physics - Phenomenology
Cosmology and Nongalactic Astrophysics
url https://arxiv.org/abs/2511.10086