Fingerprint The fingerprint is based on mining the text of the research documents related to the associated persons. Based on that an index of weighted terms is created, which defines the key subjects of research unit.
- Sort by
- Weight
- Alphabetically
Physics & Astronomy
General
impurities
electronics
energy
insulators
density functional theory
interactions
simulation
baths
thin films
entropy
Green's functions
metals
Stark effect
formalism
conductivity
thermophysical properties
many body problem
lasers
energy dissipation
transmission electron microscopy
electric fields
surface reactions
phase diagrams
predictions
shift
products
scaling
hyperfine structure
geometry
profiles
emissivity
probes
evaluation
quantum numbers
two dimensional models
Ising model
defects
Encke method
fusion
charge transfer
expansion
screening
gravimetry
Chemistry and Materials
molecules
helium
gold
liquids
alkalies
tantalum
adsorption
wire
lanthanum
iron
hydrogen
platinum
polymers
Aerospace Sciences
spectroscopy
magnetic fields
orbits
Physics
atoms
ground state
electric potential
electrons
temperature
fermions
orbitals
helium atoms
atomic beams
electron energy
ion beams
physics
photoelectric emission
optical properties
laser induced fluorescence
transport properties
laser beams
wave functions
nanoparticles
valence
specific heat
bosons
magnetic resonance
momentum
Engineering
excitation
Kondo effect
pulse heating
ionization
electrodes
maximum entropy method
field effect transistors
scattering
x rays
solar cells
superconductivity
electrical resistivity
Mathematical and Computer Sciences
perturbation theory
Bayes theorem
approximation
Monte Carlo method
matrices
Chemical Compounds
Helium
Molecules
Density functional theory
Hubbard model
Atoms
Thin films
Metals
Temperature
Polymers
Electron energy loss spectroscopy
Electrons
Substrates
Ground state
Transmission electron microscopy
Spectroscopy
Fermions
Polymorphism
Superfluid helium
Charge transfer
Graphite
Self assembled monolayers
Chemical vapor deposition
Nanoparticles
Experiments
Electrodes
Scattering
Ions
Carbon Nanotubes
Impurities
Hydrogen
Entropy
Adsorption
Liquids
Monolayers
Oxides
Phase transitions
Doping (additives)
Platinum
Heating
Semiconductor materials
Thermodynamic properties
Lanthanum
Gold
Carbon
Band structure
Optical properties
Mean field theory
Nanowires
Magnetism
Decomposition
Lattice vibrations
Vapors
Tuning
Optical conductivity
Rydberg states
Phase diagrams
Geometry
Lasers
Hamiltonians
Intermetallics
Oxygen
Electron microscopes
Wave functions
Rubidium
Electrostatics
Electronic properties
Quantum confinement
Adsorbates
Hydrogel
Silver
Momentum
Green's function
Silicon
Gases
Chemical analysis
X ray diffraction
Photoemission
Annealing
Strontium
Photons
Stark effect
Magnetic fields
Wire
Coulomb interactions
Electronic structure
Oxidation
Materials properties
Melting
Propane
Magnetization
Magnetic properties
Screening
Vacancies
Hydrogels
Transport properties
Nickel
Monte Carlo methods
Protons
Boron
Dimers
Engineering & Materials Science
Hubbard model
Thin films
Molecules
Density functional theory
Atoms
Fermions
Helium
Temperature
Electron energy loss spectroscopy
Electrons
Ground state
Substrates
Charge transfer
Transmission electron microscopy
Experiments
Impurities
Thermodynamic properties
Chemical vapor deposition
Self assembled monolayers
Spectroscopy
Entropy
Polymorphism
Heating
Metals
Electrodes
Polymers
Hamiltonians
Liquids
Scattering
Semiconductor materials
Nanoparticles
Phase transitions
Band structure
Adsorption
Mean field theory
Superfluid helium
Plasmas
Optical properties
Lattice vibrations
Geometry
Optical conductivity
Monolayers
Phase diagrams
Supply chains
Momentum
Magnetism
Deconvolution
Doping (additives)
Photons
Ion beams
Hydrogels
Electron microscopes
Ions
Melting
Orbits
Carbon
Electronic properties
Oxygen
Structural properties
Microstructure
Gases
Green's function
Iron
Electrostatics
Photoemission
X ray diffraction
Oxides
Discrete Fourier transforms
Stark effect
Annealing
Wave functions
Carbon nanotubes
Decomposition
X rays
Vacancies
Transport properties
Gas fuel analysis
Monte Carlo methods
Superconductivity
Platinum
Strontium
Partial differential equations
Materials properties
Vapors
Coulomb interactions
Metamaterials
Lithium
Imaging techniques
Magnetometers
Crystal structure
Polymer films
Lanthanum
Scanning tunneling microscopy
Specific heat
Ionic conductivity
Chemical analysis
Current voltage characteristics
Semiconducting organic compounds
Single electron transistors
Hydrogen