A. M. Lerer, G. S. Makeeva, “Polarization effects and resonance absorption in terahertz wave diffraction on graphene metasurfaces”, Optics and Spectroscopy, 125:6 (2018), 838–843; Optics and Spectroscopy, 125:6 (2018), 1034

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Optics and Spectroscopy, 2018, Volume 125, Issue 6, Pages 838–843
DOI: https://doi.org/10.21883/OS.2018.12.46948.257-18 (Mi os832)

This article is cited in 17 scientific papers (total in 17 papers)

Optics of surfaces and interfaces

Polarization effects and resonance absorption in terahertz wave diffraction on graphene metasurfaces

A. M. Lerer^a, G. S. Makeeva^b

^a Faculty of Physics, Southern Federal University, 344090, Rostov-on-Don, Russia
^b Penza State University, 440026, Penza, Russia

Full-text PDF (682 kB) Citations (17)

DOI: https://doi.org/10.21883/OS.2018.12.46948.257-18

Abstract: A task on the electromagnetic wave diffraction on graphene metasurfaces–the 2D periodic lattices of rectangular graphene nanoribbons placed on substrates with dielectric and graphene layers–is solved using three electromagnetic methods. The coefficients of transmission through THz polarizers based on graphene metasurfaces are studied as a function of frequency with the orientation angles of incident TEM wave vectors varying relative to the graphene nanoribbons for various values of the chemical potential. It is shown that graphene metasurfaces on multilayer substrates at surface plasmon polariton resonant frequencies are electrically tunable absorbers of almost 100% incident energy in the THz frequency range.

Funding agency	Grant number
Ministry of Science and Higher Education of the Russian Federation	3.5398.2017/8.9
This work was supported as part of the basic part of a state task, project no. 3.5398.2017/8.9.

Received: 29.08.2018

English version:
Optics and Spectroscopy, 2018, Volume 125, Issue 6, Pages 1034–1040
DOI: https://doi.org/10.1134/S0030400X18120111

Bibliographic databases:

Document Type: Article

Language: Russian

Citation: A. M. Lerer, G. S. Makeeva, “Polarization effects and resonance absorption in terahertz wave diffraction on graphene metasurfaces”, Optics and Spectroscopy, 125:6 (2018), 838–843; Optics and Spectroscopy, 125:6 (2018), 1034–1040

Citation in format AMSBIB

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\pages 838--843

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\jour Optics and Spectroscopy

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Linking options:

https://www.mathnet.ru/eng/os832

https://www.mathnet.ru/eng/os/v125/i6/p838

This publication is cited in the following 17 articles:

G. S. Makeeva, “Beamforming of Electrically Tunable Plasmonic Graphene Strip Nanoantennas in the Terahertz, Far-Infrared, and Mid-Infrared Ranges”, Tech. Phys., 2024
G. S. Makeeva, “Formirovanie diagrammy napravlennosti elektricheski perestraivaemykh plazmonnykh grafenovykh poloskovykh nanoantenn v teragertsovom i dalnem, srednem infrakrasnom diapazonakh”, Izvestiya vysshikh uchebnykh zavedenii. Povolzhskii region. Fiziko-matematicheskie nauki, 2024, no. 2, 91–102
Galina S. Makeeva, “Plasmonic antennas based on rectangular graphene nanoribbons with controlled polarization of terahertz and infrared radiation”, Physics of Wave Processes and Radio Systems, 27:3 (2024), 81
G. S. Makeeva, “Modeling the Controllability of Performances of Plasmon Graphene Nanoantenna Arrays in the Mid-IR Range”, Tech. Phys., 2024
G. S. Makeeva, “Elektronnoe upravlenie napravlennymi svoistvami rekonfiguriruemykh plazmonnykh antennykh reshetok na osnove grafena s chastotnym skanirovaniem v srednem infrakrasnom diapazone”, Izvestiya vysshikh uchebnykh zavedenii. Povolzhskii region. Fiziko-matematicheskie nauki, 2024, no. 3, 86–106
G.S. Makeeva, 2024 IEEE 9th All-Russian Microwave Conference (RMC), 2024, 294
M. S. Nikitin, G. S. Makeeva, “Optimization of the Characteristics of Graphene Microribbon-Based Antenna Arrays”, Tech. Phys., 69:11 (2024), 2688
G. S. Makeeva, “Plasmonic Antennas Based on Rectangular Graphene Nanoribbons with Controlled Polarization of Terahertz and IR Radiation”, Tech. Phys. Lett., 50:3 (2024), 383
G. S. Makeeva, M. S. Nikitin, “Frequency Scanning Graphene Antennas with Plasmonic Control of the Radiation Pattern and Polarization of THz and IR Radiation”, Tech. Phys. Lett., 50:3 (2024), 378
G. S. Makeeva, “Electronic Control of Directional Properties of Reconfigurable Plasmonic Graphene-Based Antenna Arrays with Frequency Scanning in the Mid-IR Range”, Tech. Phys. Lett., 50:3 (2024), 408
Galina S. Makeeva, Vladimir V. Cherepanov, 2021 Radiation and Scattering of Electromagnetic Waves (RSEMW), 2021, 103
A. M. Lerer, G. S. Makeeva, V. V. Cherepanov, S. V. Krutiev, P. V. Makhno, D. V. Lonkina, A. S. Makhno, 2021 Photonics & Electromagnetics Research Symposium (PIERS), 2021, 663
A.M. Lerer, G.A. Kouzaev, G.S. Makeeva, 2020 Moscow Workshop on Electronic and Networking Technologies (MWENT), 2020, 1
A.M. Lerer, G.S. Makeeva, V.V. Cherepanov, 2020 International Conference on Actual Problems of Electron Devices Engineering (APEDE), 2020, 269
A.M. Lerer, G. S. Makeeva, O. A. Golovanov, “Diffraction of Electromagnetic Waves by Multilayer Graphene Metasurfaces in the Terahertz Frequency Band”, Radiophys Quantum El, 62:10 (2020), 700
Alexander M. Lerer, Galina S. Makeeva, P. Yermolov, “Diffraction of electromagnetic waves on the resonance graphene metasurfaces”, ITM Web Conf., 30 (2019), 12016
A.M. Lerer, G. S. Makeeva, G.A. Galchenko, 2019 Radiation and Scattering of Electromagnetic Waves (RSEMW), 2019, 261

Citing articles in Google Scholar: Russian citations, English citations
Related articles in Google Scholar: Russian articles, English articles

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