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PBG结构在微波领域的应用 被引量:3

Applications of Photonic Bandgap in Microwave Field
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摘要 20世纪80年代末出现的光子晶体是一种具有光子带隙的新材料,其特有的性质使得光子晶体具有广泛的应用前景。本文介绍了光子晶体的概念,综述了光子带隙结构在微波领域的典型应用和研究进展。 Photonic crystals,proposed in the late 80's last century,are a new kind of materials with photonic bandgap,Whose unique features rise to a number of wide application prospect. This paper introduces the conception of photonic crystals,and reviews some applications and development of photonic bandgap structure in microwave field.
作者 张友俊 侯继红 李英
机构地区 郑州大学信息工程学院 焦作大学机电系 上海大学理学院
出处 《电讯技术》 北大核心 2004年第6期12-17,共6页 Telecommunication Engineering
基金 河南省自然科学基金项目(0411013500).21.
关键词 光子晶体 光子带隙 天线 滤波器 高阻抗表面 Photonic crystal Photonic bandgap Antenna Filter High-impedance surface
分类号 TN80 [电子电信—信息与通信工程]
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参考文献29

  • 1Ramon Gonzalo Peter de Maagt Mario Sorolla. Enhanced patch antenna performance by suppressing surface waves using photonic-bandgap substrates[J]. IEEE Trans. Microwave Theory and Techniques, 1999, 47 (11): 213~12138.
  • 2Zhang Guohua, Yuan Naichang, Fu Yunqi, et al. A novel PBG structure for microstrip lines[A]. 2002 3rd International Conference on Microwave and Millimeter Wave Technology Proceedings[C]. 17~19 Aug. 2002. 1040~1042.
  • 3Nesic D, Nesic A. 1-D microstrip PBG bandgap-pass filter without etching in the ground plane and with sinusoidal variation of the characteristics impedance[J]. Telecommunications in Modern Satellite Cable and Broadcasting Service, 2001, (1): 181~186.
  • 4Yongxi Qian, Sievenpiper D, Radisic V, et al. A novel approach for gain and bandwidth enhancement of patch antennas[A]. RAWCON'98 Proceedings[C].1998. 221-224.
  • 5V Radisic, Y Qian, R Coccioli, et al. Novel 2-D photonic bandgap structure for microstrip lines[J]. IEEE Microwave and Guided Wave Letters, 1998, 2 (2): 69-71.
  • 6T J Ellis, G M Rebeiz. MM-wave tapered slot antennas on micromashined photonic bandgap dielectrics[J]. IEEE MTT-S Int. Microwave Symp. Dig., 1996,(6): 1157-1160.
  • 7John S. Strong localization of photons in certain disordered dielectric super-lattices[J].Phy Rev Lett, 1987,58(23): 2486-2489.
  • 8Yablonvitch E. Inhibited spontaneous emission in solid state physics and electronics[J].Phys Rev Lett, 1987,58(20): 2059-2062.
  • 9Coccioli R, Fei-Ran Yang, Kuang-Ping Ma, et al. Aperture-coupled patch antenna on UC-PBG substrate[J]. IEEE Trans. Microwave Theoryand Techniques, 1999, 47(11): 2123-2130.
  • 10E R Brown, C D Parker, E Yablonovitch. Radiation properties of a planar antenna on a photonic-crystal substrate[J]. Opt. Soc. Am. B, 1993, 10 (2): 404-407.

同被引文献13

  • 1Yablonvitch E.Inhibited spontaneous emission in solid state physics and electronics [J].Phys Rev Lett, 1987, 58 (20): 2059~2062.
  • 2John S.Strong localization of photons in certain disordered dielectric super-lattices [J].Phy Rev Lett, 1987,58 (23): 2486~2489.
  • 3Q Xue, K Shun, C H Chan.Novel 1-D microstrip PBG cell [J]. IEEE Microwave and Guided Wave Lett., 2000,10 (10):403~405.
  • 4V Radisic, Y Qian, R Coccioli, et al. Novel 2-D photonic bandgap structure for microstrip lines [J].IEEE Microwave and Guided Wave Lett., 1998,8 (2): 69~71.
  • 5T J Ellis, G M Rebeiz.MM-wave tapered slot antennas on micromachined photonic bandgap dielectrics [J].IEEE MTT-S International Microwave Symposium Digest 1996,14 (6): 1157~1160.
  • 6Hu Ron,Zhang Xue Xia,Gao Bao Xin.2-D PBG structure in microstrip line and symmetrical microstrip line [A].Asia-Pacific Microwave Conference Proceedings[C].2000.1218~1221.
  • 7YABLONVITCH E.Inhibited spontaneous emission in solid state physics and electronics[J].Phys Rev Lett,1987,58 (20):2059-2062.
  • 8JOHN S.Strong localization of photons in certain disordered dielectric super-lattices[J].Phy Rev Lett,1987,58 (23):2486-2489.
  • 9XUE Q,SHUN K,CHAN C H.Novel 1-D microstrip PBG cell[J].IEEE Microwave and Guided Wave Lett,2000,10 (10):403-405.
  • 10RADISIC V,QIAN Y,COCCIOLI R,et al.Novel 2-D photonic bandgap structure for microstrip lines[J].IEEE Microwave and Guided Wave Lett,1998,8 (2):69-71.

引证文献3

二级引证文献6

电讯技术
2004年 第6期

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