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The K-Theoretic Bulk-Boundary Principle for Dynamically Patterned Resonators

arXiv:1805.10629 · doi:10.1016/j.geomphys.2018.10.005

Abstract

Starting from a dynamical system $(Ω,G)$, with $G$ a generic topological group, we devise algorithms that generate families of patterns in the Euclidean space, which densely embed $G$ and on which $G$ acts continuously by rigid shifts. We refer to such patterns as being dynamically generated. For $G=\mathbb Z^d$, we adopt Bellissard's $C^\ast$-algebraic formalism to analyze the dynamics of coupled resonators arranged in dynamically generated point patterns. We then use the standard connecting maps of $K$-theory to derive precise conditions that assure the existence of topological boundary modes when a sample is halved. We supply four examples for which the calculations can be carried explicitly. The predictions are supported by many numerical experiments.

52 pages, 27 Figures