Composite metamaterial enabled excellent performance of microstrip antenna array

This paper reports that the split ring resonators and complementary split ring resonators are compounded to construct a novel compact composite metamaterial. The composite metamaterial exhibits a unique property of blocking electromagnetic wave propagating in two directions near the resonant frequen...

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Veröffentlicht in:	Chinese physics B 2010-07, Vol.19 (7), p.322-326
1. Verfasser:	唐明春肖绍球官剑柏艳英高山山王秉中
Format:	Artikel
Sprache:	eng
Schlagworte:	Arrays Electric fields Metamaterials Microstrip antennas Noise levels Propagation Resonant frequencies Resonators 共振频率复合材料应用可能性微带天线阵列旁瓣抑制相互耦合
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container_title	Chinese physics B
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creator	唐明春肖绍球官剑柏艳英高山山王秉中
description	This paper reports that the split ring resonators and complementary split ring resonators are compounded to construct a novel compact composite metamaterial. The composite metamaterial exhibits a unique property of blocking electromagnetic wave propagating in two directions near the resonant frequency. An example of two-element microstrip antenna array demonstrates that the developed metamaterial enables array performance that is an improvement in comparison with the traditional one, including mutual coupling suppression of 9.07 dB, remarkable side lobe suppression and gain improvement of 2.14 dB. The mechanism of performance enhancement is analysed based on the electric field and Poynting vector distributions in array. The present work not only is a meaningful exploration of new type composite metamaterial design, but also opens up possibilities for extensive metamaterial applications to antenna engineer.
doi_str_mv	10.1088/1674-1056/19/7/074214
format	Article
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The composite metamaterial exhibits a unique property of blocking electromagnetic wave propagating in two directions near the resonant frequency. An example of two-element microstrip antenna array demonstrates that the developed metamaterial enables array performance that is an improvement in comparison with the traditional one, including mutual coupling suppression of 9.07 dB, remarkable side lobe suppression and gain improvement of 2.14 dB. The mechanism of performance enhancement is analysed based on the electric field and Poynting vector distributions in array. 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The composite metamaterial exhibits a unique property of blocking electromagnetic wave propagating in two directions near the resonant frequency. An example of two-element microstrip antenna array demonstrates that the developed metamaterial enables array performance that is an improvement in comparison with the traditional one, including mutual coupling suppression of 9.07 dB, remarkable side lobe suppression and gain improvement of 2.14 dB. The mechanism of performance enhancement is analysed based on the electric field and Poynting vector distributions in array. 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subjects	Arrays Electric fields Metamaterials Microstrip antennas Noise levels Propagation Resonant frequencies Resonators 共振频率复合材料应用可能性微带天线阵列旁瓣抑制相互耦合
title	Composite metamaterial enabled excellent performance of microstrip antenna array
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