On Reflection Orders Compatible with a Coxeter Element

Henri Mühle

On Reflection Orders Compatible with a Coxeter Element

Combinatorics 2015-07-03 v3

Authors: Henri Mühle

Abstract

In this article we give a simple, almost uniform proof that the lattice of noncrossing partitions associated with a well-generated complex reflection group is lexicographically shellable. So far a uniform proof is available only for Coxeter groups. In particular we show that, for any complex reflection group $W$ and any element $x\in W$ , every $x$ -compatible reflection order is a recursive atom order of the corresponding interval in absolute order. Since any Coxeter element $\gamma$ in any well-generated complex reflection group admits a $\gamma$ -compatible reflection order, the lexicographic shellability follows from a well-known result due to Bj\"orner and Wachs.

Keywords

coxeter groups noncrossing partitions lattice theory

Cite

@article{arxiv.1405.3522,
  title  = {On Reflection Orders Compatible with a Coxeter Element},
  author = {Henri Mühle},
  journal= {arXiv preprint arXiv:1405.3522},
  year   = {2015}
}

Comments

This article was withdrawn, since the generalized statement that any compatible order below some reflection group element in absolute order is a recursive atom order is wrong. A counterexample is for instance the absolute order interval between the identity and the longest element in $H_3$. The statement for Coxeter elements is probably true. Comments welcome

On Reflection Orders Compatible with a Coxeter Element

Abstract

Keywords

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