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GRIN metamaterial generalized Luneburg lens for ultra-long acoustic jet

Chunyao Lu, Run Yu, Qiujun Ma, Kangyu Wang, Jing Wang, Dawei Wu

2021Applied Physics Letters30 citationsDOI

Abstract

In this work, a 3D-printed mesoscale acoustic generalized Luneburg lens based on cylindrical metamaterial is proposed. Compared to isotropic lenses, we numerically and experimentally demonstrate a series of advantages of lens including the super long work distance (over 17λ, 20 kHz in air), without obvious sidelobe, and better acoustic impedance matching. The ray tracing method is revealed to interpret the ultra-long acoustic jets mechanism. The adjustment of the lattice unit composition allows for the manipulation of air and underwater acoustic waves. The present work inspires a straightforward strategy for ultra-long acoustic jets, with promising applications in imaging and treatment in biological tissues.

Topics & Concepts

Luneburg lensMetamaterialOpticsLens (geology)AcousticsAcoustic waveIsotropyAcoustic impedancePhysicsMaterials scienceRefractive indexUltrasonic sensorAcoustic Wave Phenomena ResearchMetamaterials and Metasurfaces ApplicationsAerodynamics and Acoustics in Jet Flows
GRIN metamaterial generalized Luneburg lens for ultra-long acoustic jet | Litcius