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Mechanism of vortex switching in magnetic nanodots under a circular magnetic field. I. Resonance action of the field on the nanodot eigenmodes
A.S. Kovalev,
J.E. Prilepsky
Aston Institute of Photonic Technologies (AiPT)
Research output
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Contribution to journal
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Article
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peer-review
7
Citations (Scopus)
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Dive into the research topics of 'Mechanism of vortex switching in magnetic nanodots under a circular magnetic field. I. Resonance action of the field on the nanodot eigenmodes'. Together they form a unique fingerprint.
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Keyphrases
Eigenmodes
100%
Magnetic Nanodots
100%
Circular Magnetic Field
100%
Vortex Switching
100%
Nanodots
100%
Magnetization
66%
Azimuthal Modes
66%
Two Dimensional
33%
Finite Size
33%
Eigenfrequency
33%
Vortex
33%
Parametric Resonance
33%
External Field
33%
Circular Field
33%
Easy-plane Ferromagnet
33%
Easy-plane Anisotropy
33%
Resonant Activation
33%
Sum-frequency
33%
Hard Axis
33%
Engineering
Magnetic Field
100%
Eigenmode
100%
Vortex
100%
Azimuthal
100%
Nanodots
100%
Numerical Study
20%
Two Dimensional
20%
Eigenfrequencies
20%
Parametric Resonance
20%
Ferromagnet
20%
External Field
20%
Circular Field
20%
Plane Anisotropy
20%
Physics
Magnetic Field
100%
Quantum Dot
100%
Anisotropy
33%
Material Science
Vortex
100%
Nanodots
100%
Anisotropy
33%