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STABILITY, COHOMOLOGY VANISHING, AND NONAPPROXIMABLE GROUPS

Marcus De Chiffre, Lev Glebsky, Alexander Lubotzky, Andreas Thom

2020Forum of Mathematics Sigma21 citationsDOIOpen Access PDF

Abstract

Several well-known open questions (such as: are all groups sofic/hyperlinear?) have a common form: can all groups be approximated by asymptotic homomorphisms into the symmetric groups $\text{Sym}(n)$ (in the sofic case) or the finite-dimensional unitary groups $\text{U}(n)$ (in the hyperlinear case)? In the case of $\text{U}(n)$ , the question can be asked with respect to different metrics and norms. This paper answers, for the first time, one of these versions, showing that there exist finitely presented groups which are not approximated by $\text{U}(n)$ with respect to the Frobenius norm $\Vert T\Vert _{\text{Frob}}=\sqrt{\sum _{i,j=1}^{n}|T_{ij}|^{2}},T=[T_{ij}]_{i,j=1}^{n}\in \text{M}_{n}(\mathbb{C})$ . Our strategy is to show that some higher dimensional cohomology vanishing phenomena implies stability , that is, every Frobenius-approximate homomorphism into finite-dimensional unitary groups is close to an actual homomorphism. This is combined with existence results of certain nonresidually finite central extensions of lattices in some simple $p$ -adic Lie groups. These groups act on high-rank Bruhat–Tits buildings and satisfy the needed vanishing cohomology phenomenon and are thus stable and not Frobenius-approximated.

Topics & Concepts

MathematicsHomomorphismCohomologyCombinatoricsGroup (periodic table)Unitary stateMatrix normRank (graph theory)Pure mathematicsPhysicsEigenvalues and eigenvectorsLawQuantum mechanicsPolitical scienceAdvanced Algebra and GeometryAlgebraic Geometry and Number TheoryGeometry and complex manifolds
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