基于MMIC技术的集成左手超材料

H. Chua, P. Curtis, W. Tong, Z.R. Hu, A. Gibson, M. Missous
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引用次数: 1

摘要

先前已经提出并通过全波和等效电路分析证明了用于RF/MMIC应用的超紧凑多层宽带左手(LH)超材料介质(Tong和Hu, 2005和Horii等人,2005)。根据文献(Tong and Hu, 2005, Horii et al., 2005), LH超材料具有将低频电路小型化的潜力。本文提出了一种集成单元电池和传输线的方案,该方案具有制作简单、探头接触方便、与MMIC技术集成的潜力等优点。研制了LH单元电路,并给出了仿真和测量结果。研制了小型化的LH传输线,并给出了仿真和测量结果
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Integrated Left-Handed Metamaterials on MMIC Technology
Super compact multilayer broadband left-handed (LH) metamaterials medium for RF/MMIC applications have been previously proposed and demonstrated by full wave and equivalent circuit analysis (Tong and Hu, 2005 and Horii et al., 2005). From references (Tong and Hu, 2005 and Horii et al., 2005), LH metamaterials have the potential to miniaturise circuits for low frequency applications. In this paper, we propose an integrated unit cell and transmission line, which has the advantages of simpler fabrication, convenient probe contactability and the potential integrates with MMIC technology. LH unit cell circuits have been developed, and the simulation and measurement results are presented. The miniaturised LH transmission line is also developed and the simulation and measurement results are presented
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