Publicado 12 números por año
ISSN Imprimir: 0040-2508
ISSN En Línea: 1943-6009
Indexed in
DIFFRACTION ANTENNAS. PLANAR STRUCTURES WITH CONTROLLABLE BEAM POSITIONING
SINOPSIS
A novel approach to design of planar diffraction radiation antennas with controllable beam swinging has been suggested and implemented in a laboratory mock-up. A planar dielectric waveguide on a metal substrate is first used in the capacity of the open line supporting surface wave propagation, while the beamforming structure is represented by a rotary semitransparent two-dimensionally periodic grating.
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Yevdokymov, A., (2013) Diffraction radiation antennas, Fizicheskie Osnovy Priborostroeniya, 2(1), pp. 108-125, (in Russian).
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Yevdokymov, A., Kryzhanovskiy, V., and Sirenko, Y., (2011) A planar diffraction antenna operating in EHF range, Elektromanitnye Volny and Elektronnye Sistemy, 16(6), pp. 53-61, (in Russian).
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Sautbekov, S., Sirenko, K., Sirenko Y., and Yevdokymov, A., (2015) Diffraction radiation phenomena: Physical analysis and applications, Antennas and Propagation Magazine, IEEE, 57(5), pp. 73-93.
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Sirenko, Y. and Velychko, L. (eds.), (2016) Electromagnetic Waves in Complex Systems, New York: Springer.
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Yevdokymov, A., Mazur, V., Sirenko, K., and Sirenko, Y., (2018) Diffraction radiation antennas on the basis of a trough transmission line, Fizicheskie Osnovy Priborostroeniya, 7(1), pp. 24-36, (in Russian).
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Sirenko, K., Sirenko, Y., and Yevdokymov, A., (2018) Diffraction antennas. A ridged dielectric waveguide, Telecommunication and Radio Engineering, 77(10), pp. 839-852.
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Sautbekov, S.S, Sirenko, K.Yu, Sirenko, Yu.K, and Yevdokymov, A.P., (2018) Diffraction antennas. Synthesis of radiating elements, Telecommunication and Radio Engineering, 77(11), pp. 925-943.
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Sirenko, Yu.K. and Yevdokymov, A.P., (2018) Diffraction antennas. Linear structures on the basis of a ridged dielectric waveguide, Telecommunication and Radio Engineering, 77(14), pp. 1203-1229.
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Mazur, V.Z., Sirenko, K.Yu., Sirenko, Yu.K., and Yevdokymov, A.P., (2018) Diffraction antennas. Linear structures on the basis of a modified Goubau line, Telecommunications and Radio Engineering, 77(16), pp. 1397-1408.
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Lebedev, I.V., (1970) Microwave Technology and Devices, Moscow, Russia: Vysshaya Shkola Publ., (in Russian).
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Vzyatyshev, V.F., (1970) Dielectric Waveguides, Moscow, Russia: Sovetskoe Radio Publ., (in Russian).
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Voskresenskiy, D.I. (ed.), (1972) Microwave Antennas and Devices, Moscow, Russia: Sovetskoe Radio Publ., (in Russian).
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Velychko, L., Sirenko, Y., and Vinogradova, E., (2012) Analytical grounds for modern theory of two-dimensionally periodic gratings, in: Kishk, A. (ed), Solutions and Applications of Scattering, Propagation, Radiation and Emission of Electromagnetic Waves, Rijeka: InTech.
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Sirenko, K., Sirenko, Y., and Bagci, H., (2018) Exact absorbing boundary conditions for periodic three-dimensional structures: Derivation and implementation in discontinuous Galerkin time-domain method, IEEE Journal on Multiscale and Multiphysics Computational Techniques, 3(1), pp. 108-120.
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Kuhn, R., (1964) Mikrowellen Antennen, Berlin, VEB Verlag Technik.
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Sirenko Yuriy, Sautbekov Seil, Sautbekova Merey, Yashina Nataliya, Burambayeva Nursaule, Begimova Assel, Axial-Symmetric Diffraction Radiation Antenna with a Very Narrow Funnel-Shaped Directional Diagram, Applied Sciences, 11, 21, 2021. Crossref
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Sirenko Yu. K., Sautbekov S. S., Yashina N. P., Melezhik P. N., Poyedinchuk A. Ye., Sautbekova M. S., New Methods for Formation and Directed Radiation of Powerful Short Radio Pulses, 2021 Photonics & Electromagnetics Research Symposium (PIERS), 2021. Crossref