Thickening of the diagonal and interleaving distance

IF 1.2 2区数学 Q1 MATHEMATICS

Selecta Mathematica-New Series Pub Date : 2023-09-20 DOI:10.1007/s00029-023-00875-6

Francois Petit, Pierre Schapira

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引用次数: 5

Abstract

Given a topological space X, a thickening kernel is a monoidal presheaf on $$({{\mathbb {R}}}_{\ge 0},+)$$ with values in the monoidal category of derived kernels on X. A bi-thickening kernel is defined on $$({{\mathbb {R}}},+)$$ . To such a thickening kernel, one naturally associates an interleaving distance on the derived category of sheaves on X. We prove that a thickening kernel exists and is unique as soon as it is defined on an interval containing 0, allowing us to construct (bi-)thickenings in two different situations. First, when X is a “good” metric space, starting with small usual thickenings of the diagonal. The associated interleaving distance satisfies the stability property and Lipschitz kernels give rise to Lipschitz maps. Second, by using (Guillermou et al. in Duke Math J 161:201–245, 2012), when X is a manifold and one is given a non-positive Hamiltonian isotopy on the cotangent bundle. In case X is a complete Riemannian manifold having a strictly positive convexity radius, we prove that it is a good metric space and that the two bi-thickening kernels of the diagonal, one associated with the distance, the other with the geodesic flow, coincide.

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对角线和交错距离加粗

给定一个拓扑空间X，一个增厚核是一个在$$({{\mathbb {R}}}_{\ge 0},+)$$上的一元预层，其值在X上的派生核的一元范畴内。一个双增厚核在$$({{\mathbb {R}}},+)$$上定义。对于这样的增厚核，人们很自然地将x上的束的派生范畴上的交错距离联系起来。我们证明了增厚核存在，并且一旦在包含0的区间上定义，它就是唯一的，从而允许我们在两种不同的情况下构造(双-)增厚。首先，当X是一个“好的”度量空间时，从对角线的通常增厚开始。相关的交错距离满足稳定性性质，利普希茨核产生利普希茨映射。其次，通过使用(Guillermou et al. in Duke Math J 161:201 - 245,2012)，当X是流形并且在共切束上给定非正哈密顿同位素时。如果X是具有严格正凸半径的完全黎曼流形，我们证明它是一个很好的度量空间，并且对角线的两个双增厚核，一个与距离有关，另一个与测地线流有关，重合。

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

Selecta Mathematica-New Series 数学-数学

CiteScore

2.30

自引率

7.10%

发文量

审稿时长

>12 weeks

期刊介绍： Selecta Mathematica, New Series is a peer-reviewed journal addressed to a wide mathematical audience. It accepts well-written high quality papers in all areas of pure mathematics, and selected areas of applied mathematics. The journal especially encourages submission of papers which have the potential of opening new perspectives.