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Acoustic Beam Splitting and Cloaking Based on a Compressibility-Near-Zero Medium

Chang‐Qing Xu, Sibo Huang, Zhiwei Guo, Haitao Jiang, Yong Li, Ying Wu, Hong Chen

2022Physical Review Applied18 citationsDOIOpen Access PDF

Abstract

We report an artificial acoustic compressibility-near-zero medium made of a phononic crystal composed of epoxy blocks arranged in a square lattice. Its anisotropic effective density leads to a linear cross in its isofrequency contour in the vicinity of the Brillouin zone center, as its effective compressibility approaches zero. When a Gaussian beam is normally incident on the phononic crystal, a splitting effect is achieved at the frequency of the crossing point. Based on such a beam-splitting effect, an acoustic cloaking of an irregular-shaped object embedded in the phononic crystal is demonstrated both theoretically and experimentally. Such an anisotropic zero-index material offers a potential method to control acoustic waves.

Topics & Concepts

CompressibilityBrillouin zoneMaterials scienceAcoustic waveAnisotropyCloakingBeam (structure)Crystal (programming language)Square latticeCondensed matter physicsZero (linguistics)PhysicsOpticsAcousticsMetamaterialMechanicsLinguisticsProgramming languageIsing modelComputer sciencePhilosophyAcoustic Wave Phenomena ResearchMetamaterials and Metasurfaces ApplicationsThermal Radiation and Cooling Technologies
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