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Spin–orbit coupling and geometric phases at oxide interfaces
Dirk Groenendijk
QN/Caviglia Lab
Research output
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Dissertation (TU Delft)
381
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Dive into the research topics of 'Spin–orbit coupling and geometric phases at oxide interfaces'. Together they form a unique fingerprint.
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INIS
coupling
100%
geometry
100%
oxides
100%
films
100%
interfaces
100%
layers
100%
transport
75%
growth
75%
thin films
75%
magnetic fields
50%
strontium
50%
thickness
50%
transition metals
50%
spin
50%
epitaxy
50%
crystals
50%
resonators
50%
electrons
25%
surfaces
25%
charge transport
25%
air
25%
symmetry
25%
physical properties
25%
rotation
25%
substrates
25%
magnetoresistance
25%
encapsulation
25%
lasers
25%
units
25%
thermodynamics
25%
spin orientation
25%
information
25%
magnetic properties
25%
fluctuations
25%
temperature dependence
25%
dispersion relations
25%
correlations
25%
holes
25%
stoichiometry
25%
phase transformations
25%
stability
25%
buffers
25%
berries
25%
engineering
25%
strains
25%
electric fields
25%
deposition
25%
Material Science
Oxide Interface
100%
Resonator
50%
Strontium
50%
Electronics
50%
Temperature
50%
Transition Metal Oxide
50%
Heterojunction
50%
Mechanical Strength
25%
Physical Property
25%
Magnetic Property
25%
Air
25%
Magnetoresistance
25%
Ultrathin Films
25%
Thermoelectrics
25%
Electronic Property
25%
Surface
25%
Pulsed Laser Deposition
25%
Buffer Layer
25%
Conductivity
25%