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Article Dans Une Revue Science Advances Année : 2023

Simultaneous multitone microwave emission by dc-driven spintronic nano-element

Résumé

Current-induced self-sustained magnetization oscillations in spin-torque nano-oscillators (STNOs) are promising candidates for ultra-agile microwave sources or detectors. While usually STNOs behave as a monochromatic source, we report here clear bimodal simultaneous emission of incommensurate microwave oscillations in the frequency range of 6 to 10 gigahertz at femtowatt level power. These two tones correspond to two parametrically coupled eigenmodes with tunable splitting. The emission range is crucially sensitive to the change in hybridization of the eigenmodes of free and fixed layers, for instance, through a slight tilt of the applied magnetic field from the normal of the nanopillar. Our experimental findings are supported both analytically and by micromagnetic simulations, which ascribe the process to four-magnon scattering between a pair of radially symmetric magnon modes and a pair of magnon modes with opposite azimuthal index. Our findings pave the way for enhanced cognitive telecommunications and neuromorphic systems that use frequency multiplexing to improve communication performance.

Dates et versions

cea-04485658 , version 1 (01-03-2024)

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Citer

Alexandre Abbass Hamadeh, Denys Slobodianiuk, Rayan Moukhader, Gennadiy Melkov, Vladyslav Borynskyi, et al.. Simultaneous multitone microwave emission by dc-driven spintronic nano-element. Science Advances , 2023, 9 (50), ⟨10.1126/sciadv.adk1430⟩. ⟨cea-04485658⟩
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