Artificial Dielectric Based on Resistive Squares

Ponomarenko, V. I.; Lagunov, I. M.

doi:10.1134/S1064226919050103

Artificial Dielectric Based on Resistive Squares

ELECTRODYNAMICS AND WAVE PROPAGATION
Published: 07 June 2019
volume 64, pages 457–462 (2019)

Journal of Communications Technology and Electronics Aims and scope Submit manuscript

V. I. Ponomarenko¹ &
I. M. Lagunov¹

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Abstract

Based on the solution to the problem of diffraction of an electromagnetic wave normally incident onto a multilayer array of resistive elements, the dispersion of the effective permittivity of a structure comprised of resistive squares placed into a dielectric layer is calculated. It is established that the dispersion has a relaxation character. The feasibility of controlling the dispersion characteristic in a wide range by varying the parameters of the structure is shown. The ratio of the wavelength to the period of the structure at which the structure under consideration is adequately represented by a homogeneous layer is estimated.

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REFERENCES

B. F. Alimin, Zarubezh. Radioelektron., No. 2, 75 (1989).
H. T. Liu, H. F. Cheng, Z. Y. Chu, and D. Y. Zhang, Mater. Design 28, 2166 (2007).
Article Google Scholar
V. V. Slutskaya, Thin Films in Microwave Technology (Gosenergoizdat, Moscow, 1962) [in Russian].
Google Scholar
Yu. N. Kazantsev and G. A. Kraftmakher, Pis’ma Zh. Tekh. Fiz. 13, 649 (1987).
Google Scholar
V. I. Ponomarenko, I. K. Kupriyanov, and S. I. Zhuravlev, Radiotekh. Elektron. (Moscow) 37, 346 (1992).
Google Scholar
V. I. Ponomarenko, Izv. Vyssh. Uchebn. Zaved. Elektromekh., No. 5, 518 (1982).
V. I. Ponomarenko, D. I. Mirovitskii, and I. F. Budagyan, Radiotekhnika 39 (11), 68 (1984).
Google Scholar
V. I. Ponomarenko and S. I. Zhuravlev, Radiotekh. Elektron. (Moscow) 37, 812 (1992).
V. I. Ponomarenko, Radiotekhnika 45 (5), 82 (1990).
Google Scholar
Yu. N. Kazantsev, V. A. Babayan, N. E. Kazantseva, O. A. D’yakonova, R. Mouchka, Ya. Vilchakova, and P. Saha, J. Commun. Technol. Electron. 58, 233 (2013).
Article Google Scholar
V. I. Ponomarenko and I. M. Lagunov, Composition Materials: Development and Application (SibAK, Novosibirsk, 2017), p. 112.
A. S. Il’inskii and A. G. Sveshnikov, Numerical Methods in Problems of Diffraction on Heterogeneous Periodic Structures (Vysshaya Shkola, Moscow, 1977).
Google Scholar
V. V. Nikol’skii and T. I. Nikol’skaya, Electrodynamics and Radiopropagation (Nauka, Moscow, 1989; Springer-Verlag, New York, 1984).
V. I. Ponomarenko and I. M. Lagunov, J. Commun. Technol. Electron. 62, 765 (2017).
Article Google Scholar
V. P. Shestopalov, L. N. Litvinenko, S. A. Masalov, and V. G. Sologub, Wave Diffraction by Gratings (Khark. Gos. Univ., Kharkov, 1973) [in Russian].
Google Scholar
G. Golub and C. Van Loan, Matrix Computations (Johns Hopkins Univ. Press, Baltimore, 1996; Mir, Moscow, 1999).

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Vernadsky Crimean Federal University, 295007, Simferopol, Russia
V. I. Ponomarenko & I. M. Lagunov

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V. I. Ponomarenko
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I. M. Lagunov
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Correspondence to V. I. Ponomarenko.

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Translated by E. Chernokozhin

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