Two-sided cartesian fibrations of synthetic $(\infty ,1)$-categories

Pub Date : 2024-06-21 DOI:10.1007/s40062-024-00348-3

Jonathan Weinberger

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Abstract

Within the framework of Riehl–Shulman’s synthetic $(\infty ,1)$-category theory, we present a theory of two-sided cartesian fibrations. Central results are several characterizations of the two-sidedness condition à la Chevalley, Gray, Street, and Riehl–Verity, a two-sided Yoneda Lemma, as well as the proof of several closure properties. Along the way, we also define and investigate a notion of fibered or sliced fibration which is used later to develop the two-sided case in a modular fashion. We also briefly discuss discrete two-sided cartesian fibrations in this setting, corresponding to $(\infty ,1)$-distributors. The systematics of our definitions and results closely follows Riehl–Verity’s $\infty $-cosmos theory, but formulated internally to Riehl–Shulman’s simplicial extension of homotopy type theory. All the constructions and proofs in this framework are by design invariant under homotopy equivalence. Semantically, the synthetic $(\infty ,1)$-categories correspond to internal $(\infty ,1)$-categories implemented as Rezk objects in an arbitrary given $(\infty ,1)$-topos.

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合成$$(\infty ,1)$$-类的双侧笛卡尔纤度

在里尔-舒尔曼（Riehl-Shulman）的合成（(\infty ,1)\）范畴理论的框架内，我们提出了一个两面笛卡尔纤维理论。其核心结果是对 Chevalley、Gray、Street 和 Riehl-Verity 的两面性条件的几个描述、一个两面米田(Yoneda)阶式，以及几个闭合性质的证明。在此过程中，我们还定义并研究了纤维或切片纤维的概念，稍后我们将利用这一概念以模块化的方式发展双面情况。我们还简要地讨论了这种情况下的、与 $(\infty ,1)$ - 分布器相对应的离散两面笛卡尔纤维。我们的定义和结果的系统性紧跟里尔-韦里提的（（\infty \）-cosmos）理论，但在内部是按照里尔-舒尔曼（Riehl-Shulman）的同调类型理论的简单扩展来制定的。这个框架中的所有构造和证明在同调等价性下都是不变的。从语义上讲，合成的（(\infty ,1)\）-类对应于内部的（(\infty ,1)\）-类，在任意给定的（(\infty ,1)\）-topos中作为Rezk对象实现。

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Two-sided cartesian fibrations of synthetic \((\infty ,1)\)-categories

Abstract