On involutions in symmetric groups and a conjecture of Lusztig

Jun Hu; Jing Zhang

doi:10.1016/j.aim.2015.10.003

On involutions in symmetric groups and a conjecture of Lusztig

Jun Hu^*, Jing Zhang

^*Corresponding author for this work

School of Mathematics and Statistics

Beijing Institute of Technology

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

23 Citations (Scopus)

Abstract

Let (W, S) be a Coxeter system equipped with a fixed automorphism * of order ≤2 which preserves S. Lusztig (and with Vogan in some special cases) have shown that the space spanned by set of "twisted" involutions (i.e., elements w∈W with w*=w-1) was naturally endowed with a module structure of the Hecke algebra of (W, S) with two distinguished bases, which can be viewed as twisted analogues of the well-known standard basis and Kazhdan-Lusztig basis. The transition matrix between these bases defines a family of polynomials Py,wσ which can be viewed as "twisted" analogues of the well-known Kazhdan-Lusztig polynomials of (W, S). Lusztig has conjectured that this module is isomorphic to the right ideal of the Hecke algebra (with Hecke parameter u²) associated to (W, S) generated by the element Xθ:=∑w*=wu-ℓ(w)Tw. In this paper we prove this conjecture in the case when *=id and W=Sn (the symmetric group on n letters). Our methods are expected to be generalised to all the other finite crystallographic Coxeter groups.

Original language	English
Pages (from-to)	1-30
Number of pages	30
Journal	Advances in Mathematics
Volume	287
DOIs	https://doi.org/10.1016/j.aim.2015.10.003
Publication status	Published - 10 Jan 2016

Keywords

Braid I-transformations
Involutions
Reduced I-expressions

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abstract = "Let (W, S) be a Coxeter system equipped with a fixed automorphism * of order ≤2 which preserves S. Lusztig (and with Vogan in some special cases) have shown that the space spanned by set of {"}twisted{"} involutions (i.e., elements w∈W with w*=w-1) was naturally endowed with a module structure of the Hecke algebra of (W, S) with two distinguished bases, which can be viewed as twisted analogues of the well-known standard basis and Kazhdan-Lusztig basis. The transition matrix between these bases defines a family of polynomials Py,wσ which can be viewed as {"}twisted{"} analogues of the well-known Kazhdan-Lusztig polynomials of (W, S). Lusztig has conjectured that this module is isomorphic to the right ideal of the Hecke algebra (with Hecke parameter u2) associated to (W, S) generated by the element Xθ:=∑w*=wu-ℓ(w)Tw. In this paper we prove this conjecture in the case when *=id and W=Sn (the symmetric group on n letters). Our methods are expected to be generalised to all the other finite crystallographic Coxeter groups.",

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AB - Let (W, S) be a Coxeter system equipped with a fixed automorphism * of order ≤2 which preserves S. Lusztig (and with Vogan in some special cases) have shown that the space spanned by set of "twisted" involutions (i.e., elements w∈W with w*=w-1) was naturally endowed with a module structure of the Hecke algebra of (W, S) with two distinguished bases, which can be viewed as twisted analogues of the well-known standard basis and Kazhdan-Lusztig basis. The transition matrix between these bases defines a family of polynomials Py,wσ which can be viewed as "twisted" analogues of the well-known Kazhdan-Lusztig polynomials of (W, S). Lusztig has conjectured that this module is isomorphic to the right ideal of the Hecke algebra (with Hecke parameter u2) associated to (W, S) generated by the element Xθ:=∑w*=wu-ℓ(w)Tw. In this paper we prove this conjecture in the case when *=id and W=Sn (the symmetric group on n letters). Our methods are expected to be generalised to all the other finite crystallographic Coxeter groups.

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On involutions in symmetric groups and a conjecture of Lusztig

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Keywords

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