Litcius/Paper detail

Beating resonance patterns and extreme power flux skewing in anisotropic elastic plates

Daniel A. Kiefer, Sylvain Mézil, Claire Prada

2023Science Advances13 citationsDOIOpen Access PDF

Abstract

Elastic waves in anisotropic media can exhibit a power flux that is not collinear with the wave vector. This has notable consequences for waves guided in a plate. Through laser-ultrasonic experiments, we evidence remarkable phenomena due to slow waves in a single-crystal silicon wafer. Waves exhibiting power flux orthogonal to their wave vector are identified. A pulsed line source that excites these waves reveals a wave packet radiated parallel to the line. Furthermore, there exist precisely eight plane waves with zero power flux. These so-called zero-group-velocity modes are oriented along the crystal's principal axes. Time acts as a filter in the wave-vector domain that selects these modes. Thus, a point source leads to beating resonance patterns with moving nodal curves on the surface of the infinite plate. We observe this pattern as it emerges naturally after a pulsed excitation.

Topics & Concepts

PhysicsLamb wavesOpticsFlux (metallurgy)Mechanical waveAnisotropySurface waveWave vectorPlane waveLove waveWave propagationAcousticsComputational physicsLongitudinal waveMaterials scienceMetallurgyUltrasonics and Acoustic Wave PropagationAcoustic Wave Resonator TechnologiesMechanical and Optical Resonators