English

Invariant Coupling of Determinantal Measures on Sofic Groups

Probability 2019-02-20 v2 Group Theory Operator Algebras

Abstract

To any positive contraction QQ on 2(W)\ell^2(W), there is associated a determinantal probability measure PQ{\mathbf P}^Q on 2W2^W, where WW is a denumerable set. Let Γ\Gamma be a countable sofic finitely generated group and G=(Γ,E)G = (\Gamma, \mathsf{E}) be a Cayley graph of Γ\Gamma. We show that if Q1Q_1 and Q2Q_2 are two Γ\Gamma-equivariant positive contractions on 2(Γ)\ell^2(\Gamma) or on 2(E)\ell^2(\mathsf{E}) with Q1Q2Q_1 \le Q_2, then there exists a Γ\Gamma-invariant monotone coupling of the corresponding determinantal probability measures witnessing the stochastic domination PQ1PQ2{\bf P}^{Q_1} \preccurlyeq {\bf P}^{Q_2}. In particular, this applies to the wired and free uniform spanning forests, which was known before only when Γ\Gamma is residually amenable. In the case of spanning forests, we also give a second more explicit proof, which has the advantage of showing an explicit way to create the free uniform spanning forest as a limit over a sofic approximation. Another consequence of our main result is to prove that all determinantal probability measures PQ{\bf P}^Q as above are dˉ{\bar d}-limits of finitely dependent processes. Thus, when Γ\Gamma is amenable, PQ{\bf P}^Q is isomorphic to a Bernoulli shift, which was known before only when Γ\Gamma is abelian. We also prove analogous results for sofic unimodular random rooted graphs.

Keywords

Cite

@article{arxiv.1402.0969,
  title  = {Invariant Coupling of Determinantal Measures on Sofic Groups},
  author = {Russell Lyons and Andreas Thom},
  journal= {arXiv preprint arXiv:1402.0969},
  year   = {2019}
}

Comments

39 pages, no figures; v2 final version

R2 v1 2026-06-22T03:01:43.673Z