Microwave seminar | 19 September 2024

In this talk, I will present my recent results within scientific, educational, and industrial projects that I developed during my work as an Industrial Postdoc. We will start with theoretical studies in topological photonics [1] and quantum optics performed as a continuation of my PhD thesis, proceed with the novel direction of active matter physics started as a joint project with Bosch and continued as thee RSF-supported research [2], and turn to fundamental and applied directions in various areas of radiophysics, including edge states in coupled resonator arrays [3], magnetic resonance imaging [4], and wireless power transfer [5]. Finally, I will present some analysis of educational activities within the “Engineering Projects” course and outline my future scientific plans.
Main paper/arXiv, related to the seminar, and other references:

1. N.A. Olekhno, A.D. Rozenblit, A.A. Stepanenko, A.A. Dmitriev, D.A. Bobylev, and M.A. Gorlach, "Topological transitions driven by quantum statistics and their electrical circuit emulation", Phys. Rev. B 105, 205113 (2022)
2. A.A. Molodtsova, M.K. Buzakov, A.D. Rozenblit, V.A. Smirnov, D.V. Sennikova, V.A. Porvatov, O.I. Burmistrov, E.M. Puhtina, A.A. Dmitriev, and N.A. Olekhno, Experimental demonstration of robotic active matter micellization, arxiv:2305.16659 (2023)
3. A.D. Rozenblit, G.D. Kurganov, and N.A. Olekhno, Edge states in all-dielectric square-lattice arrays of bianisotropic microwave resonators, arxiv:2406.15246 (2024)
4. O.I. Burmistrov, N.V. Mikhailov, D.S. Dashkevich, P.S. Seregin, and N.A. Olekhno, “Wireless power transfer in magnetic resonance imaging at a higher-order mode of a birdcage coil”, Phys. Rev. Applied 21, 014047 (2024)
5. E.D. Demeshko, A.A. Mineev, D.A. Chernomorov, O.I. Burmistrov, A.A. Dmitriev, S.S. Ermakov, A.D. Rozenblit, P.S. Seregin, and N.A. Olekhno, Wirelessly charged AA battery with a curved receiving coil, arxiv:2408.09852 (2024)