Energy-driven disorder in mean field QCD

arXiv: High Energy Physics - Phenomenology Pub Date : 2020-12-13 DOI:10.1103/PhysRevD.103.114021

S. Nedelko, V. Voronin

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引用次数: 5

Abstract

An impact of the finite size effects on the vacuum free energy density of full QCD with $N_{\rm f}$ massless flavors in the presence of homogeneous (anti-)self-dual Abelian background gluon field is studied. The zero temperature free energy density of the four-dimensional spherical domain is computed as a function of the background field strength $B$ and domain radius $R$. Calculation is performed in the one-loop approximation improved by accounting for mixing of the quark and gluon quasi-zero modes with normal modes, with the use of the $\zeta$-function regularization. It is indicated that, under plausible assumption on the character of the mixing, the quantum correction to the free energy density has a minimum as a function of $B$ and $R$. Within the mean field approach to QCD vacuum based on domain wall network representation of the mean field, an existence of the minimum may prevent infinite growth of individual domain, thus protecting the vacuum from the long-range ordering, and, hence, serving as the origin of disorder in the statistical ensemble of domain wall networks, driven by the minimization of the overall free energy of the dominant gauge field configurations.

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平均场QCD中的能量驱动紊乱

研究了在均匀(反)自对偶阿贝尔背景胶子场存在下，有限尺寸效应对具有$N_{\rm f}$无质量味的全QCD真空自由能密度的影响。计算了四维球面域的零温度自由能密度作为背景场强度B和域半径R的函数。利用$\zeta$-函数正则化，在考虑了夸克和胶子准零模与正模混合的单环近似下进行了计算。结果表明，在对混合性质的合理假设下，自由能密度的量子修正作为B和R的函数具有最小值。在基于平均场的域壁网表示的QCD真空平均场方法中，最小值的存在可能会阻止单个域的无限增长，从而保护真空免受远程有序的影响，因此，在主导规范场构型的总体自由能最小化的驱动下，它可以作为域壁网统计系综中无序的起源。

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: High Energy Physics - Phenomenology

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