Interfaces and Correlated Electron Systems

Fingerprint Dive into the research topics where Interfaces and Correlated Electron Systems is active. These topic labels come from the works of this organisation's members. Together they form a unique fingerprint.

Physics & Astronomy

General

insulators
Josephson junctions
vortices
electronics
thin films
proximity
Josephson effect
metals
conduction
theses
conductivity
interference
electron gas
magnetization
energy
impurities
microwaves
buffers
quantum computation
vortex generators
Green's functions
microscopy
phase control
crystals
Zeeman effect
single crystals
cells
defects
discontinuity
frustration
magnetic force microscopy
magnetostatics
quantum counters
magnets
interactions
magnetometers

Engineering

superconductivity
critical current
nanowires
scanning
interlayers
tuning
signatures
ferromagnetism
charge carriers
scattering
electrodes
manipulators
conduction bands
fabrication
electrical resistivity
pulsed laser deposition
lithography
x rays

Chemistry and Materials

oxides
metalloids
high pressure oxygen
condensates
cuprates
liquids

Aerospace Sciences

magnetic fields
spectroscopy
F region

Mathematical and Computer Sciences

symmetry
quantum computers

Physics

electric potential
ballistics
flakes
magnons
fermions
critical temperature
temperature
magnetic flux
oscillations
electrons
spin-orbit interactions
transition temperature
momentum
photoelectric emission
physics
ferromagnetic resonance
impedance

Life Sciences

disorders

Chemical Compounds

Superconducting materials
Superconductivity
Surface states
Oxides
Magnetic fields
Two dimensional electron gas
Vortex flow
Thin films
Critical currents
Heterojunctions
Spectroscopy
SQUIDs
Galvanomagnetic effects
Temperature
Metals
Transparency
Quantum computers
Fermi level
Metalloids
Fermions
Magnetization
Nanowires
Magnetoresistance
X rays
Scattering
Electrons
Magnetoelectronics
Substrates
Green's function
Electric potential
Molecular beam epitaxy
Ballistics
F region
Spin waves
Impurities
Magnetostatics
Ground state
Valence bands
Pulsed laser deposition
Magnetism
Observability
Photoelectron spectroscopy
Scanning
Microwaves
Charge transfer
Magnetic moments
Defect density
Fabrication
Lithography
strontium titanium oxide
Oxygen
Experiments
Ferromagnetic materials
Electronic states
Momentum
Carrier concentration
Energy gap
Tuning
Diffraction
Surface analysis
Electronic properties
Orbits
Microwave irradiation
Crystalline materials
Current voltage characteristics
Geometry

Engineering & Materials Science

Superconducting materials
Superconductivity
Surface states
Magnetic fields
SQUIDs
Thin films
Critical currents
Heterojunctions
Two dimensional electron gas
Spectroscopy
Quantum computers
Oxides
Galvanomagnetic effects
Vortex flow
Magnetization
Transparency
Temperature
Fermi level
Metalloids
Fermions
Nanowires
Magnetoresistance
X rays
Scattering
Electrons
Magnetoelectronics
Substrates
Magnetism
Green's function
Electric potential
Molecular beam epitaxy
Ballistics
Scanning
F region
Spin waves
Impurities
Superconducting transition temperature
Valence bands
Magnetostatics
Microwaves
Ground state
Metals
Pulsed laser deposition
Observability
Current voltage characteristics
Photoelectron spectroscopy
Charge transfer
Magnetic moments
Microscopic examination
Defect density
Fabrication
Lithography
Ferromagnetic materials
Energy gap
Electronic states
Experiments
Momentum
Geometry
Carrier concentration
Diffraction
Surface analysis
Orbits
Oxygen
Magnetic flux
Microwave irradiation
Crystalline materials
Tuning