Bah Alpha O, Qin Pei-Yuan, Ziolkowski Richard W, Cheng Qiang, Guo Y Jay
Global Big Data Technologies Centre, University of Technology Sydney, New South Wales, 2007, Australia.
Southest University, Nanjing, Jiangsu, China.
Sci Rep. 2018 Mar 19;8(1):4761. doi: 10.1038/s41598-018-23288-4.
A wide bandwidth, ultra-thin, metasurface is reported that facilitates wide angle beam scanning. Each unit cell of the metasurface contains a multi-resonant, strongly-coupled unequal arm Jerusalem cross element. This element consists of two bent-arm, orthogonal, capacitively loaded strips. The wide bandwidth of the metasurface is achieved by taking advantage of the strong coupling within and between its multi-resonant elements. A prototype of the proposed metasurface has been fabricated and measured. The design concept has been validated by the measured results. The proposed metasurface is able to alleviate the well-known problem of impedance mismatch caused by mutual coupling when the main beam of an array is scanned. In order to validate the wideband and wide scanning ability of the proposed metasurface, it is integrated with a wideband antenna array as a wide angle impedance matching element. The metasurface-array combination facilitates wide angle scanning over a 6:1 impedance bandwidth without the need for bulky dielectrics or multi-layered structures.
据报道,一种宽带宽、超薄的超表面有助于广角波束扫描。该超表面的每个单元包含一个多谐振、强耦合的不等臂耶路撒冷十字元件。该元件由两个弯曲臂、正交、电容加载的条带组成。超表面的宽带宽是通过利用其多谐振元件内部和之间的强耦合实现的。已制作并测量了所提出超表面的原型。测量结果验证了该设计概念。所提出的超表面能够缓解阵列主波束扫描时由互耦引起的众所周知的阻抗失配问题。为了验证所提出超表面的宽带宽和宽扫描能力,将其与宽带天线阵列集成作为广角阻抗匹配元件。超表面 - 阵列组合有助于在6:1的阻抗带宽上进行广角扫描,而无需笨重的电介质或多层结构。