Institute of Theoretical and Computational Physics (5150)

  • 8010

    Petersgasse 16 Graz

    Austria

Fingerprint Dive into the research topics where Institute of Theoretical and Computational Physics (5150) is active. These topic labels come from the works of this organisation's members. Together they form a unique fingerprint.

Physics & Astronomy

General

impurities
insulators
baths
Green's functions
entropy
energy
electronics
simulation
many body problem
formalism
density functional theory
phase diagrams
interactions
products
two dimensional models
Ising model
conductivity
profiles
fusion
predictions
scaling
ladders
metals
probes
screening
subtraction
energy dissipation
detectors
inversions
evaluation
projectors
entropy (statistics)
continuums
Fermi surfaces
operators
renormalization group methods
projection
domain wall
electric fields
forks
magnetization
augmentation
solid state physics
distribution functions
quasi-steady states
lobes
geometry
thermodynamics
Seebeck effect

Physics

fermions
ground state
electric potential
electrons
orbitals
physics
ion beams
temperature
bosons
wave functions
electron energy
photoelectric emission
transport properties
photoelectrons
dynamic characteristics
momentum
high temperature superconductors
stellarators
polarons
valence

Engineering

Kondo effect
maximum entropy method
excitation
superconductivity
ionization
solar cells
pumps
quantum dots
single electron transistors
field effect transistors
quantum wires
ion scattering
transistors

Mathematical and Computer Sciences

Bayes theorem
approximation
Monte Carlo method
perturbation theory
matrices
broken symmetry
eigenvalues
iteration

Chemistry and Materials

iron
heavy fermion systems
molecules
Group 5A compounds
cuprates
manganese
metallic hydrogen

Aerospace Sciences

magnetic fields
spectroscopy

Social and Information Sciences

scaling laws

Engineering & Materials Science

Hubbard model
Fermions
Ground state
Impurities
Entropy
Electrons
Density functional theory
Hamiltonians
Mean field theory
Band structure
Green's function
Superconductivity
Optical conductivity
Phase diagrams
Deconvolution
Spectroscopy
Plasmas
Ion beams
Temperature
Momentum
Electron energy loss spectroscopy
Experiments
Magnetization
Photoemission
Phase transitions
Monte Carlo methods
Coulomb interactions
Current voltage characteristics
Semiconductor materials
Single electron transistors
Iron
Wave functions
Discrete Fourier transforms
Maximum entropy methods
Atoms
Bias voltage
Ising model
Transfer functions
Molecules
Conduction bands
Metals
Detectors
Thin films
Hydrodynamics
Local density approximation
Distribution functions
Ladders
Hydrogen
Statistics
Scattering
Excitation energy
Solid state physics
Atomic beams
Semiconductor quantum dots
Optical lattices
Magnetic moments
Metal halides
Quantum Hall effect
Antiferromagnetism
Substrates
Transport properties
Ions
Charge density waves
Polarons
Bosons
Screening
Impact ionization
Computational efficiency
Crystal structure
Electron tunneling
Materials testing
Pressure control
Annealing
Seebeck coefficient
Copper oxides
High temperature superconductors
Pigments
Logic circuits
Domain walls
Exchange interactions
Thermoelectric power
Doping (additives)
Fourier transforms
Transistors
Beam plasma interactions
Orbits
Steel structures
Perovskite
Valence bands
Covariance matrix
Fusion reactions
Autocorrelation
Kinetic energy
Thermodynamics
Parameter estimation
Nanocrystals
Crystal lattices
Manganese
Isotopes
Lead

Chemical Compounds

Hubbard model
Fermions
Ground state
Impurities
Density functional theory
Entropy
Electrons
Mean field theory
Band structure
Green's function
Spectroscopy
Optical conductivity
Phase diagrams
Hamiltonians
Superconductivity
Electron energy loss spectroscopy
Magnetization
Photoemission
Phase transitions
Monte Carlo methods
Metals
Momentum
Molecules
Iron
Temperature
Coulomb interactions
Experiments
Scattering
Current voltage characteristics
Semiconductor materials
Single electron transistors
Wave functions
Screening
Hydrogen
Discrete Fourier transforms
Bias voltage
Ising model
Conduction bands
Decomposition
Hydrodynamics
Local density approximation
Maximum entropy methods
Ladders
Ions
Excitation energy
Semiconductor quantum dots
Optical lattices
Magnetic moments
Metal halides
Quantum Hall effect
Antiferromagnetism
Substrates
Transport properties
Charge density waves
Thin films
Polarons
Atoms
Bosons
Impact ionization
Carbon Nanotubes
Crystal structure
Electron tunneling
Pressure control
Seebeck coefficient
Graphite
Copper oxides
High temperature superconductors
Pigments
Logic circuits
Domain walls
Exchange interactions
Thermoelectric power
Doping (additives)
Transistors
Orbits
Deconvolution
Carbon Monoxide
Manganese
Crystallization
Valence bands
Covariance matrix
Benzene
Gases
Autocorrelation
Kinetic energy
Isotopes
Thermodynamics
Nanocrystals
Crystal lattices
Distribution functions
Metal ions
Surface treatment
Adsorption
X ray diffraction
Vanadium
Melting
Semiconducting organic compounds
Physics
Optical properties
Tuning