E. A. Mikhalitsyn - Post-graduate Student of Department of Physics and Technology of Optical Communication, Nizhny Novgorod State Technical University n.a. R.E. Alekseev; Research Engineer 3rd cat., Scientific-Research Institute of Measuring Systems n.a. Yu.E. Sedakov. E-mail: mihalitsynea@gmail.com A. S. Raevsky - Dr.Sc. (Phys.-Math.), Professor, Head of Department of Physics and Technology of Optical Communication, Nizhny Novgorod State Technical University n.a. R.E. Alekseev. E-mail: raevsky@nntu.nnov.ru A. Yu. Sedakov - Dr.Sc. (Eng.), Associate Professor, Professor of Department of Physics and Technology of Optical Communication, Nizhny Novgorod State Technical University n.a. R.E. Alekseev; Director of Scientific-Research Institute of Measuring Systems n.a. Yu.E. Sedakov. E-mail: niiis@niiis.nnov.ru

The forming procedure of the dispersion equation of eigenwaves of a double layered longitudinal biased giro-dielectric radial waveguide has been described here. The calculation results and eigenwaves discrete spectrum of ferrite-dielectric radial waveguide research results are available to concern the structure with the fixed magnetic permittivity tensor off-diagonal element, the saturatedferrite filled structure with a zero magnetic bias field and a nonzero bias field magnetized ferrite-dielectric structure. The eigenwavesdispersion properties have been analyzed when changing the ferrite filling factor of the structure and changing the ferrite nonreciprocity parameter.

 

1. Yung E.K., Chen R.S., Wu K., Wang D.X. Analysis and development of millimeter-wave waveguide-junction circulator with a ferrite sphere // IEEE Trans. on Microwave Theory and Techniques. 1998. V. MTT-46. № 11. P. 1721-1734.
2. Derzakowski K., Krupka J., Abramowicz A. Magnetically tunable dielectric resonators and filters // 34th European Microwave Conf. Amsterdam. 2004. P. 1121-1124.
3. Derkachev P.JU., Kondrashova N.S., Manuilov M.B. EHlektrodinamicheskie kharakteristiki fazirovannojj antennojj reshetki millimetrovogo diapazona s raspredelitelnojj sistemojj na radialnom volnovode // Antenny. 2012. № 9. S. 55-61.
4. Neganov V.A., Osipov O.V., Raevskijj S.B., JArovojj G.P. EHlektrodinamika i rasprostranenie radiovoln. Uchebnik / pod red. V.A. Neganova i S.B. Raevskogo. Izd. 4-e, pererab. i dop. M.: Radiotekhnika. 2009.
5. Raevskijj A.S., Raevskijj S.B. Neodnorodnye napravljajushhie struktury, opisyvaemye nesamosoprjazhennymi operatorami. Ucheb. posobie dlja vuzov. M.: Radiotekhnika. 2004.
6. Mikaehljan A.L. Teorija i primenenie ferritov na sverkhvysokikh chastotakh. M.; L.: Gosehnergoizdat. 1963.
7. Belov JU.G. Funkcionalnye sredy v mikroskhemotekhnike SVCH. Ucheb. posobie. N. Novgorod: NGTU. 2005.
8. Abramov V.A., Dmitriev S.A., SHelukhin V.P. Nevzaimnye ustrojjstva na ferritovykh rezonatorakh. M.: Radio i svjaz. 1989.