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Relativistic spin polarization and magnetization: Knight shift of Pt(001)
M. Weinert
*
, A. J. Freeman
*
Corresponding author for this work
Physics and Astronomy
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peer-review
57
Scopus citations
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Keyphrases
Spin Polarization
100%
Spin Magnetization
100%
Knight Shift
100%
Relativistic Spin
100%
Core-polarization Effects
100%
Relativistic Electronic Structure
50%
Electronic Structure Methods
50%
Local Density
50%
Density Functional Theory
50%
Scalar
50%
Surface Layer
50%
Positive Valence
50%
Hyperfine Interactions
50%
Magnetization
50%
Valence Electrons
50%
Density-based Approach
50%
Magnetization Density
50%
NMR Experiments
50%
Relativistic Effects
50%
Pt Particles
50%
Fermi Contact
50%
Uniform Electron Gas
50%
Magnetic Effect
50%
Physics
Spin Polarization
100%
Nuclear Magnetic Resonance
100%
Volume
100%
Surface Layers
50%
Magnetic Effect
50%
Nuclear Magnetic Resonance
50%
Energy Levels
50%
Relativistic Effect
50%
Electron Gas
50%
Density Functional Theory
50%
Chemistry
Spin Polarization
100%
Volume
100%
Density Functional Theory
50%
Electronic State
50%
Hyperfine Interaction
50%
NMR Spectroscopy
50%
Electron Gas
50%