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Controlling the anisotropy of a van der Waals antiferromagnet with light

Dmytro Afanasiev, Jorrit R. Hortensius, Mattias Matthiesen, Samuel Mañas-Valero, Makars Šiškins, Martin Lee, Edouard Lesne, Herre S. J. van der Zant, Peter G. Steeneken, Boris A. Ivanov, Eugenio Coronado, Andrea D. Caviglia

2021Science Advances127 citationsDOIOpen Access PDF

Abstract

Tuning the photon energy in resonance with an orbital transition between crystal field split levels of the nickel ions, we demonstrate the selective activation of a subterahertz magnon mode with markedly two-dimensional behavior. The pump polarization control of the magnon amplitude confirms that the activation is governed by the photoinduced magnetic anisotropy axis emerging in response to photoexcitation of ground state electrons to states with a lower orbital symmetry. Our results establish pumping of orbital resonances as a promising route for manipulating magnetic order in low-dimensional (anti)ferromagnets.

Topics & Concepts

Condensed matter physicsvan der Waals forceMagnonPhotoexcitationAntiferromagnetismPhysicsMagnetismAnisotropyMagnetic anisotropySpin (aerodynamics)Ground statePolaritonElectronExcited stateSpinsIsotropyMagnetic fieldMaterials sciencePhoton energyAtomic physicsSpin statesPolarization (electrochemistry)Spin polarizationMagnetizationAnisotropy energyFerromagnetismPhotonAtomic orbitalTopological Materials and Phenomena2D Materials and ApplicationsStrong Light-Matter Interactions
Controlling the anisotropy of a van der Waals antiferromagnet with light | Litcius