Quark saturation in the QCD phase diagram

arXiv - PHYS - Nuclear Theory Pub Date : 2024-09-18 DOI:arxiv-2409.12088

Marcus Bluhm, Yuki Fujimoto, Larry McLerran, Marlene Nahrgang

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Abstract

We determine the onset of Quarkyonic Matter corresponding to values of temperature and baryon chemical potential at which the quark phase space density becomes one. At zero temperature for baryon chemical potentials below the mass of the Lambda baryon, only nucleons contribute to the quark density. This is different at finite temperature, where all baryons, mesons and their resonances can be excited and thus add quarks to the phase space. The probability density to find a quark inside a hadron is determined using the Yukawa ansatz of the IdylliQ model of Quarkyonic Matter. We estimate separately the magnitude of the various contributions of nucleons, Delta baryons, pions as well as further hadrons and resonances. The uncertainty in the parametrization of the probability density to find a quark inside a nucleon is spanned by assuming that at zero temperature the transition density to Quarkyonic Matter is between one and three times that of nuclear matter. Various predictions for a possible critical point associated with the chiral phase transition are found close to a triple point at which the line of the deconfinement transition and the curve associated with the transition to Quarkyonic Matter intersect. These considerations provide an estimate for the region in the QCD phase diagram where Quarkyonic Matter may be found.

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QCD 相图中的夸克饱和

我们根据夸克相位密度变为一的温度值和重子化学势来确定夸克物质的起始点。在零温度下，当重子化学势低于 Lambda 重子的质量时，只有核子对夸克密度有贡献；而在有限温度下则不同，所有重子、介子及其共振都可以被激发，从而将夸克加入相空间。我们使用夸克物质的 IdylliQ 模型的汤川公式来确定在强子内部发现夸克的概率密度。我们分别估算了核子、德尔塔重子、小离子以及其他强子和共振的贡献大小。假设在零温度下，夸克物质的转变密度是核物质的一到三倍，这就跨越了在核子内部发现夸克的概率密度参数化中的不确定性。对与手性相变相关的可能临界点的各种预测发现，该临界点接近去封闭转变线与向夸克物质转变相关曲线相交的三重点。这些考虑为QCD相图中可能发现夸克物质的区域提供了一个估计值。

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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