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Auteurs principaux: Qiu, Dayun, Jiang, Siyu, Huang, Fa Peng
Format: Preprint
Publié: 2025
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Accès en ligne:https://arxiv.org/abs/2508.04314
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author Qiu, Dayun
Jiang, Siyu
Huang, Fa Peng
author_facet Qiu, Dayun
Jiang, Siyu
Huang, Fa Peng
contents Motivated by the new heavy dark matter production mechanism from cosmic phase transition, we propose a novel mechanism for the generation of microscopic gravitational waves (GWs) during cosmological first-order phase transitions arising from the braking of heavy particles as they traverse bubble walls. Unlike the well-known sources such as bubble collisions, sound waves, or turbulence in the plasma, this mechanism originates from the direct interaction between massive particles and the expanding bubble wall. We use quantum field theory to rigorously compute the gravitational radiation. The resulting GW spectrum exhibits distinctive features: The peak frequency is tightly correlated with the bubble wall velocity, while the peak amplitude scales as the fourth power of the heavy particle mass. These unique dependencies offer a new observational handle on particle physics beyond the Standard Model. We illustrate this mechanism within a specific model framework and demonstrate its viability. Our findings enrich the landscape of phase transition GW sources and open new avenues for more directly probing heavy particle dynamics and new physics models in the early universe.
format Preprint
id arxiv_https___arxiv_org_abs_2508_04314
institution arXiv
publishDate 2025
record_format arxiv
spellingShingle A New Source of Phase Transition Gravitational Waves: Heavy Particle Braking Across Bubble Walls
Qiu, Dayun
Jiang, Siyu
Huang, Fa Peng
High Energy Physics - Phenomenology
Motivated by the new heavy dark matter production mechanism from cosmic phase transition, we propose a novel mechanism for the generation of microscopic gravitational waves (GWs) during cosmological first-order phase transitions arising from the braking of heavy particles as they traverse bubble walls. Unlike the well-known sources such as bubble collisions, sound waves, or turbulence in the plasma, this mechanism originates from the direct interaction between massive particles and the expanding bubble wall. We use quantum field theory to rigorously compute the gravitational radiation. The resulting GW spectrum exhibits distinctive features: The peak frequency is tightly correlated with the bubble wall velocity, while the peak amplitude scales as the fourth power of the heavy particle mass. These unique dependencies offer a new observational handle on particle physics beyond the Standard Model. We illustrate this mechanism within a specific model framework and demonstrate its viability. Our findings enrich the landscape of phase transition GW sources and open new avenues for more directly probing heavy particle dynamics and new physics models in the early universe.
title A New Source of Phase Transition Gravitational Waves: Heavy Particle Braking Across Bubble Walls
topic High Energy Physics - Phenomenology
url https://arxiv.org/abs/2508.04314