Solitary deflection waves on the supersonic domain wall in yttrium orthoferrite

The moving antiferromagnetic vortices are accompanied by solitary deflection waves. These waves allow to investigate generation and nonlinear dynamics of the antiferromagnetic vortices on the moving domain wall with the help of the two- and three-fold digital high speed photography. On the quasi-rel...

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Bibliographic Details
Published in:Journal of magnetism and magnetic materials 2012-10, Vol.324 (21), p.3576-3578
Main Authors: Chetkin, M.V., Kurbatova, Yu.N., Shapaeva, T.B.
Format: Article
Language:English
Subjects:
Antiferromagnetic vortex
Antiferromagnetism
Constraining
Deflection
Domain walls
Dynamics
Fluid flow
Gyroscopic dynamics
Gyroscopic force
Nonlinear dynamics
Solitary deflection wave
Vortices
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Summary:The moving antiferromagnetic vortices are accompanied by solitary deflection waves. These waves allow to investigate generation and nonlinear dynamics of the antiferromagnetic vortices on the moving domain wall with the help of the two- and three-fold digital high speed photography. On the quasi-relativistic domain wall the vortex dynamics is quasi-relativistic with the limiting velocity c=20km/s, which is equal to the spin-wave velocity. The solitary deflection waves dynamics can be explained assuming existence of the gyroscopic force. A theory for the gyroscopic force in the orthoferrite domain wall is elaborating by A.K. Zvezdin et al. currently. We present a comparison of the theoretical and experimental results on the dynamics of the solitary deflection waves, which accompany the antiferromagnetic vortices in the domain wall of orthoferrites.
ISSN:0304-8853
DOI:10.1016/j.jmmm.2012.02.094