K-Orbit closures and Hessenberg varieties

Mahir Bilen Can; Martha Precup; John Shareshian; Özlem Uǧurlu

doi:10.1017/fms.2025.10063

K-Orbit closures and Hessenberg varieties

Mahir Bilen Can
, Martha Precup
, John Shareshian
, Özlem Uǧurlu

Research output: Contribution to journal › Article › peer-review

Abstract

This article explores the relationship between Hessenberg varieties associated with semisimple operators with two eigenvalues and orbit closures of a spherical subgroup of the general linear group. We establish the specific conditions under which these semisimple Hessenberg varieties are irreducible. We determine the dimension of each irreducible Hessenberg variety under consideration and show that the number of such varieties is a Catalan number. We then apply a theorem of Brion to compute a polynomial representative for the cohomology class of each such variety. Additionally, we calculate the intersections of a standard (Schubert) hyperplane section of the flag variety with each of our Hessenberg varieties and prove that this intersection possesses a cohomological multiplicity-free property.

Original language	English
Article number	e103
Journal	Forum of Mathematics, Sigma
Volume	13
DOIs	https://doi.org/10.1017/fms.2025.10063
State	Published - Jun 30 2025

Keywords

14M15 14M27 05A05

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10.1017/fms.2025.10063

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title = "K-Orbit closures and Hessenberg varieties",

abstract = "This article explores the relationship between Hessenberg varieties associated with semisimple operators with two eigenvalues and orbit closures of a spherical subgroup of the general linear group. We establish the specific conditions under which these semisimple Hessenberg varieties are irreducible. We determine the dimension of each irreducible Hessenberg variety under consideration and show that the number of such varieties is a Catalan number. We then apply a theorem of Brion to compute a polynomial representative for the cohomology class of each such variety. Additionally, we calculate the intersections of a standard (Schubert) hyperplane section of the flag variety with each of our Hessenberg varieties and prove that this intersection possesses a cohomological multiplicity-free property.",

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AU - Precup, Martha

AU - Shareshian, John

AU - Uǧurlu, Özlem

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Y1 - 2025/6/30

N2 - This article explores the relationship between Hessenberg varieties associated with semisimple operators with two eigenvalues and orbit closures of a spherical subgroup of the general linear group. We establish the specific conditions under which these semisimple Hessenberg varieties are irreducible. We determine the dimension of each irreducible Hessenberg variety under consideration and show that the number of such varieties is a Catalan number. We then apply a theorem of Brion to compute a polynomial representative for the cohomology class of each such variety. Additionally, we calculate the intersections of a standard (Schubert) hyperplane section of the flag variety with each of our Hessenberg varieties and prove that this intersection possesses a cohomological multiplicity-free property.

AB - This article explores the relationship between Hessenberg varieties associated with semisimple operators with two eigenvalues and orbit closures of a spherical subgroup of the general linear group. We establish the specific conditions under which these semisimple Hessenberg varieties are irreducible. We determine the dimension of each irreducible Hessenberg variety under consideration and show that the number of such varieties is a Catalan number. We then apply a theorem of Brion to compute a polynomial representative for the cohomology class of each such variety. Additionally, we calculate the intersections of a standard (Schubert) hyperplane section of the flag variety with each of our Hessenberg varieties and prove that this intersection possesses a cohomological multiplicity-free property.

KW - 14M15 14M27 05A05

UR - https://www.scopus.com/pages/publications/105009960610

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DO - 10.1017/fms.2025.10063

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SN - 2050-5094

VL - 13

JO - Forum of Mathematics, Sigma

JF - Forum of Mathematics, Sigma

M1 - e103

ER -

K-Orbit closures and Hessenberg varieties

Abstract

Keywords

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