Higher Structure of Chiral Symmetry

IF 2.2 1区物理与天体物理 Q1 PHYSICS, MATHEMATICAL

Communications in Mathematical Physics Pub Date : 2025-03-05 DOI:10.1007/s00220-024-05227-9

Christian Copetti, Michele Del Zotto, Kantaro Ohmori, Yifan Wang

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Abstract

A recent development in our understanding of the theory of quantum fields is the fact that familiar gauge theories in spacetime dimensions greater than two can have non-invertible symmetries generated by topological defects. The hallmark of these non-invertible symmetries is that the fusion rule deviates from the usual group-like structure, and in particular the fusion coefficients take values in topological field theories (TFTs) rather than in mere numbers. In this paper we begin an exploration of the associativity structure of non-invertible symmetries in higher dimensions. The first layer of associativity is captured by F-symbols, which we find to assume values in TFTs that have one dimension lower than that of the defect. We undertake an explicit analysis of the F-symbols for the non-invertible chiral symmetry that is preserved by the massless QED and explore their physical implications. In particular, we show the F-symbol TFTs can be detected by probing the correlators of topological defects with ’t Hooft lines. Furthermore, we derive the Ward–Takahashi identity that arises from the chiral symmetry on a large class of four-dimensional manifolds with non-trivial topologies directly from the topological data of the symmetry defects, without referring to a Lagrangian formulation of the theory.

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手性对称的高级结构

我们对量子场理论理解的一个最新进展是，我们熟悉的时空维度大于 2 的规规理论可以具有由拓扑缺陷产生的非可逆对称性。这些非可逆对称性的特点是融合规则偏离了通常的类群结构，尤其是融合系数取值于拓扑场论（TFT）而非单纯的数字。在本文中，我们开始探索高维度非可逆对称性的关联性结构。第一层关联性由 F 符号捕获，我们发现 F 符号在拓扑场论中的取值比缺陷的取值低一维。我们对无质量 QED 所保留的非可逆手性对称的 F 符号进行了明确分析，并探讨了其物理意义。特别是，我们证明了可以通过探测拓扑缺陷与 't Hooft 线的相关性来探测 F 符号 TFT。此外，我们直接从对称缺陷的拓扑数据推导出了一大类具有非三维拓扑的四维流形上的手性对称所产生的沃德-高桥特性，而无需参考理论的拉格朗日表述。

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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来源期刊

Communications in Mathematical Physics 物理-物理：数学物理

CiteScore

4.70

自引率

8.30%

发文量

226

审稿时长

3-6 weeks

期刊介绍： The mission of Communications in Mathematical Physics is to offer a high forum for works which are motivated by the vision and the challenges of modern physics and which at the same time meet the highest mathematical standards.