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Optical control of spin waves in hybrid magnonic-plasmonic structures

Николай Кузнецов, Huajun Qin, Lukáš Flajšman, Sebastiaan van Dijken

2025Science Advances10 citationsDOIOpen Access PDF

Abstract

Magnonics, which harnesses the unique properties of spin waves, offers promising advancements in data processing due to its broad frequency range, nonlinear dynamics, and scalability for on-chip integration. Effective information encoding in magnonic systems requires precise spatial and temporal control of spin waves. Here, we demonstrate the rapid optical control of spin-wave transport in hybrid magnonic-plasmonic structures. By using thermoplasmonic heating in yttrium iron garnet films integrated with gold nanodisk arrays, we achieve a suppression of spin-wave signals by 20 dB using single laser pulses lasting just a few hundred nanoseconds. Our results reveal a strong correlation between plasmonic light absorption and spin-wave manipulation, as supported by micromagnetic simulations that emphasize the crucial role of magnonic refraction. This study establishes thermoplasmonics as a powerful tool for controlling spin-wave propagation, bridging the fields of magnonics and plasmonics, and paving the way for the development of multifunctional hybrid magnonic devices.

Topics & Concepts

MagnonicsSpin wavePlasmonYttrium iron garnetOptoelectronicsOpticsPhysicsMaterials scienceSpin polarizationFerromagnetismSpin Hall effectCondensed matter physicsQuantum mechanicsElectronMagnetic properties of thin filmsMagneto-Optical Properties and ApplicationsNeural Networks and Reservoir Computing
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