量子图、子因子和张量类别 I

arXiv - MATH - Quantum Algebra Pub Date : 2024-09-03 DOI:arxiv-2409.01951

Michael Brannan, Roberto Hernández Palomares

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引用次数: 0

摘要

我们发展了关于量子对称性的图等变理论，并详细阐述了各种实例。我们把单位张量范畴描绘成一个统一的框架，涵盖了所有有限经典简单图、有限（量子）群集的（量子）卡莱图和所有有限维量子图。我们用 C* 结构的有限指数包含来模拟量子集合，并使用量子傅立叶变换来获得所有可能的邻接算子。特别是，我们证明了每个有限指数子因子都可视为一个完整的量子图，并描述了如何找到它的所有子图。作为应用，我们证明了有限量子群的弗鲁希特定理的一个版本，并介绍了量子图的路径空间版本。

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Quantum graphs, subfactors and tensor categories I

We develop an equivariant theory of graphs with respect to quantum symmetries and present a detailed exposition of various examples. We portray unitary tensor categories as a unifying framework encompassing all finite classical simple graphs, (quantum) Cayley graphs of finite (quantum) groupoids, and all finite-dimensional quantum graphs. We model a quantum set by a finite-index inclusion of C*-algebras and use the quantum Fourier transform to obtain all possible adjacency operators. In particular, we show every finite-index subfactor can be regarded as a complete quantum graph and describe how to find all its subgraphs. As applications, we prove a version of Frucht's Theorem for finite quantum groupoids, and introduce a version of path spaces for quantum graphs.

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arXiv - MATH - Quantum Algebra

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