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

Physics & Astronomy

Engineering

graphene
carbon nanotubes
excitation
x rays
quantum dots
lightning
interlayers
nanotubes
electrical resistivity
magnetic properties
ferromagnetism
high resolution
superconductivity
annealing
scattering
energy bands

Physics

photoelectric emission
temperature
electrons
polarization
photons
fermions
nuclear magnetic resonance
valence
quarks
optical properties
plasmons
momentum
transport properties
oscillations
room temperature
protons
absorption spectra
bosons
modulation
physics
wave functions
excitons
leptons
atoms
transverse momentum
mesons
quantum wells
muons
specific heat
ground state
orbitals
photoluminescence

General

electronics
electronic structure
decay
energy
electric fields
collisions
interactions
thin films
insulators
detectors
scalars
asymmetry
bells
quantum chromodynamics
Fermi surfaces
ribbons
lasers
metals
magnetization
anisotropy
Seebeck effect
probes
cross sections
transition metals
augmentation
strip
shift
configurations
liquid crystals
partitions
anomalies
interference
single crystals
pulses
cones
curvature
optical spectrum
simulation
predictions
apexes
substitutes

Aerospace Sciences

spectroscopy
magnetic fields
gravitation
dark matter
orbits
absorption spectroscopy

Chemistry and Materials

metalloids
graphite
carbon

Mathematical and Computer Sciences

symmetry
approximation

Chemical Compounds

Graphite
Carbon Nanotubes
Electronic structure
Photoelectron spectroscopy
Electronic properties
Fermi level
Temperature
Band structure
Electrons
Magnetic fields
Electric fields
Photoemission
X rays
Energy gap
Spectroscopy
Metalloids
Magnetoelectronics
Nuclear magnetic resonance
Thin films
Fermi surface
Semiconductor quantum dots
Electron energy levels
Metals
Optical properties
Semiconductor materials
Magnetization
Valence bands
Doping (additives)
Substrates
Oxides
Superconducting materials
Transport properties
Heterojunctions
Core levels
Seebeck coefficient
Magnetic properties
Superconductivity
Orbits
Phase transitions
Surface states
Magnetism
Monolayers
Lightning
Specific heat
Photons
Transition metals
Fermions
Atoms
Ferroelectric materials
Charge density waves
Dispersions
Ions
Wave functions
Polarization
Annealing
Nanotubes
Absorption spectra
Thermal conductivity
Ferromagnetism
Metal insulator transition
Momentum
Carrier concentration
Ground state
Single crystals
Epitaxial growth
Lasers
Substitution reactions
Magnetoresistance
Multilayers
Modulation
Electronic states
Image sensors
Charge transfer
Molecular beam epitaxy
Plasmons
Spin-lattice relaxation
Scattering
Dielectric properties
Epitaxial films
Nanorods
Rydberg states
Plasmas
Magnetic anisotropy
Silicon
Defects
Buffer layers
Crystalline materials
Binding energy
Polymers
Photoluminescence
Carbon
Photoexcitation
Harmonic generation
Microwaves
Crystals
Anisotropy
Conduction bands
Semiconductor quantum wells
Spin polarization
Nanowires

Engineering & Materials Science

Graphene
Electronic structure
Photoelectron spectroscopy
Temperature
Fermi level
Electrons
Electronic properties
Band structure
Magnetic fields
Carbon nanotubes
Electric fields
X rays
Photoemission
Magnetoelectronics
Thin films
Energy gap
Nuclear magnetic resonance
Semiconductor quantum dots
Fermi surface
Optical properties
Doping (additives)
Magnetization
Substrates
Metalloids
Photons
Valence bands
Semiconductor materials
Transport properties
Heterojunctions
Superconducting materials
Core levels
Spectroscopy
Electron energy levels
Seebeck coefficient
Phase transitions
Polarization
Momentum
Superconductivity
Magnetism
Magnetic properties
Specific heat
Annealing
Monolayers
Wave functions
Nanotubes
Lasers
Surface states
Charge density waves
Molecular beam epitaxy
Absorption spectra
Metal insulator transition
Dispersions
Transition metals
Orbits
Multilayers
Oxides
Thermal conductivity
Ferromagnetism
Single crystals
Metals
Ferroelectric materials
Modulation
Epitaxial growth
Nanorods
Nanoribbons
Graphite
Atoms
Magnetoresistance
Substitution reactions
Magnetic anisotropy
Plasmas
Dielectric properties
Charge transfer
Excitons
Epitaxial films
Anisotropy
Plasmons
Semiconductor quantum wells
Spin-lattice relaxation
Fermions
Harmonic generation
Carrier concentration
Buffer layers
Photoluminescence
Crystalline materials
Ions
Microwaves
Liquid crystals
Scattering
Superconducting transition temperature
Laser modes
Thin film transistors
Crystals
Electronic states
Photoexcitation
Electric potential
Nanowires
Defects
Neutrons
X ray photoelectron spectroscopy