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Main Author: Kleshchev, Alexander
Format: Preprint
Published: 2024
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Online Access:https://arxiv.org/abs/2411.02735
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author Kleshchev, Alexander
author_facet Kleshchev, Alexander
contents The irreducible modules over quiver Hecke superalgebras $R_θ$ can be classified in terms of cuspidal modules. To an indivisible positive root $α$ and a non-negative integer $d$, one associates a quotient $\bar R_{dα}$ of $R_{dα}$ called the cuspidal algebra. If the root $α$ is real, the cuspidal algebra is well-understood. But if $α=δ$, the imaginary null-root, the {\em imaginary cuspidal algebra} $\bar R_{dδ}$ is rather mysterious. It has been known that the number of the isomorphism classes of the irreducible $\bar R_{dδ}$-modules equals the number of the $\ell$-multipartitions of $d$, but there has been no way to canonically associate an irreducible $\bar R_{dδ}$-module to such a multipartiton. The imaginary cuspidal algebra is especially important because of its connections to the RoCK blocks of the double covers of symmetric and alternating groups. We undertake a detailed study of the imaginary cuspidal algebra and its representation theory. We use the so-called Gelfand-Graev idempotents and subtle degree and parity shifts to construct a (graded) Morita (super)equivalent algebra $\mathsf{C}(n,d)$ (for any $n\geq d$). The advantage of the algebra $\mathsf{C}(n,d)$ is that, unlike $\bar R_{dδ}$, it is non-negatively graded. Moreover, the degree zero component $\mathsf{C}(n,d)^0$ is shown to be isomorphic to the direct sum of tensor products of $\ell$ copies of the classical Schur algebras. This gives the classification (and the description of dimensions/characters, etc.) of the irreducible $\mathsf{C}(n,d)$-modules, and hence of the irreducible $\bar R_{dδ}$-modules, in terms of the classical Schur algebras. In particular, this allows us to canonically label these by the $\ell$-multipartitions of $d$. The results of this paper will be used in our future work on RoCK blocks of the double covers of symmetric groups.
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institution arXiv
publishDate 2024
record_format arxiv
spellingShingle Imaginary Schur-Weyl duality for quiver Hecke superalgebras
Kleshchev, Alexander
Representation Theory
20C20, 20C25, 20C30, 18N25
The irreducible modules over quiver Hecke superalgebras $R_θ$ can be classified in terms of cuspidal modules. To an indivisible positive root $α$ and a non-negative integer $d$, one associates a quotient $\bar R_{dα}$ of $R_{dα}$ called the cuspidal algebra. If the root $α$ is real, the cuspidal algebra is well-understood. But if $α=δ$, the imaginary null-root, the {\em imaginary cuspidal algebra} $\bar R_{dδ}$ is rather mysterious. It has been known that the number of the isomorphism classes of the irreducible $\bar R_{dδ}$-modules equals the number of the $\ell$-multipartitions of $d$, but there has been no way to canonically associate an irreducible $\bar R_{dδ}$-module to such a multipartiton. The imaginary cuspidal algebra is especially important because of its connections to the RoCK blocks of the double covers of symmetric and alternating groups. We undertake a detailed study of the imaginary cuspidal algebra and its representation theory. We use the so-called Gelfand-Graev idempotents and subtle degree and parity shifts to construct a (graded) Morita (super)equivalent algebra $\mathsf{C}(n,d)$ (for any $n\geq d$). The advantage of the algebra $\mathsf{C}(n,d)$ is that, unlike $\bar R_{dδ}$, it is non-negatively graded. Moreover, the degree zero component $\mathsf{C}(n,d)^0$ is shown to be isomorphic to the direct sum of tensor products of $\ell$ copies of the classical Schur algebras. This gives the classification (and the description of dimensions/characters, etc.) of the irreducible $\mathsf{C}(n,d)$-modules, and hence of the irreducible $\bar R_{dδ}$-modules, in terms of the classical Schur algebras. In particular, this allows us to canonically label these by the $\ell$-multipartitions of $d$. The results of this paper will be used in our future work on RoCK blocks of the double covers of symmetric groups.
title Imaginary Schur-Weyl duality for quiver Hecke superalgebras
topic Representation Theory
20C20, 20C25, 20C30, 18N25
url https://arxiv.org/abs/2411.02735