Место издания:Московская область, г. Долгопрудный, «Московский физико-технический институт (национальный исследовательский университет)», Russia
Первая страница:7
Аннотация:The field of superconducting electronics is perspective for development of high performance and energy-efficient devices, including supercomputers, data-centers, neuromorphic and quantum technologies [1]. At the same time, miniaturization and increasing of performance of the schemes require novel base elements [2]. Also there is a lack of energy-efficient logic and memory elements, as well as tunable linear units. The hybrid S-F-N multilayer structures including superconductor, ferromagnetic and normal metal layers have a potential to become effective basic elements for this purposes. The interplay between superconductivity and ferromagnetism permits to use effects like 0-π transition [3], φ-junction self-biasing [4] or appearance superconducting phase domains [5] for design of the structures.The work was supported by the Russian Science Foundation (Project No. 22-79-10018).Bibliography[1] Soloviev, I. I., Klenov, N. V., Bakurskiy, S. V., Kupriyanov, M. Y., Gudkov, A. L., & Sidorenko, A. S. (2017). Beyond Moore’s technologies: operation principles of a superconductor alternative. Beilstein journal of nanotechnology, 8(1), 2689-2710.[2] Soloviev, I. I., Bakurskiy, S. V., Ruzhickiy, V. I., Klenov, N. V., Kupriyanov, M. Y., Golubov, A. A., ... & Stolyarov, V. S. (2021). Miniaturization of Josephson junctions for digital superconducting circuits. Physical review applied, 16(4), 044060.[3] Ryazanov, V. V., Oboznov, V. A., Rusanov, A. Y., Veretennikov, A. V., Golubov, A. A., & Aarts, J. (2001). Coupling of two superconductors through a ferromagnet: Evidence for a π junction. Physical review letters, 86(11), 2427.[4] Soloviev, I. I., Ruzhickiy, V. I., Bakurskiy, S. V., Klenov, N. V., Kupriyanov, M. Y., Golubov, A. A., ... & Stolyarov, V. S. (2021). Superconducting circuits without inductors based on bistable Josephson junctions. Physical review applied, 16(1), 014052.[5] Bakurskiy, S. V., Klenov, N. V., Soloviev, I. I., Kupriyanov, M. Y., & Golubov, A. A. (2016). Superconducting phase domains for memory applications. Applied physics letters, 108(4), 042602.