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Nonlocal Stimulation of Three-Magnon Splitting in a Magnetic Vortex

Lukas Körber, Katrin Schultheiß, Tobias Hula, Roman Verba, J. Faßbender, Attila Kákay, Helmut Schultheiß

2020Physical Review Letters50 citationsDOIOpen Access PDF

Abstract

We present a combined numerical, theoretical, and experimental study on stimulated three-magnon splitting in a magnetic disk in the vortex state. Our micromagnetic simulations and Brillouin-light-scattering results confirm that three-magnon splitting can be triggered even below threshold by exciting one of the secondary modes by magnons propagating in a waveguide next to the disk. The experiments show that stimulation is possible over an extended range of excitation powers and a wide range of frequencies around the eigenfrequencies of the secondary modes. Rate-equation calculations predict an instantaneous response to stimulation and the possibility to prematurely trigger three-magnon splitting even above threshold in a sustainable manner. These predictions are confirmed experimentally using time-resolved Brillouin-light-scattering measurements and are in a good qualitative agreement with the theoretical results. We believe that the controllable mechanism of stimulated three-magnon splitting could provide a possibility to utilize magnon-based nonlinear networks as hardware for neuromorphic computing.

Topics & Concepts

MagnonPhysicsBrillouin zoneCondensed matter physicsSpin waveScatteringVortexBrillouin scatteringOpticsFerromagnetismLaserMechanicsNeural Networks and Reservoir ComputingMagnetic properties of thin filmsMagneto-Optical Properties and Applications