$n$表示型无限代数的分类

arXiv - MATH - Representation Theory Pub Date : 2024-09-10 DOI:arxiv-2409.06553

Darius Dramburg, Oleksandra Gasanova

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摘要

我们对 \~A 类型的 $n$ 代表无限代数 $\Lambda$ 进行了分类。这种类型的定义是要求 $\Lambda$ 有更高的前投影代数 $Pi_{n+1}(\Lambda) \simeq k[x_1, \ldots, x_{n+1}] \ast G$，其中 $G \leq\operatorname{SL}_{n+1}(k)$ 是有限无性的。为了进行分类，我们按照更精细的类型对这些数组进行分组，并给出了这些类型的组合特征。这基于所谓的高度函数，它概括了二聚模型中完美匹配的高度函数。在环几何和麦凯对应关系方面，这些类型构成了 $G$ 初级元素的格状复数。我们证明了同一类型的所有数组都是通过迭代 $n$-APR 倾斜相关的，因此它们的推导是等价的。通过不允许某些倾斜，我们把这个集合变成了有限分布网格，并构造了它的最大元素和最小元素。

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A classification of $n$-representation infinite algebras of type Ã

We classify $n$-representation infinite algebras $\Lambda$ of type \~A. This type is defined by requiring that $\Lambda$ has higher preprojective algebra $\Pi_{n+1}(\Lambda) \simeq k[x_1, \ldots, x_{n+1}] \ast G$, where $G \leq \operatorname{SL}_{n+1}(k)$ is finite abelian. For the classification, we group these algebras according to a more refined type, and give a combinatorial characterisation of these types. This is based on so-called height functions, which generalise the height function of a perfect matching in a Dimer model. In terms of toric geometry and McKay correspondence, the types form a lattice simplex of junior elements of $G$. We show that all algebras of the same type are related by iterated $n$-APR tilting, and hence are derived equivalent. By disallowing certain tilts, we turn this set into a finite distributive lattice, and we construct its maximal and minimal elements.

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arXiv - MATH - Representation Theory

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