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Compact Quantum Metric Spaces from Free Graph Algebras (2109.06985v1)

Published 14 Sep 2021 in math.OA

Abstract: Starting with a vertex-weighted pointed graph $(\Gamma,\mu,v_0)$, we form the free loop algebra $\mathcal{S}_0$ defined in Hartglass-Penneys' article on canonical $\rm C*$-algebras associated to a planar algebra. Under mild conditions, $\mathcal{S}_0$ is a non-nuclear simple $\rm C*$-algebra with unique tracial state. There is a canonical polynomial subalgebra $A\subset \mathcal{S}_0$ together with a Dirac number operator $N$ such that $(A, L2A,N)$ is a spectral triple. We prove the Haagerup-type bound of Ozawa-Rieffel to verify $(\mathcal{S}_0, A, N)$ yields a compact quantum metric space in the sense of Rieffel. We give a weighted analog of Benjamini-Schramm convergence for vertex-weighted pointed graphs. As our $\rm C*$-algebras are non-nuclear, we adjust the Lip-norm coming from $N$ to utilize the finite dimensional filtration of $A$. We then prove that convergence of vertex-weighted pointed graphs leads to quantum Gromov-Hausdorff convergence of the associated adjusted compact quantum metric spaces. As an application, we apply our construction to the Guionnet-Jones-Shyakhtenko (GJS) $\rm C*$-algebra associated to a planar algebra. We conclude that the compact quantum metric spaces coming from the GJS $\rm C*$-algebras of many infinite families of planar algebras converge in quantum Gromov-Hausdorff distance.

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