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Control of the Swell by an Array of Helmholtz Resonators

Léo-Paul Euvé, Natalia Piesniewska, Agnès Maurel, Kim Pham, Philippe Petitjeans, Vincent Pagneux

2021Crystals11 citationsDOIOpen Access PDF

Abstract

We present a theoretical and experimental study of a resonator of the Helmholtz type for the control of the swell. An experimental demonstration of the shielding effect by a belt made of evenly distributed resonators is given. We then provide in-depth analysis of the Fano resonance resulting from the interference between the dock scattering (the background) and the resonant cavity scattering. This is done thanks to space–time resolved experiments which provides the complex-valued scattering coefficients and amplitude within the resonator. We provide a one-dimensional model derived in the shallow water regime owing to asymptotic analysis. The model contains the two ingredients of the Fano resonance and allows us to exhibit the damping due to leakage. When adding heuristically the damping due to losses, it reproduces the main features of the resonance observed experimentally.

Topics & Concepts

ResonatorHelmholtz resonatorScatteringSwellResonance (particle physics)Fano resonanceHelmholtz free energyPhysicsElectromagnetic shieldingAcousticsParameter spaceAmplitudeOpticsComputational physicsAtomic physicsMathematicsGeometryQuantum mechanicsThermodynamicsPlasmonUnderwater Acoustics ResearchAcoustic Wave Phenomena ResearchCoastal and Marine Dynamics
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