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Uspekhi Fizicheskikh Nauk, 2020, Volume 190, Number 10, Pages 1009–1040
DOI: https://doi.org/10.3367/UFNr.2019.07.038609 (Mi ufn6591) 		 
This article is cited in 71 scientific papers (total in 71 papers)

REVIEWS OF TOPICAL PROBLEMS

Dielectric magnonics: from gigahertz to terahertz

S. A. Nikitovabc, A. R. Safinad, D. V. Kalyabinab, A. V. Sadovnikovac, E. N. Begininc, M. V. Logunova, M. A. Morozovac, S. A. Odintsovc, S. A. Osokinab, A. Yu. Sharaevskayaa, Yu. P. Sharaevskyc, A. I. Kirilyukae

a Kotel'nikov Institute of Radio Engineering and Electronics, Russian Academy of Sciences, Moscow
b Moscow Institute of Physics and Technology (National Research University), Dolgoprudnyi, Moscow region
c Chernyshevskii Saratov State University
d National Research University Moscow Power Engineering Institute
e FELIX Laboratory, Radboud University, Nijmegen
Full-text PDF (1638 kB) Citations (71)
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DOI: https://doi.org/10.3367/UFNr.2019.07.038609
Abstract: State-of-the-art studies of dielectric magnonics and magnon spintronics are reviewed. Theoretical and experimental approaches to exploring physical processes in and calculations of the parameters of magnonic micro- and nanostructures are described. We discuss the basic concepts of magnon spintronics, the underlying physical phenomena, and the prospects for applying„ magnon spintronics for data processing, transmission, and reception. Special attention is paid to the feasibility of boosting the operating frequencies of magnonic devices from the gigahertz to terahertz frequency range. We also discuss specific implementations of the component base of magnonics and ways to further develop it.
Keywords: magnonics, spintronics, spin wave electronics, magnonic crystals, microwave electronics, magnetic structures, spin waves, waveguides, magnetic films, magnonic logic, data processing devices.
Funding agency Grant number
Russian Foundation for Basic Research 18-29-27018
18-29-27020
18-37- 20048
18-57-76001
19-29-03015
18-07-00509
18- 52-16006
18-29-27026
18-37-20005
18-57-16001
Russian Science Foundation 19-19-00607
Ministry of Education and Science of the Russian Federation МК-3650.2018.9
МК-283.2019.8
МК-3607.2019.9
Ministry of Science and Higher Education of the Russian Federation 074-02-2018-286
075-15-2019-1874
The results presented in this review were obtained with the support of a grant from the Government of the Russian Federation for state support of academic research conducted under the guidance of leading scientists in tertiary educational institutions, research institutions, and national research centers of the Russian Federation (project no. 075-15-2019-1874), the Government of the Russian Federation (agreement 074-02-2018-286), the Russian Science Foundation (grant 19-19-00607), the Russian Foundation for Basic Research (grants 18-29-27018, 18-29-27020, 18-29-27026, 18-37-20005, 18-37-20048, 18-57-16001, 19-29-03015, 18-57-76001, 18-07-00509, 18-52-16006), and grants from the President of the Russian Federation for young candidates of sciences, nos MK-283.2019.8, MK-3607.2019.9, and MK-3650.2018.9.
Received: June 6, 2019
Revised: July 5, 2019
Accepted: July 11, 2019
English version:
Physics–Uspekhi, 2020, Volume 63, Issue 10, Pages 945–974
DOI: https://doi.org/10.3367/UFNe.2019.07.038609
Bibliographic databases:
Document Type: Article
PACS: 85.70.-w, 85.75.-d
MSC: 75.30.Ds
Language: Russian
Citation: S. A. Nikitov, A. R. Safin, D. V. Kalyabin, A. V. Sadovnikov, E. N. Beginin, M. V. Logunov, M. A. Morozova, S. A. Odintsov, S. A. Osokin, A. Yu. Sharaevskaya, Yu. P. Sharaevsky, A. I. Kirilyuk, “Dielectric magnonics: from gigahertz to terahertz”, UFN, 190:10 (2020), 1009–1040; Phys. Usp., 63:10 (2020), 945–974
Citation in format AMSBIB
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    • This publication is cited in the following 71 articles:
    1. M. Amel'chenko, S. Grishin, F. Ogrin, S. Nikitov, “Ultra-wideband ferromagnetic metamaterials in high-intensity magnetic biased fields”, Applied Physics Letters, 126:10 (2025)  crossref
    2. I. V. Yanilkin, A. I. Gumarov, B. F. Gabbasov, R. V. Yusupov, L. R. Tagirov, “Temperature control of spin-wave spectra in continuously graded epitaxial Pd-Fe alloy films”, Phys. Rev. B, 111:9 (2025)  crossref
