Collimated beam formation in 3D acoustic sonic crystals

IF 2.8 2区 物理与天体物理 Q2 PHYSICS, MULTIDISCIPLINARY New Journal of Physics Pub Date : 2024-07-11 DOI:10.1088/1367-2630/ad5c94
A L Vanel, M Dubois, C Tronche, S Fu, Y-T Wang, G Dupont, A D Rakić, K Bertling, R Abdeddaim, S Enoch, R V Craster, G Li, S Guenneau and J Perchoux
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Abstract

We demonstrate strongly collimated beam formation, at audible frequencies, in a three-dimensional acoustic phononic crystal where the wavelength is commensurate with the crystal elements; the crystal is a seemingly simple rectangular cuboid constructed from closely-spaced spheres, and yet demonstrates rich wave phenomena acting as a canonical three-dimensional metamaterial. We employ theory, numerical simulation and experiments to design and interpret this collimated beam phenomenon and use a crystal consisting of a finite rectangular cuboid array of polymer spheres 1.38 cm in diameter in air, arranged in a primitive cubic cell with the centre-to-centre spacing of the spheres, i.e. the pitch, as 1.5 cm. Collimation effects are observed in the time domain for chirps with central frequencies at 14.2 kHz and 18 kHz, and we deployed a laser feedback interferometer or Self-Mixing Interferometer – a recently proposed technique to observe complex acoustic fields—that enables experimental visualisation of the pressure field both within the crystal and outside of the crystal. Numerical exploration using a higher-order multi-scale finite element method designed for the rapid and detailed simulation of 3D wave physics further confirms these collimation effects and cross-validates with the experiments. Interpretation follows using High Frequency Homogenization and Bloch analysis whereby the different origin of the collimation at these two frequencies is revealed by markedly different isofrequency surfaces of the sonic crystal.
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三维声波晶体中的准直光束形成
我们展示了在波长与晶体元件相称的三维声波晶体中,在可听频率下形成的强准直光束;该晶体是由紧密间隔的球体构成的看似简单的矩形立方体,但却展示了作为典型三维超材料的丰富波现象。我们运用理论、数值模拟和实验来设计和解释这种准直光束现象,并使用了一种由空气中直径为 1.38 厘米的聚合物球组成的有限矩形立方体阵列晶体,该晶体排列在原始立方体单元中,球体的中心到中心间距(即间距)为 1.5 厘米。我们部署了一个激光反馈干涉仪或自混合干涉仪--这是最近提出的一种观测复杂声场的技术--可以对晶体内外的压力场进行可视化实验。使用高阶多尺度有限元方法进行的数值探索,旨在快速、详细地模拟三维波物理,进一步证实了这些准直效应,并与实验进行了交叉验证。随后使用高频均质化和布洛赫分析法进行解释,通过声波晶体明显不同的等频表面,揭示了这两种频率下准直的不同起源。
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来源期刊
New Journal of Physics
New Journal of Physics 物理-物理:综合
CiteScore
6.20
自引率
3.00%
发文量
504
审稿时长
3.1 months
期刊介绍: New Journal of Physics publishes across the whole of physics, encompassing pure, applied, theoretical and experimental research, as well as interdisciplinary topics where physics forms the central theme. All content is permanently free to read and the journal is funded by an article publication charge.
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