Undergraduate

  • Japan

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.

Engineering & Materials Science

Robots
Experiments
Temperature
Detectors
Polymers
Communication
Electrons
Silica
Substrates
Fabrication
Sensors
Electrodes
Diamonds
Ions
Electric potential
Costs
Oxygen
Computer simulation
X rays
Crystals
Water
Membranes
Irradiation
Composite materials
Catalysts
Silicon
Air
Metals
Magnetic fields
Fibers
Atoms
Carbon
Bearings (structural)
Blood
Cameras
Hydrogen
Nanoparticles
Muscle
Robotics
Oxides
Molecules
Perovskite
Cables
Degradation
Bosons
Electric fields
Acids
Acoustic waves
Internet
Imaging techniques
Data storage equipment
Protons
Processing
Photons
Microfluidics
Display devices
Hardware
Liquids
Electrolytes
Networks (circuits)
Gamma rays
Derivatives
Monitoring
Thin films
Oxidation
Gases
Polarization
Proteins
Feedback
Glass
Manipulators
Nanosheets
Modulation
Plasmas
Recovery
Chemical analysis
Crystallization
Students
Photoluminescence
Planning
Dielectric properties
Field effect transistors
Low density polyethylenes
Energy utilization
Learning systems
Electric space charge
Cooling
Simulators
Doping (additives)
Crystalline materials
Lasers
Trajectories
Insulation
Finite element method
Electrodeposition
Hemoglobin
Orthogonal frequency division multiplexing
Color
Cells
Skin

Physics & Astronomy

General

detectors
collisions
energy
decay
cross sections
simulation
confidence
Tibet
rays
interactions
evaluation
predictions
calorimeters
synthesis
crystals
sensors
cells
coils
scalars
metals
thin films
lasers
scintillation counters
fibers
International Space Station
cables
equations of state
defects
preparation
pulses
radiation
electronics
pixels
vapor deposition
membranes
electronic structure
anisotropy
rings
shock

Physics

protons
quarks
leptons
transverse momentum
bosons
Higgs bosons
luminosity
electrons
muons
photons
center of mass
pair production
ions
orbitals
neutrinos
temperature
excitons
photoluminescence
atoms
polarization
quantum wells
physics
charged particles
acoustics
nanoparticles
electron beams
photonics

Chemistry and Materials

diamonds
silicon dioxide
polymers
silicon
oxygen
water
hydrogen
boron
liquids
oxides
molecules

Aerospace Sciences

gamma rays
cosmic rays
supernovae
cosmic ray showers
telescopes
particle telescopes
magnetic fields
spectroscopy
dark matter
universe
intercalation
gravitation

Engineering

x rays
field effect transistors
fabrication
irradiation
electrodes
scattering
excitation
actuators
cameras
quantum dots

Mathematical and Computer Sciences

supersymmetry

Chemical Compounds

Polymers
Silicon Dioxide
Temperature
Ions
Diamond
Electrons
Metals
Substrates
Oxygen
Carbon
Catalysts
Molecules
Water
Electrodes
Derivatives
Fabrication
Crystallization
Atoms
Silicon
Bearings (structural)
Oxides
Crystals
Electrolytes
Membranes
Nanoparticles
Genes
Silicates
Hydrogen
X rays
Composite materials
Zeolites
Irradiation
Intercalation compounds
Boron
Siloxanes
Oxidation
Graphite
Experiments
Ligands
Carbon Nanotubes
Aluminum Oxide
Nanosheets
Magnetic fields
Cells
Fibers
Blood
Cycloaddition
Gases
Kinetics
Proteins
Nuclear magnetic resonance
Cations
Thin films
Palladium
Crystalline materials
Density functional theory
Doping (additives)
Lithium
Adsorption
Fluorescence
Chemical activation
Computer simulation
Gold
Carbon Monoxide
Acids
Liquids
Intercalation
Amino Acids
Chemical analysis
Muscle
Cathodes
Copper
Alkenes
Electronic structure
DNA
Transmission electron microscopy
Degradation
Aluminum
Microfluidics
Electric potential
Cables
Anodes
Surface-Active Agents
Electric fields
Hemoglobins
Polarization
Iridium
Substitution reactions
Electrodeposition
Field effect transistors
Gels
Molecular orbitals
Iron
Nitrogen
Phase transitions
Photoluminescence
Liquid Crystals
Ketones
Crystal structure
Single crystals