Pureに変更を加えた場合、すぐここに表示されます。

Fingerprint Hidehiko Arimaが取り組む研究トピックをご確認ください。これらのトピックラベルは、この人物の研究に基づいています。これらを共に使用することで、固有の認識が可能になります。

Engineering & Materials Science

Liquid methane
Neutrons
Nuclear reactors
Photons
Isotopes
Electrons
Detectors
Atomic beams
Ionization chambers
Magnetic fields
Electric potential
Silk
Scintillation
Protons
Particle accelerators
Radioisotopes
Magnets
Fission products
Ion sources
Gamma rays
Nuclear reactions
Nuclear magnetic resonance
Permanent magnets
Neutron flux
Neutron detectors
Deuterium
Spectroscopic analysis
Radioactive wastes
Refrigerators
Dipole moment
Biological materials
Electrodes
Charged particles
Hydrogen
Iron
Neutron scattering
Measurement errors
Dilution
Dosimetry
Helium
Tungsten
Experiments
Platinum
Electron beams
Iodine compounds
Atoms
Gases
Evaporation
Monitoring
Fluxes

Physics & Astronomy

Physics

neutrinos
nuclear reactors
antineutrinos
neutrons
energy spectra
neutron spectra
electrons
protons
nuclear reactions
nuclear magnetic resonance
atomic beams
pulse amplitude
photons
coefficients

General

accelerators
multipoles
cross sections
rays
magnets
calorimeters
files
reactors
energy
bremsstrahlung
radio frequencies
chambers
decay
neutron counters
silk
probes
interactions
fission products
detectors
scintillation
incidence
dilution
mathematical models
fragmentation

Chemistry and Materials

methane
nuclides
liquids
iron
tungsten
liquid helium

Engineering

ionization chambers
ion sources
refrigerators
injectors

Aerospace Sciences

magnetic fields
spectroscopic analysis

Earth & Environmental Sciences

electrode
efficiency measurement
deuterium
experimental apparatus
gold
hydrogen
gas
collision
laser
energy
gauge
vibration
irradiation
temperature
material