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Application of the Concept of Ultra-Thin Resonant Absorbers for Controlling Millimeter-Wave Radiation by Means of Liquid Crystals
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A consideration of ultra-thin resonant absorbers of electromagnetic radiation utilizing high-impedance metasurfaces is carried out in terms of an equivalent circuit theory. By incorporating a thin layer of tunable dielectric into such structures it is feasible to manipulate the radiation amplitude and phase under the condition of a small thickness of the dielectric layer in comparison with the radiation wavelength. As such a dielectric, the nematic liquid crystal 5CB with a thickness of 80 um was chosen, and a 5CB-based prototype of an absorbing metastructure of the reflective type optimized for operation in the vicinity of a frequency of 140 GHz was fabricated and experimentally studied. Testing the structure revealed good agreement between the calculated and experimental reflection spectra. The results of this work can be useful for modeling and developing quasi-optical and integrated active devices of terahertz photonics.
Keywords
radiophotonics, millimeter waves, terahertz radiation, liquid crystals, metasurface, high-impedance surface, electromagnetic absorber
Funding
The study was carried out in the framework of the State Assignment Program of the Ministry of Science and Higher Education of the Russian Federation. The authors gratefully acknowledge the Shared Equipment Centers of the Novosibirsk State University (“VTAN”) and the Institute of Automation and Electrometry SB RAS (“Spectroscopy and Optics”) for the provided instrumental support.
УДК 537.86.029.65/.79, 544.25, 621.383
Application of the Concept of Ultra-Thin Resonant Absorbers for Controlling Millimeter-Wave Radiation by Means of Liquid Crystals
Материал поступил в редколлегию 14.05.2019
Abstract A consideration of ultra-thin resonant absorbers of electromagnetic radiation utilizing high-impedance metasurfaces is carried out in terms of an equivalent circuit theory. By incorporating a thin layer of tunable dielectric into such structures it is feasible to manipulate the radiation amplitude and phase under the condition of a small thickness of the dielectric layer in comparison with the radiation wavelength. As such a dielectric, the nematic liquid crystal 5CB with a thickness of 80 um was chosen, and a 5CB-based prototype of an absorbing metastructure of the reflective type optimized for operation in the vicinity of a frequency of 140 GHz was fabricated and experimentally studied. Testing the structure revealed good agreement between the calculated and experimental reflection spectra. The results of this work can be useful for modeling and developing quasi-optical and integrated active devices of terahertz photonics.
Keywords
radiophotonics, millimeter waves, terahertz radiation, liquid crystals, metasurface, high-impedance surface, electromagnetic absorber
Funding
The study was carried out in the framework of the State Assignment Program of the Ministry of Science and Higher Education of the Russian Federation. The authors gratefully acknowledge the Shared Equipment Centers of the Novosibirsk State University (“VTAN”) and the Institute of Automation and Electrometry SB RAS (“Spectroscopy and Optics”) for the provided instrumental support.
УДК 537.86.029.65/.79, 544.25, 621.383
Application of the Concept of Ultra-Thin Resonant Absorbers for Controlling Millimeter-Wave Radiation by Means of Liquid Crystals Выходные данные: Kuznetsov S. A., Nikolaev N. А., Trashkeev S. I., Lazorskiy P. A., Arzhannikov A. V. Application of the Concept of Ultra-Thin Resonant Absorbers for Controlling Millimeter-Wave Radiation by Means of Liquid Crystals. Siberian Journal of Physics 2019, vol. 14, no. 2. С. 86–102. (in Russ.).
DOI 10.25205/2541-9447-2019-14-2-86-102