材料分离介质谐振器法复介电常数测试[D]. 成都:电子科技大学,2009.
[6] KIM S, JARVIS J B. An approximate approach to det-ermining the permittivity and permeability near half-wavelength resonances in transmission/reflection measurements[J]. Progress in Electromagnatics Research B,2014,58(58):95-109.
[7] GEYER R G, KABOS P, JARVIS J B. Dielectric sleeve resonator techniques for microwave complex permittivity evaluation[J]. IEEE Trans Instrument Measurement,2002,51(2):383-392.
[8] 何小瓦,李恩,张其劭,等. 介质材料复介电常数变温测量技术综述[J]. 宇航材料工艺,2005,35(1):20-23.
[9] 倪尔瑚. 介质谐振器的微波测量[M]. 北京:科学出版社,2006:137-144.
[10] SAITO H, SUZUKI Y, TAK M. Measurement of complex permittivity for biological cells by waveguide penetration method[C]∥European Conference on Antennas & Propagation,2009.
[11] HORNER F, TAYLOR T A, DUNSMUIR R, et al. Resonance method of dielectric measurement at centimeter wavelength[J]. Joural of the Institution of Electrical Engineers-Part III:Radio and Communication Engineering,1946,93(21):53-68.
[12] KIM S, GUERIERI J R. Low-loss complex permittivity and permeability determination in transmission/reflection measurements with time-domain smoothing[J]. Progress in Electromagnatics Research M,2015(44):69-79.
[13] SKOCIK P, NEUMANN P. Measurement of complex permittivity in free space[J]. Procedia Engineering,2015(100):100-104.
[14] 张晓勇,谢普,虞春,等. 50 Ω编织外导体射频同轴电缆的设计[C]∥光缆电缆学术年会论文集,2003.
[15] 董玉和. 微波圆柱和同轴腔高阶横磁模式及其输出耦合[D].北京:中国科学院电子研究所,2006.
(编辑:商丹丹)
相关热词搜索: 圆管 谐振 常数 样品 测量