Hollow Waveguides

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


We proceed to the study of the third part of our lecture course devoted to electromagnetic waves in guiding and resonant structures, and start from the oldest and most developed subject; namely, from hollow waveguides. We give a definition of the waveguide of the transmission line as the main constituent part of the modern systems of ultra-fast information processing. The so-called basing elements and functional blocks of all types of the radio-electronic equipment are built based on them.


  1. 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
  2. 103.
    W.Wood R. Physical Optics, New York, The MACMILLAN COMPANY. 1934. 895 p.Google Scholar
  3. 104.
    Ramo S. and Whinnery J.R., Fields and Waves in Communication Electronics, John Wiley and Sons, New York. 1965.Google Scholar
  4. 105.
    Snyder A.W., Love J.D. Optical Waveguide Theory, London-York, Chapman and Hall, 1983, 656 p.Google Scholar
  5. 106.
    Unger H.G. Planar Optical waveguides and Fibers, CLARENDON PRESS, Oxford, 1977. 656 p.Google Scholar
  6. 107.
    Marcuse D. Light Transmission Optics, N-Y, Cincinatti, Toronto-London-Melbourne, 1972. 570 p.Google Scholar
  7. 109.
    Buduris G., Shevenie P. Microwave Circuits / Transl. from French. Moscow: Sovradio Publ., 1979.-288 p.Google Scholar
  8. 52.
    Nefyodov E.I. Electromagnetic wave diffraction on dielectric structures (in Russian).- Moscow: Nauka Publ., 1979.-272 p.Google Scholar
  9. 21.
    Nefyodov E.I., Saidov A.S., Tegilaev A.R. Wideband microstrip control microwave devices (in Russian).- Moscow: Radio I sviaz Publ., 1994. - 168 p.Google Scholar
  10. 22.
    Henning F. Harmuth, Nonsinusoidal Waves For Radar And Radio Communication (Advances In Electronics & Electron Physics Supplement). Academic Pr. 1981. 396 p. ISBN-13: ISBN 9780120145751Google Scholar
  11. 78.
    Kosterin N.P. Generalization of main equations of aerodynamics and electrodynamics (in Russian).- Moscow: AS USSR Publ., 1937.-21 p.Google Scholar
  12. 96.
    Shevchenko V.V. Direct and backward waves: three definitions, their mutual connection and application conditions // Uspekhi fisicheskikh nauk, 2007, Vol.177, №3, p.301–306.Google Scholar
  13. 54.
    Tamm I.E. Fundamentals of electricity theory: textbook for university (in Russian). – Moscow: Nauka Publ., 1989. -504 p.Google Scholar
  14. 125.
    Weinstein L.A. Electromagnetic waves (in Russian). —Moscow: Sovradio Publ., 1988. — 440 с.Google Scholar
  15. 16.
    Gridin N.V., Nefyodov E.I., Chernikova T.Yu. Electrodynamics of structures in extra high frequencies (in Russian) / Under edition of О.М. Belotserkovsky.- Moscow.: Nauka, 2002.-360 p.Google Scholar
  16. 71.
    Ufimtsev P.Ya. Fundamentals of the Physical Theory of Diffraction, John Wiley & Sons, Inc., Hoboken, New Jersey, 2007Google Scholar
  17. 76.
    Grinberg G.A. Selected issues of mathematical theory of electric and magnetic phenomena (in Russian).- Moscow-Leningrad: AN of USSR, 1948. -728 p.
  18. 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
  19. 14.
    Gvozdev V.I., Nefyodov E.I. Volumetric integrated circuits in microwaves (in Russian)- Мoscow: Nauka Publ., 1985.-256 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. 110.
    Gupta K.S. and Singh A. Microwave Integrated Circuits, Halsted Press, New York. 1975.Google Scholar
  22. 94.
    Sovetov N.M. UHF engineering: theoretical bases (in Russian) Мoscow: Vyshaya Skola Publ., 1976. 184 p.Google Scholar
  23. 111.
    Vaĭnshteĭn L A. Open resonators and open waveguides, Golem Press, 1985. 439 p. Scholar
  24. 12.
    Tomilin A.K. The Fundamentals of Generalized Electrodynamics.; Tomilin A.K. The Potential-Vortex Theory of the Electromagnetic Field (in English).
  25. 43.
    Nikolaev G.V. Electromagnetics Secrets and the free energy: new concepts of the physical world (in Russian). Tomsk. 2002.- 150 p.Google Scholar
  26. 53.
    Nikolsky V.V., Nikolskaya T.B. Electrodynamics and radio wave propagation: Textbook for universities (in Russian).- Moscow: Nauka Publ., 1989. – 543 p.Google Scholar
  27. 112.
    Kisun’ko G.V. Electrodynamics of hollow systems (in Russian). Leningrad, Communication Academy Publ., 1949. -426p.Google Scholar
  28. 20.
    Nefyodov E.I., Kozlovsky V.V., Zgursky A.V. Microstrip emitting and resonance devices (in Russian).- Kiev: Tekhnika Publ., 1990.-160 p.Google Scholar
  29. 58.
    Nefyodov E.I., Fialkovsky A.T. Strip transmission lines: theory and calculation of typical irregularities. (in Russian).- Moscow: Nauka Publ., 1974.-128 p.Google Scholar
  30. 26.
    Nefyodov E.I. Engineering electrodynamics: textbook for universities (in Russian).- Moscow: Academia Publisher, 2008.-416 p.Google Scholar
  31. 57.
    Kurushin E.H., Nefyodov E.I. Electrodynamics of anisotropic waveguiding structures (in Russian).- Moscow: Nauka Publ., 1983.-223 p.Google Scholar
  32. 127.
    Panchenko B.A., Nefyodov E.I. Microstrip antennas (in Russian). - Moscow: Radio i Svaiz Publ. 1985.-144рр.Google Scholar
  33. 1.
    Nefyodov E., Kliuev B. Transmission lines of microwave and mm-wave ranges: computerized lecture course - Textbook. LAP LAMBERT Academic Publishing GmbH & Co., Saarbrŭcken, Germany, 2016.-544 p.Google Scholar
  34. 29.
    Julius Adams Stratton. Electromagnetic theory. Wiley-Interscience. 2007. ISBN-13 978.0-470-13153-4.Google Scholar
  35. 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
  36. 36.
    G.K. Southworth. Principles and applications of wave-guide transmission, New York, Van Nostrand [1950], xi, 689 p. illus. 24 cm. Bell Telephone Laboratories series. 1950.Google Scholar
  37. 37.
    Bhat B., Koul S.K. Analysis, Design and Application of Fine Lines.- Artech House Publ, 1987.-475 p.Google Scholar
  38. 128.
    The Electrical Engineering Handbook, under edition of Wai Kai Chen, Elsevier Academic Press, Amsterdam-Boston-Heidelberg, 2004, ISBN 0-12-170960-4, 1208 p.Google Scholar
  39. 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
  40. 28.
    Nefyodov E.I. Antenna-feeder devices and radio wave propagation: textbook for colleges (in Russian) / 2nd edition.- Moscow: Academia Publ., 2009.-320 p.Google Scholar
  41. 27.
    Nefyodov E.I., Microwave devices and antennas: textbook for universities (in Russian).- Moscow: Academia Publ., 2009.-384 p.Google Scholar

Copyright information

© 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

Personalised recommendations