哪些海森伯格变种是GKM?

Pub Date : 2023-11-20 DOI:10.4310/pamq.2023.v19.n4.a8

Rebecca Goldin, Julianna Tymoczko

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引用次数: 1

摘要

Hessenberg变元$\mathcal{H}(X,H)$构成标志变元$G/B$的一类子变元，由算子$X$和李代数$G$的某些子空间$H$参数化。我们确定了$A_{n-1}$类型的几个Hessenberg变量族，它们是$G/B$的$T稳定子变量，以及$T$的$K$子环下不变的族。特别地，这些变体是使用等变方法来研究其几何的候选者。事实上，我们能够证明这些变种中的一些是舒伯特变种的并集，而另一些则不能是这样的并集。在$T$稳定的Hessenberg变体中，我们确定了几个是GKM空间，这意味着$T$具有孤立不动点和有限个一维轨道，尽管我们也表明并非所有具有环面作用和有限个不动点的Hessenberg变体都是GKM。最后，我们得到了一系列关于Hessenberg变分的未解问题，包括类型$A_{n-1}$和一般Lie类型。

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Which Hessenberg varieties are GKM?

Hessenberg varieties $\mathcal{H}(X,H)$ form a class of subvarieties of the flag variety $G/B$, parameterized by an operator $X$ and certain subspaces $H$ of the Lie algebra of $G$. We identify several families of Hessenberg varieties in type $A_{n-1}$ that are $T$-stable subvarieties of $G/B$, as well as families that are invariant under a subtorus $K$ of $T$. In particular, these varieties are candidates for the use of equivariant methods to study their geometry. Indeed, we are able to show that some of these varieties are unions of Schubert varieties, while others cannot be such unions. Among the $T$-stable Hessenberg varieties, we identify several that are GKM spaces, meaning $T$ acts with isolated fixed points and a finite number of one-dimensional orbits, though we also show that not all Hessenberg varieties with torus actions and finitely many fixed points are GKM. We conclude with a series of open questions about Hessenberg varieties, both in type $A_{n-1}$ and in general Lie type.

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