Graphene magnetoplasmonics as a platform for creating THz and Mid-IR devices with combined
electrical and magnetic tuning (literature review) 

Galina S. Makeeva, Doctor of physical and mathematical sciences, professor, professor of the sub-department of radioengineering and radioelectronic systems, Penza State University (40 Krasnaya street, Penza, Russia) E-mail: radiotech@pnzgu.ru

The purpose of this study is to provide an overview of the current state of graphene magnetoplasmonics, including fundamentals and applications. We consider the physical effects, including the “giant” Faraday effect, in electrically and magnetically controlled graphene magnetoplasmonic metasurfaces, as well as their use for creating new graphenebased plasmonic devices in the THz and IR range that are dynamically tunable by an external magnetic field. We present the operating principles of electrically and magnetically tunable graphene THz and IR devices: THz absorbers, switches, polarizers, filters, sensors, modulators and integrated magneto-optical elements such as IR isolators and circulators. We discuss their applications in photonics and optoelectronics, telecommunications, THz spectrometry, and biomedical technologies.

magnetoplasmonics, graphene, magnetic field, “giant"” Faraday effect, electrically and magnetically tunable devices

Makeeva G.S. Graphene Magnetoplasmonics as a Platform for Creating THz and Mid-IR Devices with Combined Electrical and Magnetic Tuning. Review. Povolzhskiy region. Fiziko-matematicheskie nauki = University proceedings. Volga region. Physical and mathematical sciences. 2024;(4):118–140. (In Russ.). doi: 10.21685/2072-3040-2024-4-10