Speed of sound and isothermal compressibility in a magnetized quark matter with anomalous magnetic moment of quarks

arXiv - PHYS - Nuclear Theory Pub Date : 2024-08-08 DOI:arxiv-2408.04398

Rajkumar Mondal, Sourav Duari, Nilanjan Chaudhuri, Sourav Sarkar, Pradip Roy

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Abstract

We study the characteristics of quark matter under the influence of a background magnetic field with anomalous magnetic moment (AMM) of quarks at finite temperature and quark chemical potential in the framework of Polyakov loop extended Nambu Jona-Lasinio (PNJL) model. In presence of a magnetic field, the speed of sound and isothermal compressibility become anisotropic with respect to the direction of the background magnetic field, splitting into parallel and perpendicular directions with respect to the magnetic field. Though the qualitative nature of parallel and perpendicular components of squared speed of sound appear similar, they differ in magnitude at lower values of temperature. The parallel and perpendicular components of isothermal compressibility decrease with increasing temperature, indicating a trend towards increased incompressible strongly interacting matter. On inclusion of the AMM of quarks, the perpendicular component of isothermal compressibility becomes greater than the parallel component. Additionally, we investigate the quark number susceptibility normalized by its value at zero magnetic field, which may indicate the presence of magnetic fields in the system.

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具有反常夸克磁矩的磁化夸克物质的声速和等温压缩性

我们在波里雅科夫环扩展南布-若纳-拉西尼奥（PNJL）模型的框架内，研究了夸克物质在无限温度和夸克化学势下的反常磁矩（AMM）背景磁场影响下的特性。在磁场存在的情况下，声速和等温可压缩性相对于背景磁场的方向变得各向异性，相对于磁场分为平行和垂直两个方向。等温可压缩性的平行分量和垂直分量随着温度的升高而减小，这表明不可压缩的强相互作用物质有增加的趋势。加入夸克的 AMM 后，等温可压缩性的垂直分量大于平行分量。此外，我们还研究了以零磁场时的值归一化的夸克数感应性，这可能表明系统中存在磁场。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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arXiv - PHYS - Nuclear Theory

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