A unipotent realization of the chromatic quasisymmetric function

IF 0.9 1区 数学 Q2 MATHEMATICS Algebra & Number Theory Pub Date : 2024-09-19 DOI:10.2140/ant.2024.18.1737
Lucas Gagnon
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Abstract

We realize two families of combinatorial symmetric functions via the complex character theory of the finite general linear group GL n(𝔽q): chromatic quasisymmetric functions and vertical strip LLT polynomials. The associated GL n(𝔽q) characters are elementary in nature and can be obtained by induction from certain well-behaved characters of the unipotent upper triangular groups UT n(𝔽q). The proof of these results also gives a general Hopf algebraic approach to computing the induction map. Additional results include a connection between the relevant GL n(𝔽q) characters and Hessenberg varieties and a reinterpretation of known theorems and conjectures about the relevant symmetric functions in terms of GL n(𝔽q).

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色度准对称函数的单能实现
我们通过有限一般线性群 GL n(𝔽q) 的复特征理论实现了两个组合对称函数族:色度准对称函数和垂直条带 LLT 多项式。相关的 GL n(𝔽q) 字符本质上是基本的,可以通过归纳从单向上三角群 UT n(𝔽q) 的某些良好字符得到。这些结果的证明还给出了计算归纳映射的一般霍普夫代数方法。其他结果包括相关 GL n(𝔽q) 字符与海森伯变体之间的联系,以及用 GL n(𝔽q) 重新解释有关对称函数的已知定理和猜想。
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来源期刊
Algebra & Number Theory
Algebra & Number Theory MATHEMATICS-
CiteScore
1.80
自引率
7.70%
发文量
52
审稿时长
6-12 weeks
期刊介绍: ANT’s inclusive definition of algebra and number theory allows it to print research covering a wide range of subtopics, including algebraic and arithmetic geometry. ANT publishes high-quality articles of interest to a broad readership, at a level surpassing all but the top four or five mathematics journals. It exists in both print and electronic forms. The policies of ANT are set by the editorial board — a group of working mathematicians — rather than by a profit-oriented company, so they will remain friendly to mathematicians'' interests. In particular, they will promote broad dissemination, easy electronic access, and permissive use of content to the greatest extent compatible with survival of the journal. All electronic content becomes free and open access 5 years after publication.
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