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Autori principali: Zheng, Pei, Chen, Yidian, Li, Danning, Huang, Mei, Liu, Yu-xin
Natura: Preprint
Pubblicazione: 2025
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Accesso online:https://arxiv.org/abs/2507.20233
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author Zheng, Pei
Chen, Yidian
Li, Danning
Huang, Mei
Liu, Yu-xin
author_facet Zheng, Pei
Chen, Yidian
Li, Danning
Huang, Mei
Liu, Yu-xin
contents We study dynamical properties of strongly coupled chiral matter by using holographic method. We demonstrate, at both linear and nonlinear levels, that perturbations on thermodynamically unstable backgrounds within the spinodal region of chiral first-order phase transitions exhibit dynamic instability. The corresponding magnitude of dynamic instability can be characterized by the critical momentum. Furthermore, we found that, within a certain temperature range, the quasi-normal mode spectrum contains purely imaginary diffusive modes. As spatial momentum increases, a transition occurs in the system's long-time dynamics. The dominant contribution shifts from diffusive mode to propagating mode. When the diffusive mode becomes dominant, the spectral function exhibits a transport peak structure in the low-frequency region. A heuristic argument suggests that this particular transition can be related to the chiral symmetry breaking and restoration.
format Preprint
id arxiv_https___arxiv_org_abs_2507_20233
institution arXiv
publishDate 2025
record_format arxiv
spellingShingle Dynamical instability and transport peak of chiral matter from holography
Zheng, Pei
Chen, Yidian
Li, Danning
Huang, Mei
Liu, Yu-xin
High Energy Physics - Phenomenology
We study dynamical properties of strongly coupled chiral matter by using holographic method. We demonstrate, at both linear and nonlinear levels, that perturbations on thermodynamically unstable backgrounds within the spinodal region of chiral first-order phase transitions exhibit dynamic instability. The corresponding magnitude of dynamic instability can be characterized by the critical momentum. Furthermore, we found that, within a certain temperature range, the quasi-normal mode spectrum contains purely imaginary diffusive modes. As spatial momentum increases, a transition occurs in the system's long-time dynamics. The dominant contribution shifts from diffusive mode to propagating mode. When the diffusive mode becomes dominant, the spectral function exhibits a transport peak structure in the low-frequency region. A heuristic argument suggests that this particular transition can be related to the chiral symmetry breaking and restoration.
title Dynamical instability and transport peak of chiral matter from holography
topic High Energy Physics - Phenomenology
url https://arxiv.org/abs/2507.20233