Higher-form symmetry and chiral transport in real-time Abelian lattice gauge theory

IF 4.6 2区 物理与天体物理 Q1 PHYSICS, MULTIDISCIPLINARY SciPost Physics Pub Date : 2024-09-19 DOI:10.21468/scipostphys.17.3.085
Arpit Das, Adrien Florio, Nabil Iqbal, Napat Poovuttikul
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Abstract

We study classical lattice simulations of theories of electrodynamics coupled to charged matter at finite temperature, interpreting them using the higher-form symmetry formulation of magnetohydrodynamics (MHD). We compute transport coefficients using classical Kubo formulas on the lattice and show that the properties of the simulated plasma are in complete agreement with the predictions from effective field theories. In particular, the higher-form formulation allows us to understand from hydrodynamic considerations the relaxation rate of axial charge in the chiral plasma observed in previous simulations. A key point is that the resistivity of the plasma – defined in terms of Kubo formulas for the electric field in the 1-form formulation of MHD – remains a well-defined and predictive quantity at strong electromagnetic coupling. However, the Kubo formulas used to define the conventional conductivity vanish at low frequencies due to electrodynamic fluctuations, and thus the concept of the conductivity of a gauged electric current must be interpreted with care.
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实时阿贝尔晶格规理论中的高形式对称性和手性输运
我们研究了在有限温度下与带电物质耦合的电动力学理论的经典晶格模拟,并使用磁流体力学(MHD)的高形式对称公式对其进行了解释。我们使用经典的 Kubo 公式计算晶格上的传输系数,结果表明模拟等离子体的特性与有效场理论的预测完全一致。特别是,高阶形式公式使我们能够从流体力学的角度理解之前模拟中观察到的手性等离子体中轴向电荷的弛豫率。关键的一点是,等离子体的电阻率--在 MHD 的 1-form 公式中根据电场的 Kubo 公式定义--在强电磁耦合下仍然是一个定义明确的预测量。然而,用于定义传统电导率的 Kubo 公式在低频时会因电动力学波动而消失,因此必须谨慎解释测量电流电导率的概念。
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来源期刊
SciPost Physics
SciPost Physics Physics and Astronomy-Physics and Astronomy (all)
CiteScore
8.20
自引率
12.70%
发文量
315
审稿时长
10 weeks
期刊介绍: SciPost Physics publishes breakthrough research articles in the whole field of Physics, covering Experimental, Theoretical and Computational approaches. Specialties covered by this Journal: - Atomic, Molecular and Optical Physics - Experiment - Atomic, Molecular and Optical Physics - Theory - Biophysics - Condensed Matter Physics - Experiment - Condensed Matter Physics - Theory - Condensed Matter Physics - Computational - Fluid Dynamics - Gravitation, Cosmology and Astroparticle Physics - High-Energy Physics - Experiment - High-Energy Physics - Theory - High-Energy Physics - Phenomenology - Mathematical Physics - Nuclear Physics - Experiment - Nuclear Physics - Theory - Quantum Physics - Statistical and Soft Matter Physics.
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