Jin Hang, Lin Weigan. DYADIC GREEN S FUNCTION FOR RECTANGULAR WAVEGUIDE FILLED WITH MULTISECTOR ISOTROPIC DIELECTRIC[J]. Journal of Electronics & Information Technology, 1990, 12(2): 113-119.
Citation:
Jin Hang, Lin Weigan. DYADIC GREEN S FUNCTION FOR RECTANGULAR WAVEGUIDE FILLED WITH MULTISECTOR ISOTROPIC DIELECTRIC[J]. Journal of Electronics & Information Technology, 1990, 12(2): 113-119.
Jin Hang, Lin Weigan. DYADIC GREEN S FUNCTION FOR RECTANGULAR WAVEGUIDE FILLED WITH MULTISECTOR ISOTROPIC DIELECTRIC[J]. Journal of Electronics & Information Technology, 1990, 12(2): 113-119.
Citation:
Jin Hang, Lin Weigan. DYADIC GREEN S FUNCTION FOR RECTANGULAR WAVEGUIDE FILLED WITH MULTISECTOR ISOTROPIC DIELECTRIC[J]. Journal of Electronics & Information Technology, 1990, 12(2): 113-119.
The dyadic Green s function for the rectangular waveguidee filled with multisoc-tor isotropic dielectric is derived by the method of mode expansion and stattering superposition. The derived expressions can be extended easily so as to be applicable to the cases of other types of cylindrical waveguide, i.e. circular waveguide, and elliptic waveguide.
C. T. Tai.[J].Dyadic Greens Functions in Electromagnetic Theory, Scranton, PA: lntext.1971,:-[2]C. T. Tai, Proc. IEEE, 61(1973), 480-481.[3]Y. Rahmat-Samii, IEEE Trans. on MTT, MTT-23 (1975), 762-765.[4]潘生根,通信学报,6(1985)2, 72-78.[5]C. T. Tai, IEEE Trans. on AP, AP-31(1983), 355-358.[6]黄宏嘉,微波原理,科学出社, 1963年,卷1, pp.76-100.
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