Brian Fitzpatrick scite author profile

Through the application of layer potential techniques and Gohberg-Sigal theory we derive an original formula for the Minnaert resonance frequencies of arbitrarily shaped bubbles. We also provide a mathematical justification for the monopole approximation of scattering of acoustic waves by bubbles at their Minnaert resonant frequency. Our results are complemented by several numerical examples which serve to validate our formula in two dimensions.Mathematics Subject Classification (MSC2000): 35R30, 35C20.

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Double-negative acoustic metamaterials

Ammari

Fitzpatrick

Lee

et al. 2019

Quart. Appl. Math.

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Subwavelength phononic bandgap opening in bubbly media

Ammari

Fitzpatrick

Lee

et al. 2017

Journal of Differential Equations

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The aim of this paper is to show both analytically and numerically the existence of a subwavelength phononic bandgap in bubble phononic crystals. The key is an original formula for the quasi-periodic Minnaert resonance frequencies of an arbitrarily shaped bubble. The main findings in this paper are illustrated with a variety of numerical experiments.Mathematics Subject Classification (MSC2000): 35R30, 35C20.

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Honeycomb-Lattice Minnaert Bubbles

Ammari¹,

Fitzpatrick²,

Hiltunen³

et al. 2020

SIAM J. Math. Anal.

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