Cellular approximations to the diagonal map

IF 4.6 Q2 MATERIALS SCIENCE, BIOMATERIALS

ACS Applied Bio Materials Pub Date : 2024-04-24 DOI:10.1090/mcom/3981

Khaled Alzobydi, Graham Ellis

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引用次数: 0

Abstract

We describe an elementary algorithm for recursively constructing diagonal approximations on those finite regular CW-complexes for which the closure of each cell can be explicitly collapsed to a point. The algorithm is based on the standard proof of the acyclic carrier theorem, made constructive through the use of explicit contracting homotopies. It can be used as a theoretical tool for constructing diagonal approximations on families of polytopes in situations where the diagonals are required to satisfy certain coherence conditions. We compare its output to existing diagonal approximations for the families of simplices, cubes, associahedra and permutahedra. The algorithm yields a new explanation of a magical formula for the associahedron derived by Markl and Shnider [Trans. Amer. Math. Soc. 358 (2006), pp. 2353–2372] and Masuda, Thomas, Tonks, and Vallette [J. Éc. polytech. Math. 8 (2021), pp. 121–146] and Theorem 4.1 provides a magical formula for other polytopes. We also describe a computer implementation of the algorithm and illustrate it on a range of practical examples including the computation of cohomology rings for some low-dimensional manifolds. To achieve some of these examples the paper includes two approaches to generating a regular CW-complex structure on closed compact 3 3 -manifolds, one using an implementation of Dehn surgery on links and the other using an implementation of pairwise identifications of faces in a tessellated boundary of the 3 3 -ball. The latter is illustrated in Proposition 8.1 with a topological classification of all closed orientable 3 3 -manifolds arising from pairwise identifications of faces of the cube.

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对角线图的细胞近似值

我们描述了一种在有限正则 CW 复数上递归构造对角线近似的基本算法，对于这些有限正则 CW 复数，每个单元的闭合可以明确地折叠为一个点。该算法基于非循环载体定理的标准证明，并通过使用显式收缩同调而变得具有构造性。在要求对角线满足特定一致性条件的情况下，它可以作为一种理论工具，用于构建多边形族的对角线近似。我们将它的输出结果与现有的简面、立方体、联面和高面族的对角线近似值进行了比较。该算法对 Markl 和 Shnider [Trans. Amer. Math. Soc. 358 (2006), pp.我们还描述了该算法的计算机实现，并在一系列实际例子中进行了说明，包括一些低维流形的同调环计算。为了实现其中的一些例子，论文包含了在封闭紧凑的 3 3 -manifolds 上生成正则 CW-complex 结构的两种方法，一种是在链接上使用 Dehn 手术的实现方法，另一种是在 3 3 -ball 的网格边界上使用面的成对识别的实现方法。后者在命题 8.1 中以立方体面的成对识别所产生的所有封闭可定向 3 3 -manifold 的拓扑分类来说明。

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

ACS Applied Bio Materials Chemistry-Chemistry (all)

CiteScore

9.40

自引率

2.10%

发文量

464