A Subdivision Algebra for a Product of Two Simplices via Flow Polytopes

Pub Date : 2024-06-28 DOI:10.1007/s00454-024-00671-9

Matias von Bell

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Abstract

For a lattice path \(\nu \) from the origin to a point (a, b) using steps \(E=(1,0)\) and \(N=(0,1)\), we construct an associated flow polytope \({\mathcal {F}}_{{\widehat{G}}_B(\nu )}\) arising from an acyclic graph where bidirectional edges are permitted. We show that the flow polytope \({\mathcal {F}}_{{\widehat{G}}_B(\nu )}\) admits a subdivision dual to a \((w-1)\)-simplex, where w is the number of valleys in the path \({\overline{\nu }} = E\nu N\). Refinements of this subdivision can be obtained by reductions of a polynomial \(P_\nu \) in a generalization of Mészáros’ subdivision algebra for acyclic root polytopes where negative roots are allowed. Via an integral equivalence between \({\mathcal {F}}_{{\widehat{G}}_B(\nu )}\) and the product of simplices \(\Delta _a\times \Delta _b\), we thereby obtain a subdivision algebra for a product of two simplices. As a special case, we give a reduction order for reducing \(P_\nu \) that yields the cyclic \(\nu \)-Tamari complex of Ceballos, Padrol, and Sarmiento.

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通过流多边形计算两简约积的细分代数

对于使用步骤 \(E=(1,0)\ 和 \(N=(0,1)\) 从原点到点（a, b）的网格路径 \({\mathcal {F}}_{{\widehat{G}}_B(\nu )}\) ，我们构建了一个由允许双向边的无循环图产生的相关流多面体 \({\mathcal {F}}_{{\widehat{G}}_B(\nu )}\) 。我们证明了流动多面体 \({\mathcal {F}}_{{\widehat{G}}_B(\nu )}\) 允许一个与 \((w-1)\)-simplex 对偶的细分，其中 w 是路径 \({\overline\{nu }} = E\nu N\) 中山谷的数量。这种细分的细化可以通过多项式 \(P_\nu \)在梅萨罗斯的细分代数中的广义化来获得，梅萨罗斯的细分代数适用于允许负根的无环根多面体。通过 \({mathcal {F}}_{{\widehat{G}}_B(\nu )}\) 和单纯形的乘积 \(\Delta _a\times \Delta _b\)之间的积分等价，我们得到了两个单纯形乘积的细分代数。作为一个特例，我们给出了还原 \(P_\nu \)的还原阶，得到了塞瓦略斯（Ceballos）、帕德罗尔（Padrol）和萨米恩托（Sarmiento）的循环 \(\nu \)-塔马里复数。

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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