A.I. Kirilyuka,e aKotel'nikov Institute of Radio Engineering and Electronics, Russian Academy of Sciences, ul. Mokhovaya 11, kor. 7, Moscow, 125009, Russian Federation bMoscow Institute of Physics and Technology (National Research University), Institutskii per. 9, Dolgoprudny, Moscow Region, 141701, Russian Federation cChernyshevskii Saratov State University, ul. Astrakhanskaya 83, Saratov, 410071, Russian Federation dNational Research University "Moscow Power Engineering Institute", Krasnokazarmennaya st. 14, Moscow, 111250, Russian Federation eFELIX Laboratory, Radboud University, Toernooiveld 7, Nijmegen, 6525, The Netherlands
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 PACS:85.70.−w, 85.75.−d (all) DOI:10.3367/UFNe.2019.07.038609 URL: https://ufn.ru/en/articles/2020/10/a/ Citation: Nikitov S A, Safin A R, Kalyabin D V, Sadovnikov A V, Beginin E N, Logunov M V, Morozova M A, Odintsov S A, Osokin S A, Sharaevskaya A Yu, Sharaevsky Yu P, Kirilyuk A I "Dielectric magnonics: from gigahertz to terahertz" Phys. Usp.63 945–974 (2020)