School of Advanced Science and Engineering

  • 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.

Physics & Astronomy

General

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

Physics

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

Aerospace Sciences

gamma rays
supernovae
cosmic rays
cosmic ray showers
telescopes
particle telescopes
magnetic fields
dark matter
spectroscopy
universe
intercalation
gravitational waves
gravitation
pulsars
massive stars

Engineering

x rays
irradiation
scattering
excitation
actuators
electrodes
life (durability)
interlayers

Chemistry and Materials

silicon dioxide
polymers
oxygen
silica glass
water
silicon

Mathematical and Computer Sciences

supersymmetry
sensitivity

Engineering & Materials Science

Detectors
Temperature
Electrons
Polymers
Silica
Ions
Substrates
Electrodes
Oxygen
Electric potential
Catalysts
Crystals
Irradiation
X rays
Membranes
Bosons
Magnetic fields
Protons
Nanoparticles
Cables
Gamma rays
Photons
Experiments
Fabrication
Carbon
Acids
Derivatives
Low density polyethylenes
Crystallization
Perovskite
Atoms
Electric space charge
Nanosheets
Photoluminescence
Water
Electric fields
Dielectric properties
Electrolytes
Oxides
Molecules
Electrodeposition
Hemoglobin
Degradation
Metals
Momentum
Imaging techniques
Thin films
Cathodes
Crystalline materials
Colliding beam accelerators
Oxidation
Composite materials
Intercalation compounds
Permittivity
Ethylene
Nanocomposites
Silicon
Luminance
Bearings (structural)
Polyethylenes
Anodes
Hydrogen
Insulation
Magnetic recording
Animation
Bacteria
Silicates
Polarization
Phosphors
Gels
Absorption spectra
Nuclear magnetic resonance
Excitons
Computer simulation
Radiation
Fillers
Semiconductor quantum wells
Electronic structure
Secondary batteries
Plasmas
Steam reforming
Lasers
Lithium
Electron beams
Nucleation
Copolymers
Scattering
Epoxy resins
Monolayers
Voltage control
Liquids
Carbon nanotubes
Doping (additives)
Insulating materials
Sensors
Ligands
Electroless plating
Adsorption
Single crystals
Liquid crystals

Chemical Compounds

Polymers
Silicon Dioxide
Ions
Electrons
Temperature
Catalysts
Oxygen
Carbon
Derivatives
Substrates
Crystallization
Molecules
Metals
Electrodes
Electrolytes
Crystals
Membranes
Silicates
Bearings (structural)
Nanoparticles
Water
Atoms
Oxides
Siloxanes
Genes
Zeolites
Intercalation compounds
Cycloaddition
Nanosheets
Magnetic fields
X rays
Irradiation
Ligands
Hydrogen
Density functional theory
Oxidation
Palladium
Aluminum Oxide
Silicon
Graphite
Lithium
Fabrication
Nuclear magnetic resonance
Carbon Nanotubes
Crystalline materials
Alkenes
Cathodes
Intercalation
Cables
Cations
Anodes
Liquid Crystals
Iridium
Electrodeposition
Thin films
Secondary batteries
Composite materials
Ketones
Gold
Hemoglobins
Kinetics
Electronic structure
Carbon Monoxide
Acids
Molecular orbitals
Esters
Electric fields
Aspergillus
Methane
Photoluminescence
Adsorption
Alkynes
Hydrolysis
Degradation
Cells
Monolayers
Surface-Active Agents
Nitrogen
Protons
Chemical activation
Gels
Amino Acids
Copper
Substitution reactions
Salts
Doping (additives)
Dimers
Gases
Steam reforming
Fluorescence
Chirality
Electroless plating
Nucleation
Polyethylene
Steam
Proteins
Bacteria
Polymerization
Citric Acid
Absorption spectra