A new photonic bandgap cover for a patch antenna with a photonic bandgap substrate 被引量：3

A new photonic bandgap cover for a patch antenna with a photonic bandgap substrate

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摘要 A new photonic bandgap (PBG) cover for a patch antenna with a photonic bandgap substrate is introduced. The plane wave expansion method and the FDTD method were used to calculate such an antenna system. Numerical re-sults for the input return loss, radiation pattern, surface wave, and the directivity of the antennas are presented. A com-parison between the conventional patch antenna and the new PBG antenna is given. It is shown that the new PBG cover is very efficient for improving the radiation directivity. The physical reasons for the improvement are also given. A new photonic bandgap (PBG) cover for a patch antenna with a photonic bandgap substrate is introduced. The plane wave expansion method and the FDTD method were used to calculate such an antenna system. Numerical re-sults for the input return loss, radiation pattern, surface wave, and the directivity of the antennas are presented. A com-parison between the conventional patch antenna and the new PBG antenna is given. It is shown that the new PBG cover is very efficient for improving the radiation directivity. The physical reasons for the improvement are also given.

作者林青春朱方明何赛灵

机构地区 State Key Laboratory of Modern Optical Instrumentation

出处《Journal of Zhejiang University-Science A(Applied Physics & Engineering)》 SCIE EI CAS CSCD 2004年第3期20-24,共5页 浙江大学学报（英文版）A辑（应用物理与工程）

基金 theNationalNaturalScienceFoundationofChina(No.90101024)andtheScienceandTechnologiesofZhe-jiangProvinc(No.ZD0002)

关键词 PHOTONIC bandgap COVER PATCH antenna FDTD PLANE wave EXPANSION method Photonic bandgap cover, Patch antenna, FDTD, Plane wave expansion method

分类号 TN820 [电子电信—信息与通信工程]

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2胡骏,阎春生,林青春.A new patch antenna with metamaterial cover[J].Journal of Zhejiang University-Science A(Applied Physics & Engineering),2006,7(1):89-94. 被引量：2
3付树洪,童创明,李西敏,王运萍.基于等效介质理论的电磁晶体带隙分析[J].上海航天,2009,26(4):21-24.

二级引证文献2

1Nam-ki LEE,Seung-in YANG.Improvement of 5.8 GHz Band Patch Antenna with Metamaterial[J].Journal of Measurement Science and Instrumentation,2010,1(2):170-172.
2Kyu-Chang LEE,Seung-In YANG.High Gain Patch Antenna for 2.4GHz using Metamaterial Superstrate[J].Journal of Measurement Science and Instrumentation,2010,1(S1):19-22.

1Nam-ki LEE,Seung-in YANG.Improvement of 5.8 GHz Band Patch Antenna with Metamaterial[J].Journal of Measurement Science and Instrumentation,2010,1(2):170-172.
2高强,闫敦豹,袁乃昌,付云起.光子带隙结构在微带带通滤波器中的应用[J].微波学报,2004,20(3):55-57. 被引量：4
3Zhong-Qing Wang,Bao Li,Li-Dan Peng.Compact Multiband Patch Antenna Based on CRLH-TL Structures[J].Computer Technology and Application,2012,3(5):342-346.
4ZHU Fang-ming,HU Jun.Improved patch antenna performance by using a metamaterial cover[J].Journal of Zhejiang University-Science A(Applied Physics & Engineering),2007,8(2):192-196. 被引量：1
5Kyu-Chang LEE,Seung-In YANG.High Gain Patch Antenna for 2.4GHz using Metamaterial Superstrate[J].Journal of Measurement Science and Instrumentation,2010,1(S1):19-22.
6胡骏,阎春生,林青春.A new patch antenna with metamaterial cover[J].Journal of Zhejiang University-Science A(Applied Physics & Engineering),2006,7(1):89-94. 被引量：2
7S. Jordaan M.O. Odhiambo.A Miniaturised Microstrip L1 GPS Patch Antenna[J].通讯和计算机（中英文版）,2011,8(7):586-594.
8李玥,冯全源.两种新型一维微带开口环PBG结构[J].微计算机信息,2007(05Z):275-277. 被引量：1
9材料[J].电子科技文摘,2006(3):10-10.
10张翼,陈建荣.PBG结构在微带低通滤波器中的应用[J].空间电子技术,2005,2(3):41-43.

Journal of Zhejiang University-Science A(Applied Physics & Engineering)

2004年第3期

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A new photonic bandgap cover for a patch antenna with a photonic bandgap substrate 被引量：3

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