If you made any changes in Pure these will be visible here soon.

Fingerprint Dive into the research topics where Takeshi Arai is active. These topic labels come from the works of this person. Together they form a unique fingerprint.

Physics & Astronomy

General

vortices
liquid phases
activation energy
indium alloys
thin films
preparation
temperature dependence
single crystals
tunnel junctions
time dependence
probes
physical properties
exponents
augmentation
metals
relaxation time
lead alloys
crystals
insulators
curves
solid state
scaling
floating
crystal morphology
crystallinity
deviation
magnetization
atomic force microscopy
electronic structure
crystal structure

Engineering

electrical resistivity
annealing
evaporation
x rays
pumps

Aerospace Sciences

magnetic fields
spectroscopy

Chemistry and Materials

indium
glass
liquids
copper oxides

Physics

spatial distribution
current density
transition temperature
high temperature superconductors
electric potential
diffraction
roughness
reflectance
atoms

Chemical Compounds

Vortex flow
Superconducting materials
Thin films
Indium alloys
Single crystals
Activation energy
Indium
Magnetic fields
Liquids
Spatial distribution
Multilayers
Current density
Physical properties
Surface roughness
Oxide superconductors
Spectroscopy
Annealing
Relaxation time
Evaporation
Metals
Crystals
Glass
Copper oxides
High temperature superconductors
X ray diffraction
Doping (additives)
Semiconductor materials
Electric potential
Atoms
Magnetization
Temperature
Pumps
Crystal orientation
Electronic structure
Direction compound
barium copper yttrium oxide
Crystal structure
Phase transitions

Engineering & Materials Science

Vortex flow
Superconducting materials
Thin films
Indium alloys
Single crystals
Activation energy
Magnetic fields
Liquids
Indium
Spatial distribution
Multilayers
Current density
Physical properties
Surface roughness
Oxide superconductors
Spectroscopy
Annealing
Relaxation time
Evaporation
Crystals
Superconducting transition temperature
Glass
Copper oxides
High temperature superconductors
Metals
X ray diffraction
Doping (additives)
Semiconductor materials
Electric potential
Atoms
Magnetization
Temperature
Lead
Pumps
Crystal orientation
Electronic structure
Crystal structure
Phase transitions