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同轴探针对称激励矩形波导模式谱图研究 被引量:2

Mode-Spectrogram of the Rectangle Waveguide Symmetrically Excited by the Coaxial-Line Probe
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摘要 通过理论分析证明,同轴探针对称激励矩形波导时,其模式谱图中不存在引起合成场结构不对称的高次模TE20及TE01模。应用分式线性变换检测法进行了对比测试,验证了理论分析结果的正确性。对聚四氟乙烯样品,在7-16GHz频带内测量其复介电常数均有较高的测量精度。实验表明,在一定条件下,标准三公分波导工作频率可高达16GHz,如果取波导宽窄边比r=3,工作频率可达19GHz。所得结果对于微波材料宽带测量具有实用价值。 In this paper, we first prove theoretically that the higher-order modes, such as TE20 and TE01 , with asymmetry electric fields do not exist in its nsode-spectrogram, when the rectangle waveguide is symmetrically excited by the coaxial-line probe. By using the linear fraction transformation method, the compared measurements are made, which verify the validity of the theoretical results. For the Teflon samples, the precision for measuring their complex dielectric constant in the frequency band 7 - 16GHz is high. These measurement results also indicate that the operating frequency of the standard 3cm rectangle waveguide can reach 16GHz under some special conditions. If the aspect ratio of the rectangle waveguide r = 3, its operating frequency is able to achieve 19GHz. Our conclusion is of practical value for measuring the complex permittivity of microwave materials in broad band.
作者 张欣 郭利强 焦永昌 唐家明
机构地区 西安电子科技大学天线与微波技术国家重点实验室
出处 《宇航学报》 EI CAS CSCD 北大核心 2007年第2期489-492,共4页 Journal of Astronautics
基金 国家自然科学基金资助项目(60371014) 青岛市科技局配套资助
关键词 同轴探针 矩形波导 输入阻抗 激励 模式谱图 Coaxial-line probe Rectangle waveguide Input impedance Excitation Mode-spectrogram
分类号 TN814 [电子电信—信息与通信工程]
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  • 1[6]Enders A. An accurate measurement techniques for line properties,junction effects,and dielectric and magnetic material parameters.IEEE Trans.on Microwave Theory and Techniques,1989,37(3):598-605 被引量:1
  • 2[1]Nicolson A M,Ross G. Measurement of Intrinsic Properties of Materials by Time Domain Techniques.IEEE Trans.on Instrument & Measurement,1970,19(6):377-382 被引量:1
  • 3[2]Weir W B. Automatic Measurement of Complex Dielectric Constant and Permeability at Microwave Frequencies.Proc.IEEE,1974,62:33-36 被引量:1
  • 4[3]Baker-Jarvis J,Vanzura E J and Kissck W A. Improved techniques for determining complex permittivity with the transmission/reflection method.IEEE Trans.on Microwave Theory and Techniques,1990,38(8):1096-1103 被引量:1
  • 5[4]Boughriet A H,Legrand C and Chapoton A.Noniterative stable Transmission/Reflection method for Low-Loss Material complex permittivity determination.IEEE Trans.on Microwave Theory and Techniques,1997,45(1):52-57 被引量:1
  • 6[5]Wolfson B J,Wentworth S M.Complex permittivity and permeability measurement using a rectangular waveguide.Microwave and optical technology letters,2000,27(11):180-182 被引量:1
  • 7瓦·扬森著,鲍贤杰译.波导与带状线.国防工业出版社,1981.11. 被引量:1
  • 8黄志洵.波导理论的奠基人[J].物理,1984,13(4):250-253. 被引量:2

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宇航学报
2007年 第2期

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