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Main Authors: Jiang, Lijia, Yang, Tao, Zheng, Jun-Hui
Format: Preprint
Published: 2026
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Online Access:https://arxiv.org/abs/2603.04923
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author Jiang, Lijia
Yang, Tao
Zheng, Jun-Hui
author_facet Jiang, Lijia
Yang, Tao
Zheng, Jun-Hui
contents Studies of QCD phase transition signals are often conducted under spatially uniform temperature conditions. However, the influence of spatial temperature gradients on the signals emerging at the phase interface in the fireball generated by heavy-ion collisions has not yet been fully explored. Based on an Ising-like effective potential, we study the locally equilibrated systems with temperature gradients. In a 2D disk geometry, the low-energy fluctuation spectrum is explicitly resolved into radial and angular momentum modes. The nonlocal correaltions of singular eigen-mode exhibits strong anisotropy, which are long-ranged along isotherms but suppressed radially due to the thermal geometry of the system. Unlike homogeneous systems where the zero-momentum mode dominates, correlations in such inhomogeneous system result from the superposition of a series of zero and non-zero angular momentum modes with comparable contributions. We extract the singular angular momentum modes and establish their connection to experimentally observable anisotropic flow. We find azimuthally sensitive observables may offer a previously unexplored avenue for detecting the QCD phase transition.
format Preprint
id arxiv_https___arxiv_org_abs_2603_04923
institution arXiv
publishDate 2026
record_format arxiv
spellingShingle Critical fluctuation patterns and anisotropic correlations driven by temperature gradients
Jiang, Lijia
Yang, Tao
Zheng, Jun-Hui
High Energy Physics - Phenomenology
Studies of QCD phase transition signals are often conducted under spatially uniform temperature conditions. However, the influence of spatial temperature gradients on the signals emerging at the phase interface in the fireball generated by heavy-ion collisions has not yet been fully explored. Based on an Ising-like effective potential, we study the locally equilibrated systems with temperature gradients. In a 2D disk geometry, the low-energy fluctuation spectrum is explicitly resolved into radial and angular momentum modes. The nonlocal correaltions of singular eigen-mode exhibits strong anisotropy, which are long-ranged along isotherms but suppressed radially due to the thermal geometry of the system. Unlike homogeneous systems where the zero-momentum mode dominates, correlations in such inhomogeneous system result from the superposition of a series of zero and non-zero angular momentum modes with comparable contributions. We extract the singular angular momentum modes and establish their connection to experimentally observable anisotropic flow. We find azimuthally sensitive observables may offer a previously unexplored avenue for detecting the QCD phase transition.
title Critical fluctuation patterns and anisotropic correlations driven by temperature gradients
topic High Energy Physics - Phenomenology
url https://arxiv.org/abs/2603.04923