Thin Dielectric Resonators of the Millimeter Waves Range
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Abstract
The effect of the height to transverse dimensions ratio of a thin dielectric resonator on its electrodynamic properties is investigated. The analytical expressions for the calculation of the resonant frequency of the thin dielectric resonators rectangular and cylindrical form are shown. The theoretical results are confirmed experimentally. The possibility of using a thin dielectric resonator for measuring parameters of the microwave dielectric materials is shown.
References 7, figures 5.
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References
Tatarchuk, D. D., Molchanov, V. I., Pashkov, V. M., Franchuk, A. S. (2015), Microwave Dielectric Measurement Methods on the Base of the Composite Dielectric Resonator. Electronics and Nanotechnology (ELNANO-2015): Proc. of 35th Int. Sci. Conf. (April 21 – 24, 2015, Kyiv, Ukraine). PP. 231 – 234.
Masse, D. J., Pucel, R. A., Readey, D. W., Hartwig, C. P. (1971). A new low loss high-k temperature compensated dielectric for microwave applications. Proc. IEEE. Vol. 59, pp. 1628 – 1629.
Konishi, Y. (1998). Microwave electronic Circuit Technology. New York, Marcel Dekker, Inc. P. 427.
Bezborodov, Y. M., Narytnik, T. N., Fedorov, V. B. (1989). Microwave filters on dielectric resonators. Кyiv, Tehnika. P. 184. (Rus)
Belov, L., Khilkevich, V. (2006). Generators with dielectric resonators for frequency stabilization. Electronics: STB. No.7, pp. 54 – 59.
Grigorev, A. D., Yankevich, V. B. (1984). Resonators and UHF resonator slowing systems: Numerical methods of calculation and design. Мoscow, Radio i svyaz. P. 248. (Rus)
Molchanov, V. I., Tatarchuk, D. D. (2008). Inhomogeneities in the microwave dielectric structures. Electronics and Communications. No. 6(47), pp. 10 – 14. (Rus)
