Diagrammatics, pentagon equations, and hexagon equations of topological orders with loop- and membrane-like excitations

Diagrammatics, pentagon equations, and hexagon equations of topological orders with loop- and membrane-like excitations

Abstract In spacetime dimensions of 4 (i.e., 3+1) and higher, topological orders exhibit spatially extended excitations like loops and membranes, which support diverse topological data characterizing braiding, fusion, and shrinking processes, despite the absence of anyons. Our understanding of these...

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Bibliographic Details
Main Authors: Yizhou Huang, Zhi-Feng Zhang, Peng Ye
Format: Article
Language:English
Published: SpringerOpen 2025-06-01
Series:Journal of High Energy Physics
Subjects:
Topological States of Matter
Anyons
Gauge Symmetry
Wilson, ’t Hooft and Polyakov loops
Online Access:https://doi.org/10.1007/JHEP06(2025)238
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Summary:Abstract In spacetime dimensions of 4 (i.e., 3+1) and higher, topological orders exhibit spatially extended excitations like loops and membranes, which support diverse topological data characterizing braiding, fusion, and shrinking processes, despite the absence of anyons. Our understanding of these topological data remains less mature compared to 3D, where anyons have been extensively studied and can be fully described through diagrammatic representations. Inspired by recent advancements in field theory descriptions of higher-dimensional topological orders, this paper systematically constructs diagrammatic representations for 4D and 5D topological orders described by BF theory, generalizable to higher dimensions. We introduce elementary diagrams for fusion and shrinking processes, treating them as vectors in fusion and shrinking spaces, respectively, and build complex diagrams by combining these elementary diagrams. Within these vector spaces, we design unitary operations represented by F-, ∆-, and ∆2-symbols to transform between different bases. We discover pentagon equations and (hierarchical) shrinking-fusion hexagon equations that impose constraints on the legitimate forms of these unitary operations. We conjecture that the diagrammatic representations we construct apply to all anomaly-free higher-dimensional topological orders, which must satisfy these conditions and any violations indicate a quantum anomaly. This work opens promising avenues for future research, including the exploration of diagrammatic representations involving braiding and the study of non-invertible symmetries and symmetry topological field theories in higher spacetime dimensions.
ISSN:1029-8479

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