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Main Authors: Evslin, Jarah, Slawińska, Katarzyna, Romańczukiewicz, Tomasz, Wereszczyński, Andrzej
Format: Preprint
Published: 2025
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Online Access:https://arxiv.org/abs/2512.17193
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author Evslin, Jarah
Slawińska, Katarzyna
Romańczukiewicz, Tomasz
Wereszczyński, Andrzej
author_facet Evslin, Jarah
Slawińska, Katarzyna
Romańczukiewicz, Tomasz
Wereszczyński, Andrzej
contents As the longest lived transient, oscillons play a critical role in classical field theory simulations of many phenomena. However, beyond the classical approximation, it is well-known that quantum corrections open decay channels through which oscillons radiate rapidly. Therefore it is believed that in the real world, oscillons are too short-lived to be phenomenologically relevant. We observe that previous calculations of the radiated power assume that the oscillon is in a coherent state. We show that a squeezed coherent state, on the other hand, would emit no radiation at leading order in the coupling. This leads us to the conclusion that the instantaneous radiation calculated in the literature corresponds not to the oscillon's decay, but rather to its relaxation from a coherent state to a lower-energy, squeezed coherent state, which then radiates much more slowly. As a result, the lifetime of the quantum oscillon is enhanced by an inverse power of the coupling.
format Preprint
id arxiv_https___arxiv_org_abs_2512_17193
institution arXiv
publishDate 2025
record_format arxiv
spellingShingle Quantum Oscillons are Long-Lived
Evslin, Jarah
Slawińska, Katarzyna
Romańczukiewicz, Tomasz
Wereszczyński, Andrzej
High Energy Physics - Theory
As the longest lived transient, oscillons play a critical role in classical field theory simulations of many phenomena. However, beyond the classical approximation, it is well-known that quantum corrections open decay channels through which oscillons radiate rapidly. Therefore it is believed that in the real world, oscillons are too short-lived to be phenomenologically relevant. We observe that previous calculations of the radiated power assume that the oscillon is in a coherent state. We show that a squeezed coherent state, on the other hand, would emit no radiation at leading order in the coupling. This leads us to the conclusion that the instantaneous radiation calculated in the literature corresponds not to the oscillon's decay, but rather to its relaxation from a coherent state to a lower-energy, squeezed coherent state, which then radiates much more slowly. As a result, the lifetime of the quantum oscillon is enhanced by an inverse power of the coupling.
title Quantum Oscillons are Long-Lived
topic High Energy Physics - Theory
url https://arxiv.org/abs/2512.17193