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Magnetism of Fe on W(001) and the effects of oxygen adsorption
Ruqian Wu
*
, A. J. Freeman
*
Corresponding author for this work
Physics and Astronomy
Research output
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Article
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peer-review
16
Scopus citations
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Chemistry
Adsorption
100%
Atom
25%
Atomic Force Microscopy
25%
Augmented Plane Wave Method
25%
Density
25%
Dioxygen
100%
Electronic Property
25%
Ferromagnetism
50%
Ground State
25%
Hyperfine Interaction
25%
Magnetic Moment
50%
Magnetic Property
25%
Magnetism
100%
Monolayer
100%
Potential
25%
Structure
50%
Surface
25%
Thickness
25%
Vacuum
25%
Earth and Planetary Sciences
Adsorption
100%
Atom
25%
Atomic Structure
25%
Coupling
25%
Distance
25%
Ferromagnetism
50%
Ground State
25%
Magnetic Moment
50%
Magnetic Property
25%
Magnetism
100%
Metastable State
25%
Oxygen
100%
Plane Wave
25%
Sensitivity
25%
Spin
25%
Substrate
25%
Thickness
25%
Vacuum
25%
INIS
adsorption
100%
afm
11%
atoms
11%
bcc lattices
22%
coupling
11%
density
11%
ferromagnetism
22%
ground states
11%
interactions
11%
interatomic distances
11%
layers
100%
magnetic moments
22%
magnetic properties
11%
magnetism
100%
metastable states
11%
oxygen
100%
reduction
11%
sensitivity
11%
spin
11%
substrates
11%
surfaces
11%
thickness
11%
wave propagation
11%
Physics
Adsorption
100%
Atomic Structure
25%
Atoms
25%
Distance
25%
Ground State
25%
Magnetic Moment
50%
Magnetic Properties
25%
Magnetism
100%
Oxygen
100%
Plane Wave
25%
Region
25%
Spin
25%
Substrates
25%
Vacuum
25%
Material Science
Atomic Structure
25%
Density
25%
Electronic Property
25%
Magnetic Property
25%
Magnetism
100%
Monolayers
100%
Surface
25%
Pharmacology, Toxicology and Pharmaceutical Science
Adsorption
100%
Oxygen
100%