基于变换电磁的宽带传输在线幻象

IF 1.5 Q4 MATERIALS SCIENCE, MULTIDISCIPLINARY EPJ Applied Metamaterials Pub Date : 2019-10-01 DOI:10.1051/epjam/2019018

T. Nagayama, A. Sanada

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引用次数: 8

摘要

我们利用分布全张量各向异性介质，在微波频率下演示了基于变换电磁学的宽带传输线错觉。由于介质的非谐振晶胞的固有性质，错觉从DC操作到均匀介质近似成立的上限频率。设计了由原始凹槽和凸起模拟散射波的二维凹槽和凸起错觉介质。电路仿真证实了它们的宽带和入射角无关操作。采用微带线技术在介质衬底上实现了凹槽错觉介质，通过近场测量实验证实，该错觉介质在2.60的宽带频率范围内很好地模拟了原始凹槽的散射波 GHz至4.65 GHz。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Broadband transmission-line illusions based on transformation electromagnetic

We demonstrate broadband transmission-line illusions based on transformation electromagnetics at microwave frequencies by using the distributed full-tensor anisotropic medium. Due to an intrinsic nature of the non-resonant unit cell of the medium, the illusions operate from DC to an upper limit frequency where the homogeneous medium approximation holds. Two-dimensional groove and bump illusion media mimicking scattered waves by an original groove and a bump are designed. Their broadband and incident angle independent operations are confirmed by circuit simulations. The groove illusion medium is implemented on a dielectric substrate with microstrip-line technology, and it is confirmed experimentally by near-field measurements that the illusion medium well mimics scattered waves by the original groove in the broadband frequency range from 2.60 GHz to 4.65 GHz.

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