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東北大学 ホーム
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研究成果
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Scopus著者プロファイル
川又 透
助教
金属材料研究所・物質創製研究部
h-index
147
被引用数
6
h 指数
Pureの文献数とScopusの被引用数に基づいて算出されます
2010
2022
年別の研究成果
概要
フィンガープリント
ネットワーク
研究成果
(33)
類似のプロファイル
(6)
Pureに変更を加えた場合、すぐここに表示されます。
フィンガープリント
Toru Kawamataが活動している研究トピックを掘り下げます。このトピックラベルは、この研究者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
Chemistry
Alloy
82%
Structure
72%
Anomalous X-Ray Scattering
54%
Procedure
40%
Monte Carlo Method
38%
Relaxation
37%
Single Crystalline Solid
36%
Analytical Method
32%
Vibration
29%
Crystalline Material
25%
X Ray Absorption Spectroscopy
22%
Coil
21%
Laser Induced Breakdown Spectroscopy
21%
Cathode
21%
Atom
19%
Device
18%
Sample
17%
Pink
12%
Liquid Film
12%
X-Ray Diffraction
12%
Single Crystal Neutron Diffraction
12%
Hydrogen
12%
Magnetostriction
12%
Glass
12%
Volume
10%
Chemical Kinetics Characteristics
10%
Strain
10%
Czochralski Process
10%
Reaction Temperature
9%
Intracoronary
9%
Battery Charging
9%
Crystal Structure
9%
Pair Distribution Function
9%
Structural Studies
9%
Plastic Deformation
8%
Application
8%
Hard-Sphere Model
8%
X-Ray Scattering
8%
Primary Structure
8%
Magnetic Property
8%
Oxidation Reaction
8%
Microstructure
7%
Reflection
7%
Neutron Diffraction
7%
Pressure
7%
Space Group
7%
Single Crystal X-Ray Diffraction
7%
Amount
7%
Charge Distribution
7%
Spectra
7%
Physics
Alloy
100%
Single Crystals
36%
Sites
29%
Magnetostriction
27%
Vibration
23%
Cathode
21%
Laser-Induced Breakdown Spectroscopy
21%
Region
16%
Lithium-Ion Batteries
15%
Ice
15%
Lithium
14%
Utilization
14%
Performance
14%
Iron
13%
Diffraction
13%
Model
13%
Volume
13%
Crystals
12%
X Ray Scattering
12%
Hydrogen
12%
Molecular Cluster
12%
Glass
12%
Kinetics
10%
High Pressure
10%
Atoms
10%
Czochralski Method
10%
Temperature
9%
Position (Location)
9%
Crystal Structure
9%
X-Ray Absorption Fine Structure
9%
Energy Harvesting
9%
Media
9%
Plastic Deformation
8%
Shapes
8%
Elasticity
8%
Oxidation
8%
Magnetic Properties
8%
Magnetic Domain
8%
Statics
8%
Magnetic Fields
8%
Microstructure
7%
Anisotropy
7%
Neutron Diffraction
7%
Pressure
7%
Differences
7%
Growth Rate
7%
Structural Analysis
7%
Charge Distribution
7%
Gallium
7%
Annealing
6%
Earth and Planetary Sciences
Alloy
78%
Single Crystal
31%
Magnetostriction
27%
Site
26%
Vibration
23%
Investigation
16%
Power Generation
16%
Sample
16%
Ice
15%
Map
14%
Region
13%
Crystal
12%
Hydrogen
12%
Tourmaline
12%
United States of America
12%
Germanate
12%
Prehnite
12%
New Jersey
12%
X Ray Scattering
12%
Myanmar
12%
Vivianite
12%
Glass
12%
X-Ray Diffraction
12%
High Pressure
10%
Diffraction
10%
Iron
10%
Edge
10%
Model
10%
Show
9%
Position (Location)
9%
Utilization
9%
Plastic Deformation
8%
Elasticity
8%
China
8%
Magnetic Property
8%
Content
8%
Oxidation
8%
Magnetic Field
8%
Microstructure
7%
Czochralski Method
7%
Anisotropy
7%
Neutron Diffraction
7%
Surface Pressure
7%
Crystal Structure
7%
Difference
7%
Shape
7%
Paper
7%
Growth Rate
7%
Co-Ordination
7%
Crystal Growth
6%