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Main Authors: Sun, Fei, Chen, Xun, Li, Shuang, Watanabe, Akira
Format: Preprint
Published: 2025
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Online Access:https://arxiv.org/abs/2503.17642
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author Sun, Fei
Chen, Xun
Li, Shuang
Watanabe, Akira
author_facet Sun, Fei
Chen, Xun
Li, Shuang
Watanabe, Akira
contents The precise determination of critical exponents is crucial for understanding the properties of strongly interacting matter under extreme conditions. These exponents are fundamentally linked to the system's behavior near the critical end point (CEP), making precise localization of the CEP essential. However, precisely identifying the CEP within the framework of AdS/CFT correspondence presents considerable challenges. In this study, we explore critical phenomena and critical exponents within a holographic QCD model. We achieve high-precision calculations of the CEP's position and dynamically analyze the behavior of the critical exponent as it approaches the CEP using limiting methods. Our results indicate that linear fitting is only appropriate in regions very close to the CEP. Furthermore, we find that although the values of the critical exponents vary when approaching the CEP from different directions, they ultimately converge to a single fixed value, revealing a universal behavior among these exponents. Our research underscores the importance of precisely determining the CEP, selecting the fitting region, and considering the direction of the approach when predicting critical exponents. These findings establish a vital benchmark for identifying critical phenomena and their associated exponents.
format Preprint
id arxiv_https___arxiv_org_abs_2503_17642
institution arXiv
publishDate 2025
record_format arxiv
spellingShingle High-precise determination of critical exponents in holographic QCD
Sun, Fei
Chen, Xun
Li, Shuang
Watanabe, Akira
High Energy Physics - Phenomenology
The precise determination of critical exponents is crucial for understanding the properties of strongly interacting matter under extreme conditions. These exponents are fundamentally linked to the system's behavior near the critical end point (CEP), making precise localization of the CEP essential. However, precisely identifying the CEP within the framework of AdS/CFT correspondence presents considerable challenges. In this study, we explore critical phenomena and critical exponents within a holographic QCD model. We achieve high-precision calculations of the CEP's position and dynamically analyze the behavior of the critical exponent as it approaches the CEP using limiting methods. Our results indicate that linear fitting is only appropriate in regions very close to the CEP. Furthermore, we find that although the values of the critical exponents vary when approaching the CEP from different directions, they ultimately converge to a single fixed value, revealing a universal behavior among these exponents. Our research underscores the importance of precisely determining the CEP, selecting the fitting region, and considering the direction of the approach when predicting critical exponents. These findings establish a vital benchmark for identifying critical phenomena and their associated exponents.
title High-precise determination of critical exponents in holographic QCD
topic High Energy Physics - Phenomenology
url https://arxiv.org/abs/2503.17642