A reconfigurable membrane-type acoustic metasurface for low-frequency and broadband wave front modulation

宽带 干扰(通信) 声学 计算机科学 超材料 调制(音乐) 电子工程 光学 物理 电信 工程类 频道(广播)
作者
Xinpei Song,Tianning Chen,Jian Zhu,Yanbin He
出处
期刊:International Journal of Modern Physics B [World Scientific]
卷期号:33 (19): 1950208-1950208 被引量:4
标识
DOI:10.1142/s0217979219502084
摘要

Low-frequency and broadband are the critical challenges in real-life applications. Here, we try to tackle the challenges by proposing a reconfigurable acoustic metasurface (AM) composed of the membrane-type metamaterial (MAM) structure of deep sub-wavelength scale. By employing the external air pumping system into each individual unit cell of the AM, the tension of the membrane can be readily tailored by the system with little interference from other unit cells. Two strategies of the constant pressure method (CPM) and constant volume method (CVM) are reported to design the MAM. And the CVM is adopted as the ultimate design strategy by comparing both methods from aspects of the dimension, operating frequency, and structure complexity. In order to validate the low-frequency and broadband performances of the AM, the Airy-like beams and the acoustic converging based on two identical Airy-like beams are introduced and proof-of-concept simulations are performed with the finite element method. The simulated results agree well with the theoretical predictions. Our design provides the little-interference active design method for the low-frequency and broadband AM to manipulate the wave front, and may have practical engineering applications in areas of the aerospace, high-speed train, marine vessel, and power transmission and transformation project.
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