Experimental demonstration of Willis coupling for elastic torsional waves
Yiran Hao, Ya‐Xi Shen, Jean‐Philippe Groby, Jensen Li
Abstract
While Willis coupling has been originally proposed as the analog bianisotropy for elastic waves in a bulk solid, its realizations are currently limited to airborne sound and flexural waves on an elastic beam. Here, we experimentally demonstrate Willis coupling for elastic torsional waves on a thin beam. The design is achieved by breaking mirror symmetry for a metamaterial atom with local resonance for the particular type of elastic waves, which also serves as a universal approach in generating Willis coupling. The investigations will be useful for non-destructive testing on pipes and beam structures with torsional waves.
Topics & Concepts
MetamaterialPhysicsBeam (structure)Coupling (piping)AcousticsResonance (particle physics)Love waveLongitudinal waveMechanical waveMechanicsOpticsClassical mechanicsWave propagationMaterials scienceAtomic physicsComposite materialAcoustic Wave Phenomena ResearchUltrasonics and Acoustic Wave PropagationExperimental and Theoretical Physics Studies