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基于奇偶时间对称的隐形声传感器。

An invisible acoustic sensor based on parity-time symmetry.

机构信息

Department of Electrical &Computer Engineering, The University of Texas at Austin, 1616 Guadalupe Streeet, Austin, Texas 78701, USA.

出版信息

Nat Commun. 2015 Jan 6;6:5905. doi: 10.1038/ncomms6905.

Abstract

Sensing an incoming signal is typically associated with absorbing a portion of its energy, inherently perturbing the measurement and creating reflections and shadows. Here, in contrast, we demonstrate a non-invasive, shadow-free, invisible sensor for airborne sound waves at audible frequencies, which fully absorbs the impinging signal, without at the same time perturbing its own measurement or creating a shadow. This unique sensing device is based on the unusual scattering properties of a parity-time (PT) symmetric metamaterial device formed by a pair of electro-acoustic resonators loaded with suitably tailored non-Foster electrical circuits, constituting the acoustic equivalent of a coherent perfect absorber coupled to a coherent laser. Beyond the specific application to non-invasive sensing, our work broadly demonstrates the unique relevance of PT-symmetric metamaterials for acoustics, loss compensation and extraordinary wave manipulation.

摘要

感知传入信号通常与吸收其部分能量有关,这会固有地干扰测量并产生反射和阴影。相比之下,在这里,我们展示了一种用于可听频率空气传播声波的非侵入式、无阴影、不可见的传感器,它可以完全吸收入射信号,而不会同时干扰其自身的测量或产生阴影。这种独特的传感装置基于奇偶时间 (PT) 对称超材料器件的异常散射特性,该器件由一对加载有适当定制的非福斯特电电路的电声谐振器形成,构成了与相干激光耦合的相干完美吸收器的声学等效物。除了在非侵入式传感方面的具体应用,我们的工作还广泛证明了 PT 对称超材料在声学、损耗补偿和非凡波操控方面的独特相关性。

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