声学自旋的观测

Observation of acoustic spin.

作者信息

Shi Chengzhi, Zhao Rongkuo, Long Yang, Yang Sui, Wang Yuan, Chen Hong, Ren Jie, Zhang Xiang

机构信息

NSF Nano-scale Science and Engineering Center (NSEC), University of California, Berkeley, Berkeley, CA 94720, USA.

George W. Woodruff School of Mechanical Engineering, Georgia Institute of Technology, Atlanta, GA 30332, USA.

出版信息

Natl Sci Rev. 2019 Jul;6(4):707-712. doi: 10.1093/nsr/nwz059. Epub 2019 May 11.

DOI:10.1093/nsr/nwz059

PMID:34691925

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC8291453/

Abstract

Unlike optical waves, acoustic waves in fluids are described by scalar pressure fields, and therefore are considered spinless. Here, we demonstrate experimentally the existence of spin in acoustics. In the interference of two acoustic waves propagating perpendicularly to each other, we observed the spin angular momentum in free space as a result of the rotation of local particle velocity. We successfully measured the acoustic spin, and spin-induced torque acting on a designed lossy acoustic probe that results from absorption of the spin angular momentum. The acoustic spin is also observed in the evanescent field of a guided mode traveling along a metamaterial waveguide. We found spin-momentum locking in acoustic waves whose propagation direction is determined by the sign of spin. The observed acoustic spin could open a new door in acoustics and its applications for the control of wave propagation and particle rotation.

摘要

与光波不同，流体中的声波由标量压力场描述，因此被认为是无自旋的。在此，我们通过实验证明了声学中自旋的存在。在相互垂直传播的两列声波的干涉中，由于局部粒子速度的旋转，我们在自由空间中观测到了自旋角动量。我们成功测量了声学自旋，以及作用在因吸收自旋角动量而设计的有损声学探头上的自旋诱导扭矩。在沿超材料波导传播的导模的倏逝场中也观测到了声学自旋。我们发现了声波中的自旋-动量锁定，其传播方向由自旋的符号决定。观测到的声学自旋可能为声学及其在波传播控制和粒子旋转方面的应用打开一扇新的大门。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/6cc8/8291453/8b0b7feb6707/nwz059fig1.jpg

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声学自旋的观测

Observation of acoustic spin.

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