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二维电磁带隙结构研究的新方法 被引量:4

NEW METHOD FOR 2D-EBG STRUCTRUES’ RESEARCH
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摘要 应用悬置微带线方法 (SMM)对二维EBG结构进行了测量和计算 .对二维电小EBG(UC EBG和PV EBG)的特性用SMM法进行了统一的实验和仿真分析 .与其他方法对比 ,由于采用了”强耦合”结构 ,更能显现出二维电磁带隙结构的特性 .同时提出了新型的悬置微带贴片的EBG天线 ,该天线结构紧凑 。 The two-dimensional (2D) EBG structure is measured and calculated by using of the suspending microstrip method (SMM). The characteristics of UC-EBG and PV-EBG are firstly measured and simulated by using of SMM. Comparing with other methods, the characteristic of 2D-EBG is exhibited more obviously owing to use the strongly coupling structures. The novel suspending patch EBG antenna is also presented. The compact structure of the antenna is more advantageous for EBG applications.
作者 樊明延 胡荣 郝清 张雪霞 冯正和
机构地区 清华大学电子工程系微波与数字通信国家重点试验室
出处 《红外与毫米波学报》 SCIE EI CAS CSCD 北大核心 2003年第2期127-131,共5页 Journal of Infrared and Millimeter Waves
基金 国家自然科学基金 (批准号 699710 13 60 1710 15 ) 973国家重点基础研究基金 (批准号G19990 3310 5 )资助项目~~
关键词 悬置微带线法 光子带隙 二维电磁带隙结构 微带天线 suspending microstrip method PBG EBG
分类号 TN82 [电子电信—信息与通信工程]
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参考文献6

  • 1Yablonovith E Gmitter T J. Photonic band structure: the face-centered-cubic case. J.Opt.Soc.Am.A, 1990, 7(9): 1792-1800
  • 2Yablonovitch E. Engineered omnidirectional external-reflectivity spectra from a one-dimensional layered interference filters. Opt. Lett., 23(21): 1648-1649
  • 3Dan Sievenpiper, Lijun Zhang, Romulo F Jimenez Broas. High-Impedance Electromagnetic Surfaces with a Forbidden Frequency Band. IEEE Trans. MTT, 1999, 47(11): 2059-2074
  • 4Fei-Ran Yang, Yongxi Qian. A Uniplanar Compact Photonic-Bandgap (UC-PBG) Structure and Its Applications for Microwave Circuits. IEEE Trans. MTT, 1999, 47(8): 1509-1514
  • 5Roberto Coccioli, Fei-Ran Yang. Aperture-Coupled Patch Antenna on UC-PBG Substrate. IEEE Trans. MTT, 1999, 47(11): 2123-2130
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同被引文献42

  • 1杨绍华,张福顺,焦永昌.EBG结构的小型圆极化微带天线[J].电子学报,2004,32(11):1930-1932. 被引量:9
  • 2闫敦豹,高强,付云起,袁乃昌.加窗技术在微带EBG结构中的应用[J].微波学报,2004,20(4):60-63. 被引量:7
  • 3李斌,李龙,梁昌洪.EBG高阻表面结构的矩形波导宽边缝隙天线[J].电子学报,2006,34(3):429-432. 被引量:6
  • 4Cramer P W. Initial studies of array feeds for the 70meter antenna at 32 GHz[R]. California: Jet Propulsion Laboratory, 1991:50-67.
  • 5Vilnrotter V, Britcliffe M, Hoppe D. Focal plane array receiver for deep space communications[R]. California: Jet Propulsion Laboratory, 2008:1-18.
  • 6Sievenpiper D, Zhang L, Alexopolous N, et al. Highimpedance electromagnetic surface with a forbidden frequency band[J]. IEEE Trans on Microwave Theory and Techniques, 1999, 47(11):2059-2074.
  • 7Yang F, Samii Y. A low profile circularly polarized curl antenna over an electromagnetic bandgap(EBG) surface[J]. Microwave and Optical Technology Letters, 2001, 31(4) :264-267.
  • 8Iluz Z, Shavit R, Bauer R. Microstrip antenna phased array with electromagnetic bandgap substrate[J]. IEEE Trans on Antennas and Propagation, 2004, 52(6) : 1446-1453.
  • 9Iglesias E, Teruel O, Sanchez L. Mutual coupling reduction in patch antenna arrays by using a planar EBG structure and a multilayer dielectric substrate[J]. IEEE Trans on Antennas and Progagation, 2008, 56(6):1648-1655.
  • 10Yang Fan, Samii Y R. Electromagnetic band gap structures in antenna engineering[M]. New York: Cambridge University Press, 2009.

引证文献4

二级引证文献17

红外与毫米波学报
2003年 第2期

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