Litcius/Paper detail

Fluid-like elastic metasurface

Ye Jeong Shin, Hong Min Seung, Joo Hwan Oh

2023Applied Physics Letters12 citationsDOI

Abstract

What makes elastic waves different from other waves is the existence of various wave modes and coupling between these modes. Accordingly, the manipulation of elastic waves suffers from many limitations due to mode coupling, which is an inherent complex physical property of elastic waves. In this study, we propose fluid-like elastic metasurfaces that act as an acoustic (fluid) surface to perfectly eliminate mode coupling. Because longitudinal and shear waves are decoupled, only reflected longitudinal (or shear) waves exist when longitudinal (or shear) waves are incident. Using a strip-type unit cell, elastic metasurfaces mimicking acoustic hard-wall and soft-wall were designed and realized. In addition, numerical analysis and experiments were conducted to prove the validity of the designed unit cells. This study presents a more versatile metasurface by solving the mode coupling of solid elastic waves. In addition, two types of designed fluid-like metasurfaces are expected to be utilized in further studies considering the opposite phase shift characteristic.

Topics & Concepts

Longitudinal waveShear wavesCoupling (piping)Mechanical waveAcoustic waveShear (geology)PhysicsMechanicsLove waveLamb wavesAcousticsSurface waveOpticsWave propagationMode couplingClassical mechanicsMaterials scienceComposite materialAcoustic Wave Phenomena ResearchMetamaterials and Metasurfaces ApplicationsNoise Effects and Management