On diagonal digraphs, Koszul algebras and triangulations of homology spheres

arXiv - MATH - K-Theory and Homology Pub Date : 2024-05-08 DOI:arxiv-2405.04748

Sergei O. Ivanov, Lev Mukoseev

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Abstract

We present the magnitude homology of a finite digraph $G$ as a certain subquotient of its path algebra. We use this to prove that the second magnitude homology group ${\rm MH}_{2,\ell}(G,\mathbb{Z})$ is a free abelian group for any $\ell$, and to describe its rank. This allows us to give a condition, denoted by $(\mathcal{V}_2)$, equivalent to vanishing of ${\rm MH}_{2,\ell}(G,\mathbb{Z})$ for $\ell>2.$ Recall that a digraph is called diagonal, if its magnitude homology is concentrated in diagonal degrees. Using the condition $(\mathcal V_2),$ we show that the GLMY-fundamental group of a diagonal (undirected) graph is trivial. In other words, the two-dimensional CW-complex obtained from a diagonal graph by attaching 2-cells to all squares and triangles of the graph is simply connected. We also give an interpretation of diagonality in terms of Koszul algebras: a digraph $G$ is diagonal if and only if the distance algebra $\sigma G$ is Koszul for any ground field; and if and only if $G$ satisfies $(\mathcal{V}_2)$ and the path cochain algebra $\Omega^\bullet(G)$ is Koszul for any ground field. Besides, we show that the path cochain algebra $\Omega^\bullet(G)$ is quadratic for any $G.$ To obtain a source of examples of (non-)diagonal digraphs, we study the extended Hasse diagram $\hat G_K$ of a simplicial complex $K$. For a combinatorial triangulation $K$ of a piecewise-linear manifold $M,$ we express the non-diagonal part of the magnitude homology of $\hat G_K$ via the homology of $M$. As a corollary we obtain that, if $K$ is a combinatorial triangulation of a closed piecewise-linear manifold $M$, then $\hat G_K$ is diagonal if and only if $M$ is a homology sphere.

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论对角数图、科斯祖尔代数和同调球的三角剖分

我们将有限图 $G$ 的幅同调作为其路径代数的某个次方差来表示。我们用它来证明第二个幅同调群 ${rm MH}_{2,\ell}(G,\mathbb{Z})$对于任何 $\ell$ 都是一个自由的无性群，并描述它的秩。这使得我们可以给出一个条件，用 $(\mathcal{V}_2)$ 表示，相当于 ${rmMH}_{2,\ell}(G,\mathbb{Z})$ 在 $\ell>2 时消失。利用条件 $(\mathcal V_2), $ 我们证明了对角（无向）图的 GLMY 基群是微不足道的。换句话说，通过给对角图的所有正方形和三角形附加 2 个单元，从该图得到的二维 CW 复数是简单相连的。我们还用科斯祖尔代数给出了对角性的解释：如果并且只有当距离代数 $\sigma G$ 对于任何基域都是科斯祖尔时，数图 $G$ 才是对角的；如果并且只有当 $G$ 满足 $(\mathcal{V}_2)$ 并且路径共链代数 $\Omega^\bullet(G)$ 对于任何基域都是科斯祖尔时，数图 $G$ 才是对角的。此外，我们还证明了路径共链代数$\Omega^\bullet(G)$对于任意$G都是二次的。$ 为了获得（非）对角数图的例子来源，我们研究了简单复数$K$的扩展哈希德图$\hat G_K$。对于片线性流形 $M 的组合三角 $K$，我们通过 $M$ 的同源性来表达 $\hat G_K$ 的幅同源性的对角部分。作为推论，我们得到，如果 $K$ 是封闭片线性流形 $M$ 的组合三角剖分，那么当且仅当 $M$ 是一个同调球时，$\hat G_K$ 是对角的。

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arXiv - MATH - K-Theory and Homology

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