Effective models of metasurface/metainterface made of three-dimensional Helmholtz resonators
We study a reflective metasurface made of 3D subwavelength Helmholtz resonators. We provide an effective model in the time domain obtained by using a three-scale asymptotic approach. The metasurface is reduced to an homogenized boundary condition involving a resonant, frequency dependant
impedance. Our effective model takes into account boundary layer effects near the neck opening, and we provide a precise method to calculate the " added length ". The study is extended to meta-interface in transmission, where the set of effective boundary conditions are replaced
by effective jump conditions, and the results are discussed in frequency domain with comparison with direct numerical simulations.
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Document Type: Research Article
Affiliations: 1: ENSTA Paris 2: Institut Langevin, CNRS, ESPCI ParisTech
Publication date: 04 October 2024
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