V. V. Klimov, “Optical nanoresonators”, UFN, 193:3 (2023), 279–304; Phys. Usp., 66:3 (2023), 263

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Uspekhi Fizicheskikh Nauk, 2023, Volume 193, Number 3, Pages 279–304
DOI: https://doi.org/10.3367/UFNr.2022.02.039153 (Mi ufn7917)

This article is cited in 9 scientific papers (total in 9 papers)

REVIEWS OF TOPICAL PROBLEMS

Optical nanoresonators

V. V. Klimov

Lebedev Physical Institute, Russian Academy of Sciences, Moscow

Full-text PDF (1721 kB) Citations (9)

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DOI: https://doi.org/10.3367/UFNr.2022.02.039153

Abstract: The review presents an analysis and generalization of classical and most modern approaches to the description and development of the principles of operation of open optical nanoresonators, that is, resonators, all sizes of which are smaller than the resonant wavelength of radiation in vacuum. Particular attention is paid to the physics of such phenomena as bound states in a continuum, anapole states, supercavity modes, and perfect nonradiating modes with extremely high quality factors and localizations of electromagnetic fields. An analysis of the optical properties of natural oscillations in nanoresonators made of metamaterials is also presented in the review. The effects considered in this review, besides being of fundamental import, can also find applications in the development of optical nanoantennas, nanolasers, biosensors, photovoltaic devices, and nonlinear nanophotonics.

Funding agency	Grant number
Russian Foundation for Basic Research	20-12-50136
The study was funded by the Russian Foundation for Basic Research, project number 20-12-50136.

Received: August 10, 2021
Revised: January 17, 2022
Accepted: February 11, 2022

English version:
Physics–Uspekhi, 2023, Volume 66, Issue 3, Pages 263–287
DOI: https://doi.org/10.3367/UFNe.2022.02.039153

Bibliographic databases:

Document Type: Article

PACS: 03.50.De, 32.50.+d, 32.70.Jz, 42.25.-p, 42.50.Pq, 42.79.-e, 78.67.-n, 78.67.Pt,

Language: Russian

Citation: V. V. Klimov, “Optical nanoresonators”, UFN, 193:3 (2023), 279–304; Phys. Usp., 66:3 (2023), 263–287

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Linking options:

https://www.mathnet.ru/eng/ufn7917

https://www.mathnet.ru/eng/ufn/v193/i3/p279

This publication is cited in the following 9 articles:

Vyacheslav A. Timofeev, Ilya V. Skvortsov, Vladimir I. Mashanov, Alexey E. Gayduk, Alexey A. Bloshkin, Viktor V. Kirienko, Dmitry E. Utkin, Alexandr I. Nikiforov, Dmitry V. Kolyada, Dmitry D. Firsov, Oleg S. Komkov, “Excitation of hybrid modes in plasmonic nanoantennas coupled with GeSiSn/Si multiple quantum wells for the photoresponse enhancement in the short-wave infrared range”, Applied Surface Science, 659 (2024), 159852
Xavier Zambrana-Puyalto, Søren Raza, “Quality Factor of Dielectric Spherical Resonators”, ACS Photonics, 11:8 (2024), 3317
Tong Wu, Philippe Lalanne, “Designing electromagnetic resonators with quasinormal modes”, Front. Phys., 12 (2024)
V. M. Rozenbaum, I. V. Shapochkina, L. I. Trakhtenberg, “Quantum particle in a V-shaped well of arbitrary asymmetry. Brownian motors”, Phys. Usp., 67:10 (2024), 1046–1055
D. R. Kazanov, A. M. Monakhov, “Open whispering gallery mode resonators”, Opt. Lett., 49:22 (2024), 6577
Andrey Ivanov, Igor Bykov, Grégory Barbillon, Konstantin Mochalov, Denis Korzhov, Alexander Kovalev, Alexander Smyk, Alexander Shurygin, Andrey K. Sarychev, “Plasmon localization and field enhancement in flexible metasurfaces”, Phys. Rev. Applied, 22:6 (2024)
L. S. Dolin, “On the role of phantom sources in the theory of superlenses”, Phys. Usp., 66:8 (2023), 846–851
D. Yu. Sergeeva, A. A. Tishchenko, “Enhanced Smith-Purcell radiation based on quasibound states in the continuum in dimers aligned in a chain”, Phys. Rev. B, 108:15 (2023)
V. V. Klimov, A. R. Bekirov, B. S. Luk'yanchuk, “Trapped modes in particles with a negative refractive index”, Opt. Lett., 48:21 (2023), 5795

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

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Full-text PDF :	41
References:	29
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