Novel Swastika-shaped tightly coupled resonator based metamaterial-FSS for radome applications

Gitansh Gulati, S. B., Shambulingappa K.V., R. U. Nair, S. Narayan
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引用次数: 1

Abstract

A novel metamaterial-FSS (frequency selective surface) is designed in this paper based on the theory of tightly coupled resonators for radome applications. The proposed metamaterial unit cell consists of a Swastika-shaped conductor on each side of the substrate which is shorted at the edges by introducing shorting strips. The structure exhibits negative permittivity and permeability behavior at distinct frequency region. The EM analysis of metamaterial-FSS is carried out using transmission line transfer matrix method and validated with the full-wave method. The structure exhibits bandpass characteristic with very high transmission efficiency (>90%) over the frequency range of 10.43–11.43 and sharp roll-off characteristics outside the band as compared to conventional FSS. In view of radome applications, the EM characteristics are further studied at oblique incidence, which is found to show stable EM characteristics w.r.t. angle of incidence and polarizations.
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用于天线罩的新型万字形紧密耦合谐振腔超材料fss
基于紧密耦合谐振腔理论,设计了一种用于天线罩的新型超材料fss(频率选择表面)。所提出的超材料单元电池由基板两侧的万字形导体组成,该导体通过引入短带在边缘处短路。该结构在不同频率区表现为负介电常数和负磁导率。采用传输线传输矩阵法对超材料- fss进行了电磁分析,并用全波法进行了验证。与传统FSS相比,该结构具有在10.43-11.43频率范围内具有非常高的传输效率(>90%)的带通特性,并且在带外具有明显的滚降特性。针对天线罩的应用,进一步研究了斜入射角下的电磁特性,发现斜入射角和偏振角下的电磁特性稳定。
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