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Pure and Applied Mathematics Quarterly
Volume 20 (2024)
Number 3
Special Issue in Honor of Claudio Procesi
Guest Editors: Luca Migliorini, Paolo Papi, and Mario Salvetti
Milnor fibre homology complexes
Pages: 1371 – 1431
DOI: https://dx.doi.org/10.4310/PAMQ.2024.v20.n3.a9
Authors
Abstract
Let $W$ be a finite Coxeter group. We give an algebraic presentation of what we refer to as “the non-crossing algebra”, which is associated to the hyperplane complement of $W$ and to the cohomology of its Milnor fibre. This is used to produce simpler and more general chain (and cochain) complexes which compute the integral homology and cohomology groups of the Milnor fibre $F$ of $W$. In the process we define a new, larger algebra $\tilde{A}$, which seems to be “dual” to the Fomin–Kirillov algebra, and in low ranks is linearly isomorphic to it. There is also a mysterious connection between $\tilde{A}$ and the Orlik–Solomon algebra, in analogy with the fact that the Fomin–Kirillov algebra contains the coinvariant algebra of $W$. This analysis is applied to compute the multiplicities ${\langle \rho, H^k (F, \mathbb{C}) \rangle}_W$ and ${\langle \rho, H^k (M, \mathbb{C}) \rangle}_W$, where $M$ and $F$ are respectively the hyperplane complement and Milnor fibre associated to $W$ and $\rho$ is a representation of $W$.
Keywords
Milnor fibre, noncrossing partition lattice, hyperplane arrangement
2010 Mathematics Subject Classification
05Exx, 14N20, 20F55
Dedicated to Claudio Procesi, good friend, Italian mathematician
Received 17 October 2022
Received revised 7 February 2023
Accepted 8 March 2023
Published 15 May 2024