Establishing the Fundamental Magnetic Interactions in the Chiral Skyrmionic Mott Insulator Cu2OSeO3 by Terahertz Electron Spin Resonance

Establishing the Fundamental Magnetic Interactions in the Chiral Skyrmionic Mott Insulator Cu2OSeO3 by Terahertz Electron Spin Resonance

The recent discovery of Skyrmions in Cu2OSeO3 has established a new platform to create and manipulate Skyrmionic spin textures. We use high-field electron spin resonance with a terahertz free-electron laser and pulsed magnetic fields up to 64 T to probe and quantify its microscopic spin-spin interac...

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Veröffentlicht in:Physical review letters 2014-10, Vol.113 (15)
Hauptverfasser: Ozerov, M, Romhanyi, J, Belesi, M, Berger, H, Ansermet, J-Ph, van den Brink, Jeroen, Wosnitza, J, Zvyagin, S A, Rousochatzakis, I
Format: Artikel
Sprache:eng
Schlagworte:
Electron paramagnetic resonance
Electron spin resonance
Free electron lasers
Insulators
Magnetic fields
Particle theory
Surface layer
Texture
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Zusammenfassung:The recent discovery of Skyrmions in Cu2OSeO3 has established a new platform to create and manipulate Skyrmionic spin textures. We use high-field electron spin resonance with a terahertz free-electron laser and pulsed magnetic fields up to 64 T to probe and quantify its microscopic spin-spin interactions. In addition to the previously observed long-wavelength Goldstone mode, this technique probes also the high-energy part of the excitation spectrum which is inaccessible by standard low-frequency electron spin resonance. Fitting the behavior of the observed modes in magnetic field to a theoretical framework establishes experimentally that the fundamental magnetic building blocks of this Skyrmionic magnet are rigid, highly entangled and weakly coupled tetrahedra.
ISSN:0031-9007
1079-7114
DOI:10.1103/PhysRevLett.113.157205