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Chiral phenomena in magnetic multilayers
Etienne van Walsem
Dept of Physics
Instituut Theoretische Fysica
Research output
:
Thesis
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Doctoral thesis 1 (Research UU / Graduation UU)
Overview
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Keyphrases
Skyrmion
100%
Magnetic multilayers
100%
Moriya Interaction
66%
Monte Carlo Simulation
50%
Magnetic Texture
50%
Synthetic Antiferromagnets
50%
Skyrmion Lattice
33%
Lattice Structure
33%
Thin Magnetic Films
33%
Lattice Configuration
33%
Interlayer Coupling
33%
Local Inversion
33%
Spin Spiral
33%
Technology-based
16%
Spectrometer
16%
Excited States
16%
Spin Waves
16%
Tunability
16%
Strongly Coupled
16%
Collective Modes
16%
Wave Propagation
16%
Ferromagnetic Resonance
16%
Multilayer System
16%
Inversion Symmetry
16%
Transition-based
16%
Beneficial Properties
16%
Antiferromagnetic Coupling
16%
Magnetic Layer
16%
Dzyaloshinskii-Moriya Interaction
16%
Hexagonal Lattice
16%
Dual Lattice
16%
Skyrmion Crystal
16%
Thin Magnetic Layers
16%
Inversion Symmetry Breaking
16%
Van Der Waals Crystals
16%
Principle of Least Action
16%
Odd-even Effect
16%
Heisenberg Spin Model
16%
Magnus Effect
16%
Magnetic Spirals
16%
Material Science
Crystal Structure
100%
Magnetic Thin Films
100%
Magnetic Multilayers
100%
Physics
Magnetism
100%
Monte Carlo Method
37%
Magnetic Thin Films
25%
Crystal Structure
25%
Spectrometer
12%
Magnon
12%
Wave Propagation
12%
Broken Symmetry
12%
Excitation
12%
Ferromagnetic Resonance
12%
Magnus Effect
12%
Ground State
12%