Abstract
This chapter begins from the general review of periodic processes and structures in nature, science, and engineering (Sect. 8.1). Such processes and structures began their complete life from the discoveries of the Russian scientist D. Mendeleev. Periodic structures are widely used at present in active and adaptive phased antenna arrays, on the one hand, and in nano-devices base on meta-materials, on the other. Floquet’s theorem and the principle of the phase synchronism are physical fundamentals of periodic structures (Sect. 8.2.1). In a series of knowledge branches, the periodic systems play the role of slowing systems with their own deceleration coefficient. In the whole case series, slowing structures are the constitutive parts of devices based on the already considered hollow waveguides (Chap. 6)
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- 1.
In Russian technical literature, an orothron is often referred to as the oscillator of diffraction emission.
- 2.
This is the list of literature, which is recommended for interested students and specialists.
References
This is the list of literature, which is recommended for interested students and specialists.
Brekhovskikh L.M. waves in laminate media (in Russian). — Moscow: AN USSR Publ., 1957. — 507 p.
Fletcher C.A.J. Computational Galerkin Method, Springer Verlag, N.-Y., Berlin, Heidelberg, Tokyo. 1984
Stutzman W. L. and Thiele G. A.: Antenna Theory and Design, 2nd edition, Wiley NY. 1998.
Nefyodov E.I., Fialkovsky A.T. Strip transmission lines: theory and calculation of typical irregularities. (in Russian).- Moscow: Nauka Publ., 1974.-128 p.
Honl H., Maue Au.W., Westpahl K. Theorie der Beugung. Springer Verlag, 1961.-320 с.
Gvozdev V.I., Nefyodov E.I. Volumetric integrated circuits in microwaves (in Russian)- Мoscow: Nauka Publ., 1985.-256 p.
Marcuvitz N. Waveguide Handbook, New York: Dover Publications, 1998. — 428 p. — ISBN-10: 0863410588; ISBN-13: 978–0863410581
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.
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.
Ufimtsev P.Ya. Fundamentals of the Physical Theory of Diffraction, John Wiley & Sons, Inc., Hoboken, New Jersey, 2007
Buduris G., Shevenie P. Microwave Circuits / Transl. from French. Moscow: Sovradio Publ., 1979.-288 p.
Nefyodov E.I., Sivov A.N. Electrodynamics of periodic structures (in Russian). - Moscow: Nauka Publ., 1977. –208p.
Katsenelenbaum B.Z., Korshunova E.N., Sivov A.N., Shatrov A.D. Chiral electrodynamics objects (in Russian)// Uspekhi fisicheskikh nauk, 1997, vol. 167, № 11, p. 1201.
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Nefyodov, E.I., Smolskiy, S.M. (2019). Periodic Processes and Structures in Nature, Science, and Engineering. In: Electromagnetic Fields and Waves. Textbooks in Telecommunication Engineering. Springer, Cham. https://doi.org/10.1007/978-3-319-90847-2_8
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DOI: https://doi.org/10.1007/978-3-319-90847-2_8
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