消音器
超材料
干扰(通信)
法诺平面
物理
声学
声学超材料
诺共振
材料科学
光电子学
电信
计算机科学
等离子体子
地质学
几何学
地貌学
频道(广播)
数学
入口
作者
Reza Ghaffarivardavagh,Jacob Nikolajczyk,Stephan W. Anderson,Xin Zhang
出处
期刊:Physical review
[American Physical Society]
日期:2019-01-04
卷期号:99 (2)
被引量:235
标识
DOI:10.1103/physrevb.99.024302
摘要
Recently, with advances in acoustic metamaterial science, the possibility of sound attenuation using subwavelength structures, while maintaining permeability to air, has been demonstrated. However, the ongoing challenge addressed herein is the fact that among such air-permeable structures to date, the open area represents only small fraction of the overall area of the material. In the presented paper in order to address this challenge, we first demonstrate that a transversely placed bilayer medium with large degrees of contrast in the layers' acoustic properties exhibits an asymmetric transmission, similar to the Fano-like interference phenomenon. Next, we utilize this design methodology and propose a deep-subwavelength acoustic metasurface unit cell comprising nearly 60% open area for air passage, while serving as a high-performance selective sound silencer. Finally, the proposed unit-cell performance is validated experimentally, demonstrating a reduction in the transmitted acoustic energy of up to 94%. This ultra-open metamaterial design, leveraging a Fano-like interference, enables high-performance sound silencing in a design featuring a large degree of open area, which may find utility in applications in which highly efficient, air-permeable sound silencers are required, such as smart sound barriers, fan or engine noise reduction, among others.
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