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Functional analytic methods for discrete approximations of subwavelength resonator systems

Habib Ammari, Bryn Davies and Erik Orvehed Hiltunen
Vol. 6 (2024), No. 3, 873–939
DOI: 10.2140/paa.2024.6.873
Abstract

We survey functional analytic methods for studying subwavelength resonator systems. In particular, rigorous discrete approximations of Helmholtz scattering problems are derived in an asymptotic subwavelength regime. This is achieved by reframing the Helmholtz equation as a nonlinear eigenvalue problem in terms of integral operators. In the subwavelength limit, resonant states are described by the eigenstates of the generalised capacitance matrix, which appears by perturbing the elements of the kernel of the limiting operator. Using this formulation, we are able to describe subwavelength resonances and related phenomena. In particular, we demonstrate large-scale effective parameters with exotic values. We also show that these systems can exhibit localised and guided waves on very small length scales. Using the concept of topologically protected edge modes, such localisation can be made robust against structural imperfections.

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Keywords
subwavelength resonance, metamaterials, asymptotic expansions of eigenvalues, Helmholtz scattering, capacitance matrix, phase transition, topological insulators, wave localization
Mathematical Subject Classification
Primary: 35C20, 35J05, 35P20, 74J20
Milestones
Received: 24 January 2024
Revised: 25 April 2024
Accepted: 11 June 2024
Published: 1 October 2024
Authors
Habib Ammari
Department of Mathematics
ETH Zürich
Zürich
Switzerland
Bryn Davies
Department of Mathematics
Imperial College London
London
United Kingdom
Erik Orvehed Hiltunen
Department of Mathematics
Yale University
New Haven, CT
United States
© 2024 The Author(s), under exclusive license to MSP (Mathematical Sciences Publishers).