On the linearity of lattices in affine buildings and ergodicity of the singular Cartan flow

Bader, Uri; Caprace, Pierre-Emmanuel; Lécureux, Jean

doi:10.1090/jams/914

On the linearity of lattices in affine buildings and ergodicity of the singular Cartan flow
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by Uri Bader, Pierre-Emmanuel Caprace and Jean Lécureux

J. Amer. Math. Soc. 32 (2019), 491-562

DOI: https://doi.org/10.1090/jams/914

Published electronically: November 27, 2018

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Abstract:

Let $X$ be a locally finite irreducible affine building of dimension $\geq 2$, and let $\Gamma \leq \operatorname {Aut}(X)$ be a discrete group acting cocompactly. The goal of this paper is to address the following question: When is $\Gamma$ linear? More generally, when does $\Gamma$ admit a finite-dimensional representation with infinite image over a commutative unital ring? If $X$ is the Bruhat–Tits building of a simple algebraic group over a local field and if $\Gamma$ is an arithmetic lattice, then $\Gamma$ is clearly linear. We prove that if $X$ is of type $\widetilde {A}_2$, then the converse holds. In particular, cocompact lattices in exotic $\widetilde {A}_2$-buildings are nonlinear. As an application, we obtain the first infinite family of lattices in exotic $\widetilde {A}_2$-buildings of arbitrarily large thickness, providing a partial answer to a question of W. Kantor from 1986. We also show that if $X$ is Bruhat–Tits of arbitrary type, then the linearity of $\Gamma$ implies that $\Gamma$ is virtually contained in the linear part of the automorphism group of $X$; in particular, $\Gamma$ is an arithmetic lattice. The proofs are based on the machinery of algebraic representations of ergodic systems recently developed by U. Bader and A. Furman. The implementation of that tool in the present context requires the geometric construction of a suitable ergodic $\Gamma$-space attached to the the building $X$, which we call the singular Cartan flow.

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