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塾長
慶應義塾
概要
フィンガープリント
ネットワーク
プロファイル
(1)
研究成果
(144)
フィンガープリント
塾長が活動している研究トピックを掘り下げます。これらのトピックラベルは、この組織のメンバーの研究成果に基づきます。これらがまとまってユニークなフィンガープリントを構成します。
並べ替え順
重み付け
アルファベット順
Physics & Astronomy
silicon
97%
nuclear spin
75%
electron spin
50%
isotopes
48%
electron paramagnetic resonance
38%
diamonds
33%
quantum dots
30%
phosphorus
30%
nitrogen
26%
nuclear magnetic resonance
25%
germanium
22%
nuclei
21%
magnetic fields
21%
quantum computation
20%
electrons
20%
polarization
19%
atoms
18%
arsenic
17%
microwaves
17%
single crystals
17%
magnetic resonance
16%
atomic energy levels
15%
oxygen
15%
readout
14%
shift
13%
phonons
12%
solid state
12%
spectroscopy
12%
excitation
11%
boron
11%
isotope effect
11%
superlattices
11%
ion implantation
11%
carbon
10%
pulses
10%
superconductivity
10%
crystals
10%
defects
9%
resonance lines
9%
excitons
9%
nuclear reactions
9%
isotopic enrichment
8%
quantum computers
8%
purity
8%
interactions
8%
magnetic resonance spectroscopy
8%
spin resonance
8%
metal oxide semiconductors
8%
tomography
8%
silicon isotopes
7%
nuclear quadrupole resonance
7%
electronics
7%
magnetic measurement
7%
sensitivity
7%
symmetry
7%
nanowires
7%
interstitials
7%
central processing units
7%
characterization
6%
resources
6%
inhomogeneity
6%
purification
6%
anisotropy
6%
mass spectroscopy
6%
orbits
6%
impurities
6%
insulators
6%
vibration mode
6%
engineering
6%
ions
6%
shot
6%
bells
6%
molecules
6%
annealing
5%
bismuth
5%
ferromagnetism
5%
logic
5%
photoluminescence
5%
spin-lattice relaxation
5%
precession
5%
germanium isotopes
5%
spin-orbit interactions
5%
silicon oxides
5%
rotational states
5%
tensors
5%
screening
5%
oxygen recombination
5%
manipulators
5%
electric fields
5%
life (durability)
5%
Engineering & Materials Science
Silicon
100%
Qubits
76%
Isotopes
67%
Electrons
65%
Germanium
36%
Phosphorus
29%
Atoms
28%
Phonons
26%
Single crystals
24%
Superlattices
22%
Quantum computers
22%
Paramagnetic resonance
21%
Nuclear magnetic resonance
21%
Magnetic fields
21%
Polarization
18%
Arsenic
17%
Magnetic resonance
17%
Vacancies
16%
Excitons
15%
Crystals
15%
Heterojunctions
14%
Linewidth
13%
Boron
13%
Metal insulator transition
11%
Nanowires
11%
Oxygen vacancies
10%
Oxygen
9%
Carbon
9%
Spectroscopy
9%
Temperature
9%
Ions
9%
Electric fields
9%
Excited states
9%
Doping (additives)
8%
Nitrogen
8%
Semiconductor materials
8%
Bismuth
8%
Diamonds
7%
Characterization (materials science)
7%
Nanoelectronics
7%
Photoluminescence
7%
Defects
6%
Molecular orbitals
6%
Purification
6%
Neutrons
6%
Electron spin resonance spectroscopy
6%
Quantum electronics
6%
Exchange coupling
6%
Photoluminescence spectroscopy
6%
Spin orbit coupling
6%
Wave functions
6%
Semiconductor quantum dots
6%
Epitaxial films
6%
Magnetocrystalline anisotropy
6%
Microwaves
5%
Raman scattering
5%
Fabrication
5%
Benchmarking
5%
Hole concentration
5%
Ion implantation
5%
Ground state
5%
Point defects
5%
Impurities
5%
Error correction
5%
Ferromagnetic resonance
5%
Ultrafast lasers
5%
Mass spectrometry
5%
Spin glass
5%
Excitation energy
5%
Chemical Compounds
Electron Spin
64%
Nuclear Spin
61%
Quantum Dot
29%
Isotope
24%
Donor
23%
Magnetic Field
22%
Electron Particle
19%
Dynamic Nuclear Polarization
19%
Phosphorus(.)
16%
Phonon
15%
Time
10%
EPR Spectroscopy
10%
Superlattice
10%
Electron-Nuclear Double Resonance Spectroscopy
10%
P31
9%
Single Crystalline Solid
8%
Semiconductor
8%
Nuclear Polarization
8%
Metal Insulator Transition
8%
Error
7%
Nanowire
7%
Isotope Effect
7%
NMR Spectroscopy
7%
Interstitial
7%
Spin State
7%
Rotational State
6%
Aharonov-Bohm Effect
6%
Implanted Ion
6%
Optical Phonon
6%
Resonance
6%
Exciton
6%
Triplet State
6%
Stable Isotope
5%
Electric Field
5%
Strain
5%
LO Phonon
5%
Phosphorus Atom
5%
Bound Exciton
5%
Tunneling
5%