Litcius/Paper detail

Mitigation of Rayleigh-like waves in granular media via multi-layer resonant metabarriers

R. Zaccherini, A. Palermo, A. Marzani, A. Colombi, V. Dertimanis, E. Chatzi

2020Applied Physics Letters38 citationsDOIOpen Access PDF

Abstract

In this work, we experimentally and numerically investigate the propagation and attenuation of vertically polarized surface waves in an unconsolidated granular medium equipped with small-scale metabarriers of different depths, i.e., arrays composed of one, two, and three embedded layers of sub-wavelength resonators. Our findings reveal how such a multi-layer arrangement strongly affects the attenuation of the surface wave motion within and after the barrier. When the surface waves collide with the barriers, the wavefront is back-scattered and steered downward underneath the oscillators. Due to the stiffness gradient of the granular medium, part of the wavefield is then rerouted to the surface level after overcoming the resonant array. Overall, the in-depth insertion of additional layers of resonators leads to a greater and broader band wave attenuation when compared to the single layer case.

Topics & Concepts

AttenuationWavefrontWave propagationSurface waveResonatorOpticsMaterials sciencePhysicsSurface (topology)Layer (electronics)AcousticsStiffnessLongitudinal waveMechanical waveGranular materialDisplacement (psychology)MechanicsAcoustic attenuationAcoustic waveRayleigh waveDispersion (optics)Love wavePhysical acousticsNonlinear Photonic SystemsAcoustic Wave Phenomena ResearchUltrasonics and Acoustic Wave Propagation