Volumetric Closed Resonators

  • Eugene I. Nefyodov
  • Sergey M. Smolskiy
Part of the Textbooks in Telecommunication Engineering book series (TTE)


The electromagnetic oscillation occurring in finite guiding structures and resonators is studied in this chapter.


  1. 71.
    Ufimtsev P.Ya. Fundamentals of the Physical Theory of Diffraction, John Wiley & Sons, Inc., Hoboken, New Jersey, 2007Google Scholar
  2. 99.
    Sivukhin D.V. General course of physics: optics (in Russian). Vol. 4 - Moscow: Nauka Publ., 1985.-752 p.; Electricity. Vol.3.- Moscow: Fizmatlit, 1983.Google Scholar
  3. 111.
    Vaĭnshteĭn L A. Open resonators and open waveguides, Golem Press, 1985. 439 p. Scholar
  4. 125.
    Weinstein L.A. Electromagnetic waves (in Russian). —Moscow: Sovradio Publ., 1988. — 440 с.Google Scholar
  5. 124.
    Mitra R., Lee S. Analytical methods of the waveguide theory. — New York. MacMillan: 1971. 302p.Google Scholar
  6. 57.
    Kurushin E.H., Nefyodov E.I. Electrodynamics of anisotropic waveguiding structures (in Russian).- Moscow: Nauka Publ., 1983.-223 p.Google Scholar
  7. 98.
    Nefyodov E.I., Fialkovskiy A.T. Asymptotic diffraction theory of electromagnetic waves on the finite structures (in Russian). – Moscow. Nauka Publ. 1972. –204 p.Google Scholar
  8. 29.
    Julius Adams Stratton. Electromagnetic theory. Wiley-Interscience. 2007. ISBN-13 978.0-470-13153-4.Google Scholar
  9. 126.
    Paul C.R. Introduction to Electromagnetic Compatibility, 2006, J.Wiley & Sons INC Publication, New Jersey.Google Scholar
  10. 23.
    Nefyodov E.I. Open coaxial resonance structures (in Russian).- Moscow: Nauka, 1982.-220 p.Google Scholar
  11. 94.
    Sovetov N.M. UHF engineering: theoretical bases (in Russian) Мoscow: Vyshaya Skola Publ., 1976. 184 p.Google Scholar
  12. 73.
    Nefyodov E.I., Kliuev S.B. Electrodynamics and radio wave propagation (in Russian): textbook for university students.- Moscow: KURS Publ., 2016.-344 p.Google Scholar
  13. 75.
    Honl H., Maue Au.W., Westpahl K. Theorie der Beugung. Springer Verlag, 1961.-320 с.Google Scholar
  14. 127.
    Panchenko B.A., Nefyodov E.I. Microstrip antennas (in Russian). - Moscow: Radio i Svaiz Publ. 1985.-144рр.Google Scholar
  15. 112.
    Kisun’ko G.V. Electrodynamics of hollow systems (in Russian). Leningrad, Communication Academy Publ., 1949. -426p.Google Scholar
  16. 79.
    Mitkevich V.F. Physical action at a distance. Proceedings of the Russian Academy of Science. Series VII. Division of mathematical and natural science, 1391–1409 (1933).Google Scholar
  17. 90.
    Schwinger J. Electromagnetic mass revisited// Foundations of Physics, 13 (3): pp. 373–383, (1983).
  18. 107.
    Marcuse D. Light Transmission Optics, N-Y, Cincinatti, Toronto-London-Melbourne, 1972. 570 p.Google Scholar
  19. 17.
    Neganov V.A., Nefyodov E.I., Yarovoy G.P. Strip-slot structures of microwave and mm-wave ranges (in Russian). - Мoscow: Nauka Publ., 1996.-304 p.Google Scholar
  20. 18.
    Neganov V.A., Nefyodov E.I., Yarovoy G.P. Modern methods of transmission line and resonator design (in Russian): Textbook. - Moscow: Pedagogika Press Publ., 1998.-328 p.Google Scholar
  21. 19.
    Neganov V.A., Nefyodov E.I., Yarovoy G.P. Electrodynamics methods for design of SHF devices and antennas (in Russian).-Moscow: Radio I Sviaz Publ., 2002.-416 p.Google Scholar
  22. 26.
    Nefyodov E.I. Engineering electrodynamics: textbook for universities (in Russian).- Moscow: Academia Publisher, 2008.-416 p.Google Scholar

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© Springer International Publishing AG, part of Springer Nature 2019

Authors and Affiliations

  • Eugene I. Nefyodov
    • 1
  • Sergey M. Smolskiy
    • 1
  1. 1.Durban Technological University (RSA)DurbanSouth Africa

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