循环神经的对称性

arXiv - MATH - K-Theory and Homology Pub Date : 2024-05-06 DOI:arxiv-2405.03897

David Ayala, Aaron Mazel-Gee, Nick Rozenblyum

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引用次数: 0

摘要

我们系统地研究了$(\infty,1)$范畴（更广义地说是$\infty$范畴中的范畴对象）的霍希尔德同源性，即（几何实现的）循环神经，作为因子化同源性的一个版本。为了做到这一点，我们将$(\infty,1)$范畴编码为其中的四元组表征。通过研究这种霍赫希尔德同调的一个普遍实例，我们明确地识别了它的自然对称性，并构建了一个非稳定版本的回旋迹图。在此过程中，我们给出了关于循环范畴、准循环范畴和表循环范畴的统一解释。我们还证明，这给出了[AFR18]中提出的actorization homology 的 $n=1$ 情况的组合描述，它通过固态 1 帧分层空间对$(\infty,1)$类进行了参数化。

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Symmetries of the cyclic nerve

We undertake a systematic study of the Hochschild homology, i.e. (the geometric realization of) the cyclic nerve, of $(\infty,1)$-categories (and more generally of category-objects in an $\infty$-category), as a version of factorization homology. In order to do this, we codify $(\infty,1)$-categories in terms of quiver representations in them. By examining a universal instance of such Hochschild homology, we explicitly identify its natural symmetries, and construct a non-stable version of the cyclotomic trace map. Along the way we give a unified account of the cyclic, paracyclic, and epicyclic categories. We also prove that this gives a combinatorial description of the $n=1$ case of factorization homology as presented in [AFR18], which parametrizes $(\infty,1)$-categories by solidly 1-framed stratified spaces.

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arXiv - MATH - K-Theory and Homology

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