Chiral symmetry restoration and the thermal $f_0(500)$ state

Proceedings of Light Cone 2019 - QCD on the light cone: from hadrons to heavy ions — PoS(LC2019) Pub Date : 2020-02-03 DOI:10.22323/1.374.0086

A. Vioque-Rodr'iguez, A. G. Nicola

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Abstract

We analize the role played by the thermal $f_0(500)$ state or $\sigma$ in chiral symmetry restoration. The temperature corrections to the spectral properties of that state are included in order to provide a better description of the scalar susceptibility $\chi_S$ around the transition region. We use the Linear Sigma Model to establish the relation between $\chi_S$ and the $\sigma$ propagator, which is used as a benchmark to test the approach where $\chi_S$ is saturated by the $f_0(500)$ inverse self-energy. Within such saturation approach, a peak for $\chi_S$ around the chiral transition is obtained when considering the $f_0(500)$ generated as a $\pi\pi$ scattering pole within Unitarized Chiral Perturbation Theory at finite temperature. That approach yields results complying with lattice data when the uncertainties of the low-energy constants are taken into account. Those uncertainties and the unitarization method are used to check the robustness of this approximation. Finally, we will discuss some recent results within the chiral lagrangian framework related to the topological susceptibility and its connection with chiral and $U_A(1)$ restoration.

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手性对称恢复与热态f_0(500)$

我们分析了热$f_0(500)$态和$\sigma$态在手性对称性恢复中的作用。为了更好地描述过渡区周围的标量磁化率$\chi_S$，对该状态的光谱特性进行了温度校正。我们使用线性西格玛模型建立$\chi_S$和$\sigma$传播器之间的关系，并将其用作测试$\chi_S$被$f_0(500)$逆自能饱和的方法的基准。在这种饱和方法中，当考虑在有限温度下统一手性微动理论中产生的$f_0(500)$作为$\pi\pi$散射极时，得到了$\chi_S$在手性跃迁周围的峰值。当考虑到低能常数的不确定性时，这种方法产生的结果与晶格数据一致。利用这些不确定性和统一方法来检验该近似的鲁棒性。最后，我们将讨论手性拉格朗日框架内与拓扑敏感性及其与手性和$U_A(1)$恢复的联系有关的一些最新结果。

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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Proceedings of Light Cone 2019 - QCD on the light cone: from hadrons to heavy ions — PoS(LC2019)

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