Observation of Acoustic Valley Vortex States and Valley-Chirality Locked Beam Splitting

TL;DR

This paper experimentally demonstrates acoustic valley vortex states in a 2D sonic crystal, revealing valley-dependent vortex chirality and beam splitting, which could enable novel acoustic device functionalities.

Contribution

It reports the first experimental observation of acoustic valley vortex states and valley-chirality locked beam splitting in a 2D sonic crystal.

Findings

Observation of valley polarized states with frequency gap

Direct phase profile characterization of vortex states

Detection of valley-dependent beam splitting

Abstract

The Letter reports an experimental observation of the classical version of valley polarized states in a two-dimensional hexagonal sonic crystal, where the inversion-symmetry breaking of scatterers induces an omnidirectional frequency gap. The acoustic valley states, which carry specific linear momenta and orbital angular momenta, were selectively excited by external Gaussian beams and conveniently confirmed by the pressure distribution outside the crystal, according to the criterion of momentum conservation. The vortex nature of such intriguing crystal states was directly characterized by scanning the phase profile inside the crystal. In addition, we observed a peculiar beam splitting phenomenon, in which the separated beams are constructed by different valleys and locked to the opposite vortex chirality. The exceptional sound transport, encoded with valley-chirality locked information, may serve as the basis of designing conceptually novel acoustic devices with unconventional functions.