Xu Shanjia. NUMERICAL ANALYSIS OF DISPERSION CHARACTERISTICS OF RECTANGULAR WAVEGUIDES FILLED WITH ARBITRARY BLOCK-SHAPED DIELECTRICS[J]. Journal of Electronics & Information Technology, 1984, 6(5): 351-358.
Citation:
Xu Shanjia. NUMERICAL ANALYSIS OF DISPERSION CHARACTERISTICS OF RECTANGULAR WAVEGUIDES FILLED WITH ARBITRARY BLOCK-SHAPED DIELECTRICS[J]. Journal of Electronics & Information Technology, 1984, 6(5): 351-358.
Xu Shanjia. NUMERICAL ANALYSIS OF DISPERSION CHARACTERISTICS OF RECTANGULAR WAVEGUIDES FILLED WITH ARBITRARY BLOCK-SHAPED DIELECTRICS[J]. Journal of Electronics & Information Technology, 1984, 6(5): 351-358.
Citation:
Xu Shanjia. NUMERICAL ANALYSIS OF DISPERSION CHARACTERISTICS OF RECTANGULAR WAVEGUIDES FILLED WITH ARBITRARY BLOCK-SHAPED DIELECTRICS[J]. Journal of Electronics & Information Technology, 1984, 6(5): 351-358.
This paper presents a standard program using finite-element method to calculate dispersion characteristics of hybrid dominant and higher order modes in rectangular waveguide filled with arbitrary block-shaped dielectrics. The dispersion characteristics calculated with the program for more than ten different rectangular waveguides loaded with various dielectric distributions verify the reliability of the program. The useful bandwidth of waveguide filled with I-shaped dielectric is analysed in detail. The dispersion curves given in this paper can be used in analysing and designing related microwave components.
徐善驾,电子科学学刊,5(1983), 6.[2]徐善驾,应用科学学报,2(1983), 39.[4]Chang-Tsuo Liu, et al.,IEEE Trans. on MTT, MTT-29(1981), 805.[5]G. Conzalez, et al.,IEEE Trans. on MTT, MTT-17(1969), 284.[6]T. K. rindakly, et al., IEEE Trans. on MTT, MTT-24(1976), 39.[7]徐善驾,电子学通讯,4(1982), 234.[8]徐善驾,电子学报,10(1982), 39.
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