The Application of the Hybrid Projection Method for the Analysis

Y. I. Chizhevskay; Чижевская Я. И.; O. N. Smol’nikov; Смольникова О. Н.; B. A. Levitan; Левитан Б. А.; I. V. Zimin; Зимин И. В.; S. P. Skobelev; Скобелев С. П.

doi:10.31857/S0033849423010047

The Application of the Hybrid Projection Method for the Analysis

Autores: Chizhevskay Y.I.¹^,2, Smol’nikov O.N.²^,3, Levitan B.A.¹^,2^,3, Zimin I.V.¹^,2, Skobelev S.P.¹^,2
Afiliações:
1. Moscow Institute of Physics and Technology (a National Research University)
2. Radiofizika Public Company
3. Moscow Aviation Institute (a National Research University)
Edição: Volume 68, Nº 1 (2023)
Páginas: 3-12
Seção: ELECTRODYNAMICS AND RADIO WAVE PROPAGATION
URL: https://rjpbr.com/0033-8494/article/view/650612
DOI: https://doi.org/10.31857/S0033849423010047
EDN: https://elibrary.ru/CCRCIB
ID: 650612

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Resumo
Sobre autores
Bibliografia
Arquivos suplementares
Estatísticas

Resumo

The problem of scattering of a plane electromagnetic wave by a 2D periodic structure formed by absorbing spherical radially inhomogeneous dielectric elements is considered. The elements have the type of electromagnetic black holes located on a semi-infinite substrate. The numerical algorithm of the solution is developed. The algorithm is based on the hybrid projection method and takes into account the peculiarities of the black hole construction. The algorithm is generalized to the case, when black holes are situated on a
perfectly conducting screen. New expressions for calculating the power absorbed by the structure elements are derived. The numerical results characterizing the efficiency of the structure absorption are presented.

Palavras-chave

inhomogeneous dielectric elements, electromagnetic black hole, absorption

Bibliografia

Narimanov E.E., Kildishev A.V. // Appl. Phys. Lett. 2009. V. 95. № 4. P. 041106.
Cheng Q., Cui T.J., Jiang W.X., Cai B.G. // New J. Phys. 2010. V. 12. № 6. P. 063006.
Kildishev A.V., Prokopeva L.J., Narimanov E.E. // Opt. Express. 2010. V. 18. P. 16646.
Lu W., Jin J.-F., Lin Z., Chen H. // J. Appl. Phys. 2010. V. 108. № 6. P. 064517.
Li S., Li L., Lin Z. et al. // Phys. Rev. B. 2010. V. 82. № 5. P. 054204.
Wang H.-W., Chen L.-W. // J. Appl. Phys. 2011. V. 109. P. 103104.
Чижевская Я.И., Смольникова О.Н., Скобелев С.П. // Радиотехника. 2018. № 4. С. 23. (www.radiotec.ru).
Chizhevskaya Ya.I., Skobelev S.P. // Proc. 13th Europ. Conf. on Antennas and Propagation (EuCAP'2019), Krakow. 31 Mar.–5 Apr. N.Y.: IEEE, 2019. Article № 18775713.
Чижевская Я.И., Скобелев С.П. // Оптика и спектроскопия. 2019. Т. 127. № 6. С. 991.
Maslovski S.I., Simovski C.R., Tretyakov S.A. // New J. Phys. 2016. V. 18. № 1. P. 013034.
Chizhevskaya Ya.I. // Int. Conf. Engineering & Telecommunication (En&T), Dolgoprudny, Russia, 25–26 Nov. 2020. https://doi.org/10.1109/EnT50437/2020. 9431299
Чижевская Я.И., Скобелев С.П. // Радиотехника. 2020. № 4. С. 40. https://doi.org/10.18127/j00338486-202004(7)-05
Chizhevskaya Ya.I., Smolnikova O.N., Skobelev S.P. // Radiation and Scattering of Electromagnetic Waves (RSEMW 2019), Divnomorskoye, Russia, 24–28 June 2019. P. 220.
Chizhevskaya Ya.I., Skobelev S.P., Smolnikova O.N. // Proc. 14th Europ. Conf. on Antennas and Propagation (EuCAP 2020), Copenhagen. 15–20 Mar. N.Y.: IEEE, 2020. P. 9135699. https://doi.org/10.23919/EuCAP48036.2020.9135699
Чижевская Я.И., Смольникова О.Н., Скобелев С.П. // ЖТФ. 2021. Т. 91. № 2. С. 326.
Chizhevskaya Ya.I., Skobelev S.P. // Radiation and Scattering of Electromagnetic Waves (RSEMW), Divnomorskoye. 28 Jun.–2 Jul. 2021. N.Y.: IEEE, 2021. P. 51. https://doi.org/10.1109/RSEMW52378.2021.9494093
Skobelev S.P., Smolnikova O.N. // IEEE Trans. 2013. V. AP-61. № 10. P. 5078.
Скобелев С.П. Фазированные антенные решетки с секторными парциальными диаграммами направленности. М.: Физматлит, 2010.
Скобелев С.П., Смольникова О.Н. // РЭ. 2012. Т. 57. № 10. С. 1066.