Faculty of Mathematics, Physics and Geodesy (5000)

Chemical Compounds

• Helium
• Thin films
• Molecules
• Metals
• Atoms
• Density functional theory
• Temperature
• Electrons
• Substrates
• Nanoparticles
• Charge transfer
• Electron energy loss spectroscopy
• Hubbard model
• Transmission electron microscopy
• Oxides
• Spectroscopy
• Polymers
• Lasers
• Carbon
• Electrodes
• Experiments
• Ground state
• Scattering
• Powders
• Self assembled monolayers
• Chemical vapor deposition
• Superfluid helium
• Doping (additives)
• Polymorphism
• Gravitation
• Gold
• Oxygen
• Adsorption
• Ions
• X ray diffraction
• Graphite
• Monolayers
• Microstructure
• Crystal structure
• Fermions
• Semiconducting organic compounds
• Impurities
• Silver
• Niobium
• Electrostatics
• Crystallization
• Mechanical properties
• Materials properties
• Oxidation
• Magnetism
• Cellulose
• Scanning electron microscopy
• Vapors
• Chemical analysis
• Electron beams
• Heating
• Hydrogen
• Superconductivity
• Liquids
• Water
• Semiconductor materials
• Band structure
• Annealing
• Adsorbates
• Tuning
• Optical properties
• Heterojunctions
• Tungsten
• Rydberg states
• Hydrogel
• Crystals
• Mean field theory
• Electron energy levels
• Magnetization
• Geometry
• Iodides
• Molybdenum
• Gases
• Decomposition
• Thermodynamic properties
• Crystalline materials
• Defects
• Microscopic examination
• Phase transitions
• Electron microscopes
• Nanostructures
• Iron
• Vanadium
• Entropy
• Wavelength
• Coatings
• Vacancies
• Nanowires
• Cellulose films
• X rays
• Melting
• Zinc Oxide
• Electron microscopy
• Precipitates
• Electrolytes

Engineering & Materials Science

• Thin films
• Molecules
• Temperature
• Electrons
• Density functional theory
• Atoms
• Helium
• Substrates
• Nanoparticles
• Hubbard model
• Electron energy loss spectroscopy
• Charge transfer
• Metals
• Transmission electron microscopy
• Electrodes
• Fermions
• Experiments
• Spectroscopy
• Microstructure
• Chemical vapor deposition
• Lasers
• Polymorphism
• Impurities
• Monolayers
• Monitoring
• Heating
• Carbon
• Self assembled monolayers
• Oxygen
• Oxides
• Crystal structure
• Ground state
• X ray diffraction
• Adsorption
• Powders
• Phase transitions
• Scanning electron microscopy
• Mechanical properties
• Electron beams
• Solid oxide fuel cells (SOFC)
• Entropy
• Scattering
• Chemical analysis
• Ions
• Sensors
• Superconductivity
• Polynomials
• Thermodynamic properties
• Semiconductor materials
• Electrostatics
• Oxidation
• Semiconducting organic compounds
• Plasmas
• Polymers
• Mean field theory
• Doping (additives)
• Liquids
• Magnetism
• Materials properties
• Fusion reactions
• Gases
• Annealing
• Band structure
• Hamiltonians
• Superfluid helium
• Degradation
• Iron
• Learning systems
• X rays
• Gold
• Cellulose
• Fiber optics
• Decomposition
• Magnetization
• Optical properties
• Coatings
• Melting
• Crystalline materials
• Microscopic examination
• Kinetics
• Vapors
• Heterojunctions
• Silver
• Tungsten
• Nanostructures
• Electron microscopes
• Vacancies
• Imaging techniques
• Green's function
• Precipitates
• Hydrogels
• Defects
• Geometry
• Perovskite
• Atomic layer deposition
• Electronic properties
• Water
• Crystallization
• Photons
• Ion beams

Physics & Astronomy

Chemistry and Materials

• helium
• molecules
• adsorption
• oxides
• liquids
• gold
• iron
• lanthanum
• atomic layer epitaxy
• niobium
• silver
• sodium
• oxygen
• hydrogen
• tantalum
• carbon
• oxidation

General

• electronics
• density functional theory
• thin films
• impurities
• interactions
• metals
• energy
• simulation
• insulators
• hyperfine structure
• conductivity
• organic semiconductors
• lasers
• charge transfer
• baths
• energy dissipation
• Green's functions
• entropy
• transmission electron microscopy
• defects
• parity
• evaluation
• predictions
• products
• Stark effect
• geometry
• probes
• thermophysical properties
• formalism
• electric fields
• surface reactions
• fusion
• shift
• phase diagrams
• machine learning
• alignment
• crystals
• scaling
• steels

Physics

• atoms
• temperature
• electrons
• nanoparticles
• helium atoms
• ground state
• electric potential
• fermions
• orbitals
• energy levels
• diffraction
• atomic beams
• electron energy
• laser induced fluorescence
• positrons
• line spectra
• physics
• photoelectric emission
• transport properties
• optical properties
• wave functions
• ion beams

Aerospace Sciences

• spectroscopy
• gravitation
• orbits
• magnetic fields
• coronal mass ejection

Engineering

• excitation
• x rays
• ionization
• scattering
• superconductivity
• electrodes
• pulse heating
• Kondo effect
• photoexcitation
• solar cells
• transistors
• electrostatics
• maximum entropy method

Mathematical and Computer Sciences

• perturbation theory
• approximation
• matrices
• Bayes theorem