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Topological magneto-optical effect from skyrmion lattice

Yoshihiro D. Kato, Yoshihiro Okamura, Max Hirschberger, Yoshinori Tokura, Y. Takahashi

2023Nature Communications31 citationsDOIOpen Access PDF

Abstract

Abstract The magnetic skyrmion is a spin-swirling topological object characterized by its nontrivial winding number, holding potential for next-generation spintronic devices. While optical readout has become increasingly important towards the high integration and ultrafast operation of those devices, the optical response of skyrmions has remained elusive. Here, we show the magneto-optical Kerr effect (MOKE) induced by the skyrmion formation, i.e., topological MOKE, in Gd 2 PdSi 3 . The significantly enhanced optical rotation found in the skyrmion phase demonstrates the emergence of topological MOKE, exemplifying the light-skyrmion interaction arising from the emergent gauge field. This gauge field in momentum space causes a dramatic reconstruction of the electronic band structure, giving rise to magneto-optical activity ranging up to the sub-eV region. The present findings pave a way for photonic technology based on skyrmionics.

Topics & Concepts

SkyrmionPhysicsSpintronicsTopology (electrical circuits)Magnetic fieldCondensed matter physicsPosition and momentum spaceLattice (music)Optical latticeFerromagnetismQuantum mechanicsMathematicsAcousticsCombinatoricsSuperfluidityMagnetic properties of thin filmsPhotonic Crystals and ApplicationsMagneto-Optical Properties and Applications
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