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Resonant dynamics of three-dimensional skyrmionic textures in thin film multilayers

Titiksha Srivastava, Yanis Sassi, Fernando Ajejas, Aymeric Vecchiola, Igor Ngouagnia Yemeli, H. Hurdequint, K. Bouzéhouane, Nicolas Reyren, Vincent Cros, T. Devolder, Joo-Von Kim, G. de Loubens

2023APL Materials17 citationsDOIOpen Access PDF

Abstract

Skyrmions are topological magnetic solitons that exhibit a rich variety of dynamics, such as breathing and gyration, which can involve collective behavior in arrangements like skyrmion lattices. However, such localized excitations typically lie in the gap of the spin wave spectrum and do not couple to propagating modes. By combining magnetic force microscopy, broadband ferromagnetic resonance, and micromagnetics simulations, we show that in thin-film multilayers of [Pt/FeCoB/AlOx]20 a high-frequency (>12 GHz) mode accompanies the skyrmion lattice phase, which involves the coherent precession of the skyrmion cores that results in the generation of 50–80 nm wavelength spin waves flowing into the uniformly magnetized background. This observation is made possible by a Gilbert damping constant of ∼0.02, which is nearly an order of magnitude lower than in similar ultrathin materials. The simulations also reveal a complex three-dimensional spin structure of the skyrmion cores, which plays a key role for spin wave generation.

Topics & Concepts

SkyrmionCondensed matter physicsSpin waveMicromagneticsThin filmFerromagnetismPhysicsMagnetization dynamicsMaterials scienceGyrationSpin (aerodynamics)Magnetic fieldMagnetizationQuantum mechanicsGeometryThermodynamicsMathematicsMagnetic properties of thin filmsMagnetic Properties and ApplicationsTheoretical and Computational Physics
Resonant dynamics of three-dimensional skyrmionic textures in thin film multilayers | Litcius