Abstract
The objective of the paper is to create on the basis of omega-shaped bianisotropic elements new absorbing metamaterials and coatings that do not have a reflecting base and are “invisible” on the irradiated side.
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Landy, N.I., Sajuyigbe, S., Mock, J.J., Smith, D.R., Padilla, W.J.: Perfect metamaterial absorber. Phys. Rev. Lett. 100, 207402 (2008)
Gansel, J.K., Thiel, M., Rill, M.S., Decker, M., Bade, K., Saile, V., Freymann, G., Linden, S., Wegener, M.: Gold helix photonic metamaterial as broadband circular polarizer. Science 325, 1513 (2009)
Zhao, Y., Belkin, M.A., Alù, A.: Twisted optical metamaterials for planarized ultrathin broadband circular polarizers. Nat. Commun. 3, 870 (2012)
Ra’di, Y., Tretyakov, S.A.: Balanced and optimal bianisotropic particles: maximizing power extracted from electromagnetic fields. New J. Phys. 15, 053008 (2013)
Niemi, T., Karilainen, A., Tretyakov, S.: Synthesis of polarization transformers. IEEE Trans. Antennas Propag. 61(6), 3102–3111 (2013)
Ra’di, Y., Asadchy, V.S., Tretyakov, S.A.: Tailoring reflections from thin composite metamirrors. IEEE Trans. Antennas Propag. 62(7), 3749–3760 (2014)
Ra’di, Y., Asadchy, V.S., Tretyakov, S.A.: One-way transparent sheets. Phys. Rev. B 89, 075109 (2014)
Semchenko, I.V., Khakhomov, S.A., Samofalov, A.L., Podalov, M.A., Solodukha, V.A., Pyatlitski, A.N., Kovalchuk, N.S.: Omega-structured substrate-supported metamaterial for the transformation of wave polarization in THz frequency range. In: Luca, D., Sirghi, L., Costin, C. (eds.) Recent Advances in Technology Research and Education, INTER-ACADEMIA 2017. Advances in Intelligent Systems and Computing, vol. 660, pp. 72–80. Springer (2018)
Semchenko, I.V., Khakhomov, S.A., Samofalov, A.L., Podalov, M.A., Songsong, Q.: The effective optimal parameters of metamaterial on the base of omega-elements. In: Jablonski, R., Szewczyk, R. (eds.) Recent Global Research and Education: Technological Challenges, INTER-ACADEMIA 2016. Advances in Intelligent Systems and Computing, vol. 519, pp. 3–9. Springer (2017)
Semchenko, I.V., Khakhomov, S.A., Asadchy, V.S., Golod, S.V., Naumova, E.V., Prinz, V.Ya., Goncharenko, A.M., Sinitsyn, G.V., Lyakhnovich, A.V., Malevich, V.L.: Investigation of electromagnetic properties of a high absorptive, weakly reflective metamaterial-substrate system with compensated chirality. J. Appl. Phys. 121(1), 015108 (2017)
Semchenko, I.V., Khakhomov, S.A., Naumova, E.V., Prinz, V.Ya., Golod, S.V., Kubarev, V.V.: Study of the properties of artificial anisotropic structures with high chirality. Crystallogr. Rep. 56(3), 366–373 (2011)
Faniayeu, I.A., Khakhomov, S.A., Semchenko, I.V., Mizeikis, V.: Highly transparent twist polarizer metasurface. Appl. Phys. Lett. 111, 111108 (2017)
Asadchy, V.S., Faniayeu, I.A., Ra’di, Y., Khakhomov, S.A., Semchenko, I.V., Tretyakov, S.A.: Broadband reflectionless metasheets: frequency-selective transmission and perfect absorption. Phys. Rev. X 5, 031005 (2015)
Semchenko, I.V., Balmakou, A.P., Khakhomov, S.A., Tretyakov, S.A.: Stored and absorbed energy of fields in lossy chiral single-component metamaterials. Phys. Rev. B 97, 014432 (2018)
Asadchy, V.S., Faniayeu, I.A., Semchenko, I.V., Khakhomov, S.A., Ra’di, Y.: Optimal arrangement of smooth helices in uniaxial 2D-arrays. In: Metamaterials’ 2013 Proceedings, pp. 244–246, Bordeaux, France (2013)
Semchenko, I.V., Khakhomov, S.A., Tretyakov, S.A., Sihvola, A.H.: Electromagnetic waves in artificial chiral structures with dielectric and magnetic properties. Electromagnetics 21(5), 401–414 (2001)
Semchenko, I.V., Khakhomov, S.A.: Artificial uniaxial bi-anisotropic media at oblique incidence of electromagnetic waves. Electromagnetics 22(1), 71–84 (2002)
Balmakou, A., Podalov, M., Khakhomov, S., Stavenga, D., Semchenko, I.: Ground-plane-less bidirectional terahertz absorber based on omega resonators. Opt. Lett. 40(9), 2084–2087 (2015)
Semchenko, I.V., Khakhomov, S.A., Podalov, M.A., Tretyakov, S.A.: Radiation of circularly polarized microwaves by a plane periodic structure of Ω elements. J. Commun. Technol. Electron. 52(9), 1002–1005 (2007)
Semchenko, I.V., Khakhomov, S.A., Samofalov, A.L.: Optimal helix shape: equality of dielectric, magnetic, and chiral susceptibilities. Russ. Phys. J. 52, 472–479 (2009)
Semchenko, I.V., Khakhomov, S.A., Samofalov, A.L.: Transformation of the polarization of electromagnetic waves by helical radiators. J. Commun. Technol. Electron. 52(8), 850–855 (2007)
Semchenko, I.V., Khakhomov, S.A., Tretyakov, S.A.: Chiral metamaterial with unit negative refraction index. Eur. Phys. J. Appl. Phys. 46(3), 32607 (2009)
Danilin, B.S., Syrchin, V.K.: Magnetron sputtering systems. Radio and communication, Moscow (1982)
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This study was supported by the Belarusian Republican Foundation for Fundamental Research, projects F18KI-027, F18KI-028.
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Semchenko, I. et al. (2019). Design and Creation of Metal-Polymer Absorbing Metamaterials Using the Vacuum-Plasma Technologies. In: Laukaitis, G. (eds) Recent Advances in Technology Research and Education. INTER-ACADEMIA 2018. Lecture Notes in Networks and Systems, vol 53. Springer, Cham. https://doi.org/10.1007/978-3-319-99834-3_14
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