A singular characteristic of single-layer frequency selective surface with the element optimized by GA

M. Ohira, H. Deguchi, M. Tsuji, H. Shigesawa
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引用次数: 4

Abstract

We have developed multiband single-layer frequency selective surfaces (FSS) by using the optimization technique based on the genetic algorithm (GA). In the frequency responses of these FSS for oblique incidence, unwanted sharp dips appear, depending on the element shape. Similar singular characteristics have been confirmed for a dipole element with the length of a wavelength. But the mechanism causing such singular characteristics has not been investigated for the FSS with the complicated element shape produced by the optimization technique. This paper makes it clear how the singular characteristics of the FSS occur in the frequency response. Firstly, we show briefly the methods for finding the singular frequency with unwanted sharp dips, and also the resonant frequency yielding the specified reflection. Then, by using an example of the FSS developed by us, we explain the mechanism of the singular characteristics from the current distribution. Finally, the validity of the discussion is proved experimentally.
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采用遗传算法优化的单层频率选择曲面具有奇异特性
利用基于遗传算法(GA)的优化技术,研制了多波段单层频率选择曲面(FSS)。在这些FSS斜入射的频率响应中,根据元件形状的不同,会出现不必要的急剧下降。类似的奇异特性已被证实,偶极子元素的波长长度。但对于采用优化技术产生的复杂单元形状的FSS,其奇异特性产生的机理尚未得到深入研究。本文阐明了FSS的奇异特性在频率响应中是如何发生的。首先,我们简要地展示了寻找奇异频率的方法,以及产生指定反射的谐振频率。然后,以我们开发的FSS为例,从电流分布的角度解释了奇异特性产生的机理。最后,通过实验证明了本文讨论的有效性。
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