    3. S.A. Odintsov, S.E. Sheshukova, S.A. Nikitov, A.V. Sadovnikov, “Bilayer magnonic crystal directional coupler: Interlayer spin-wave coupling and formation of localized beams within a three-dimensional magnonic architecture”, Phys. Rev. Applied, 23:3 (2025)  crossref
    4. N. D. Lobanov, O. V. Matveev, M. A. Morozova, “Vliyanie nelineinosti na breggovskie rezonansy v svyazannykh magnonnykh kristallakh”, Izvestiya vuzov. PND, 32:1 (2024), 111–120  mathnet  crossref
    5. T. V. Bogdanova, A. A. Meshcheryakov, D. V. Kalyabin, A. B. Khutieva, A. V. Sadovnikov, A. R. Safin, S. A. Nikitov, “Influence of mechanical strains on the antiferromagnetic resonance modes of bulk α -Fe2O3”, Applied Physics Letters, 124:9 (2024)  crossref
    6. S. A. Odintsov, S. E. Sheshukova, S. A. Nikitov, F. Y. Ogrin, A. V. Sadovnikov, “Nonreciprocal magnonic directional coupler based on metal-coated YIG adjacent stripes”, Applied Physics Letters, 124:11 (2024)  crossref
    7. A.A. Matveev, A.R. Safin, S.A. Nikitov, “Control of the nonlinear frequency shift for the spin-transfer nano-oscillator using a bias magnetic field”, Journal of Magnetism and Magnetic Materials, 592 (2024), 171825  crossref
    8. Vladimir R Tuz, Andrey B Evlyukhin, “Magneto-plasmonic scattering by a disk-shaped particle made of an artificial dielectric”, J. Phys. D: Appl. Phys., 57:13 (2024), 135005  crossref
    9. M. E. Seleznev, G. M. Dudko, Yu. V. Nikulin, Yu. V. Khivintsev, V. K. Sakharov, A. V. Kozhevnikov, S. L. Vysotskii, Yu. A. Filimonov, “Detektirovanie sfokusirovannykh puchkov poverkhnostnykh magnitostaticheskikh voln v strukturakh YIG / Pt”, Izvestiya vuzov. PND, 32:3 (2024), 405–418  mathnet  crossref
    10. D. A. Volkov, D. A. Gabrielyan, A. A. Matveev, A. R. Safin, D. V. Kalyabin, A. A. Khafizov, M. N. Markelova, A. R. Kaul, S. A. Nikitov, “Spin pumping from Lu3Fe5O12”, JETP Letters, 119:5 (2024), 357–362  mathnet  crossref  crossref
    11. A.A. Martyshkin, S.E. Sheshukova, F.Y. Ogrin, E.H. Lock, D.V. Romanenko, S.A. Nikitov, A.V. Sadovnikov, “Nonreciprocal spin-wave beam transport in a metallized T-shaped magnonic junction”, Phys. Rev. Applied, 22:1 (2024)  crossref
    12. Igor Yanilkin, Amir Gumarov, Igor Golovchanskiy, Airat Kiiamov, Bulat Gabbasov, Roman Yusupov, Lenar Tagirov, “Molecular beam epitaxy of Pd-Fe graded alloy films for standing spin waves control”, Journal of Vacuum Science & Technology A, 42:5 (2024)  crossref
    13. Yu. V. Nikulin, Yu. V. Khivintsev, M. E. Seleznev, S. L. Vysotsky, V. K. Sakharov, A. V. Kozhevnikov, G. M. Dudko, A. G. Khitun, S. A. Nikitov, Yu. A. Filimonov, “Spin pumping in YIG/Pt structures: role of van Hove singularities”, JETP Letters, 119:9 (2024), 688–695  mathnet  crossref  crossref
    14. O. S. Temnaya, S. A. Nikitov, “Perekachka energii mezhdu svyazannymi planarnymi magnonnymi volnovodami vblizi osoboi tochki”, Pisma v ZhETF, 120:2 (2024), 125–129  mathnet  crossref
    15. E. S. Romanova, M. N. Smirnova, G. E. Nikiforova, V. A. Ketsko, K. I. Yanushkevich, “Synthesis, Crystal Structure, and Magnetic Properties of Y3–xCex(Fe0.5Ga0.5)5O12 (kh = 0, 0.5)”, Russ. J. Inorg. Chem., 2024  crossref
    16. D. Gabrielyan, D. Volkov, E. Kozlova, A. Safin, D. Kalyabin, S. Nikitov, “Room-temperature spin pumping from canted antiferromagnet α-Fe2O3”, Journal of Applied Physics, 136:8 (2024)  crossref
    17. A. A. Martyshkin, E. N. Beginin, A. V. Sadovnikov, “Frequency-Selective Propagation of Spin Waves in a Three-Dimensional Magnon T-Shaped Splitter”, Tech. Phys., 69:3 (2024), 619  crossref
    18. A. I. Serokurova, S. A. Sharko, N. N. Novitskii, M. N. Smirnova, G. E. Nikiforova, E. S. Romanova, V. A. Ketsko, A. I. Stognij, “Synthesis and Properties of Magnetodielectric Coatings Based on Photoresist and Nanosized Powder Mg(Fe0.7Ga0.3)2Ox”, Russ. J. Inorg. Chem., 2024  crossref
    19. O. S. Temnaya, S. A. Nikitov, “Energy Transfer between Coupled Planar Magnon Waveguides Near an Exceptional Point”, Jetp Lett., 120:2 (2024), 121  crossref
    20. V. Teplov, V. Bessonov, V. Bessonova, A. Telegin, “Incorporating magneto-crystalline anisotropy and damping in the autoresonance oscillations modeling in thin YIG films.”, Physica D: Nonlinear Phenomena, 2024, 134386  crossref
    Citing articles in Google Scholar: Russian citations, English citations
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