Thomas Haettel
Published 2022-06-19Version 1
Consider an affine Coxeter group $W$ acting by isometries on the Euclidean space $\mathbb{R}^n$, and the arrangement of its reflection hyperplanes. The fundamental group of the complement $Y_W$ of the complexification of this arrangement in $\mathbb{C}^n$ mod out by $W$ is the affine Artin group $G_W$ associated with $W$. The $K(\pi,1)$ conjecture states that $Y_W$ is a classifying space for $G_W$. It has been recently proved by Paolini and Salvetti building on the works of McCammond and Sulway. We will present some ingredients of the proof that rests on the study of dual Garside structures for affine Artin groups, the factorisations of Euclidean isometries, and the shellability of noncrossing partitions. One consequence is that affine Artin groups, as well as braided crystallographic groups, have a finite classifying space.
Comments: 50 pages, 18 figures, in French. Notes for a Bourbaki seminar in June 2022
Proof of the $K(π,1)$ conjecture for affine Artin groups
Introduction to stability conditions and its relation to the $K(π,1)$ conjecture for Artin groups
The affine Artin group of type $\widetilde B_n$ is virtually poly-free
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