超声通过三维声子晶体的隧穿效应。

Ultrasound tunneling through 3D phononic crystals.

作者信息

Yang Suxia, Page J H, Liu Zhengyou, Cowan M L, Chan C T, Sheng Ping

机构信息

Department of Physics and Astronomy, University of Manitoba, Winnipeg, Manitoba, Canada.

出版信息

Phys Rev Lett. 2002 Mar 11;88(10):104301. doi: 10.1103/PhysRevLett.88.104301. Epub 2002 Feb 26.

DOI:10.1103/PhysRevLett.88.104301

PMID:11909358

Abstract

We report the study of ultrasound tunneling in 3D phononic crystals, consisting of fcc arrays of close-packed tungsten carbide beads in water. The transmission coefficient, phase velocity, and group velocity were measured along the [111] direction, allowing us to systematically investigate the tunneling of ultrasound at frequencies in the lowest band gap. Our experimental data are interpreted using multiple scattering theory, which provides a good explanation of our results. The effect of absorption and the difference between the tunneling of classical waves and quantum waves are discussed.

摘要

我们报告了对三维声子晶体中超声隧穿的研究，该晶体由水中紧密堆积的碳化钨珠的面心立方阵列组成。沿着[111]方向测量了传输系数、相速度和群速度，这使我们能够系统地研究最低带隙频率下超声的隧穿。我们使用多重散射理论来解释实验数据，该理论对我们的结果提供了很好的解释。讨论了吸收的影响以及经典波和量子波隧穿之间的差异。

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超声通过三维声子晶体的隧穿效应。

Ultrasound tunneling through 3D phononic crystals.

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