波前
超材料
光束转向
声学
光学
声波
衍射
物理
调制(音乐)
梁(结构)
平面的
折射
计算机科学
计算机图形学(图像)
作者
Yangbo Xie,Wenqi Wang,Huanyang Chen,Adam Konneker,Bogdan Ioan Popa,Steven A. Cummer
摘要
Metasurfaces are a family of novel wavefront-shaping devices with planar profile and subwavelength thickness. Acoustic metasurfaces with ultralow profile yet extraordinary wave manipulating properties would be highly desirable for improving the performance of many acoustic wave-based applications. However, designing acoustic metasurfaces with similar functionality to their electromagnetic counterparts remains challenging with traditional metamaterial design approaches. Here we present a design and realization of an acoustic metasurface based on tapered labyrinthine metamaterials. The demonstrated metasurface can not only steer an acoustic beam as expected from the generalized Snell’s law, but also exhibits various unique properties such as conversion from propagating wave to surface mode, extraordinary beam-steering and apparent negative refraction through higher-order diffraction. Such designer acoustic metasurfaces provide a new design methodology for acoustic signal modulation devices and may be useful for applications such as acoustic imaging, beam steering, ultrasound lens design and acoustic surface wave-based applications. Metasurfaces are subwavelength structures that manipulate impinging waves into desired output waveforms, but building them for acoustic applications remains challenging. Exploiting tapered labyrinthine structures, Xie et al.present an acoustic metasurface that manipulates sound waves in a variety of ways.
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