全息 QCD 的手性分离效应

IF 5.4 1区 物理与天体物理 Q1 Physics and Astronomy Journal of High Energy Physics Pub Date : 2024-11-07 DOI:10.1007/JHEP11(2024)051
Domingo Gallegos, Matti Järvinen, Eamonn Weitz
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引用次数: 0

摘要

我们利用规/引力对偶性分析了 QCD 中的手性分离效应(CSE)。在 QCD 中,这种效应是由手性反常和轴向 U(1) 反常共同引起的。由于轴向胶子反常,CSE 的电导率值不是由 QCD 的反常决定的,而是受到辐射修正,从而导致对温度和密度的非对等依赖。为了分析这种依赖关系,我们使用了 V-QCD(一种复杂的全息模型)的不同变体,并与 QCD 数据进行了仔细拟合。我们发现,我们对小化学势和非零温度下的反常 CSE 电导率的研究结果与最近的晶格 QCD 模拟结果在质量上有很好的一致性。此外,我们还对有限(矢量和轴向)化学势下的电导率行为进行了预测。
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Chiral separation effect from holographic QCD

We analyze the chiral separation effect (CSE) in QCD by using the gauge/gravity duality. In QCD, this effect arises from a combination of chiral anomalies and the axial U(1) anomaly. Due to the axial gluon anomaly, the value of the CSE conductivity is not determined by the anomalies of QCD but receives radiative corrections, which leads to nontrivial dependence on temperature and density. To analyze this dependence, we use different variants of the V-QCD, a complex holographic model, carefully fitted to QCD data. We find our results for the anomalous CSE conductivity at small chemical potential and nonzero temperature to be in good qualitative agreement with recent results from lattice QCD simulations. We furthermore give predictions for the behavior of the conductivity at finite (vectorial and axial) chemical potentials.

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来源期刊
Journal of High Energy Physics
Journal of High Energy Physics 物理-物理:粒子与场物理
CiteScore
10.30
自引率
46.30%
发文量
2107
审稿时长
1.5 months
期刊介绍: The aim of the Journal of High Energy Physics (JHEP) is to ensure fast and efficient online publication tools to the scientific community, while keeping that community in charge of every aspect of the peer-review and publication process in order to ensure the highest quality standards in the journal. Consequently, the Advisory and Editorial Boards, composed of distinguished, active scientists in the field, jointly establish with the Scientific Director the journal''s scientific policy and ensure the scientific quality of accepted articles. JHEP presently encompasses the following areas of theoretical and experimental physics: Collider Physics Underground and Large Array Physics Quantum Field Theory Gauge Field Theories Symmetries String and Brane Theory General Relativity and Gravitation Supersymmetry Mathematical Methods of Physics Mostly Solvable Models Astroparticles Statistical Field Theories Mostly Weak Interactions Mostly Strong Interactions Quantum Field Theory (phenomenology) Strings and Branes Phenomenological Aspects of Supersymmetry Mostly Strong Interactions (phenomenology).
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