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

Engineering & Materials Science

Crucibles
Silicon
Boiling liquids
Crystals
Heat transfer
Liquids
Temperature
Heat pipes
Gases
Butenes
Phase change materials
Electric vehicles
Separators
Cooling systems
Interfacial energy
Oxygen
Hydrogen
Thermoanalysis
Surface tension
Thermal gradients
Heat flux
Fluids
Blood
Processing
Experiments
Pressure drop
MEMS
Point defects
Nucleate boiling
Heat conduction
Computational fluid dynamics
Flow rate
Boundary element method
Crystal growth from melt
Dislocations (crystals)
Inverse problems
Cells
Microfluidics
Polysilicon
Numerical analysis
Flow of gases
Boron
Argon
Tumors
Bubbles (in fluids)
Computer simulation
Furnaces
High speed cameras
Elastic moduli
Doping (additives)

Physics & Astronomy

General

crucibles
heat pipes
phase change materials
crystals
cooling systems
fluids
vehicles
thermal analysis
tubes
gas tubes
aqueous solutions
pulling
boundary conditions
point defects
stirring
gas flow
computerized simulation
vortices
simulation
interstitials

Chemistry and Materials

silicon
gases
hydrogen
liquids
surface energy
oxygen
interfacial tension
surface temperature
lithium
modulus of elasticity
boron
argon

Engineering

separators
boiling
electric batteries
microelectromechanical systems
charge flow devices
furnaces

Physics

temperature
temperature gradients
heat transfer
conductive heat transfer
radial distribution
heat flux
flow velocity

Mathematical and Computer Sciences

Burger equation
boundary element method
numerical analysis
boundary value problems
theorems

Chemical Compounds

Crucibles
Silicon
Crystals
Butanols
Boiling liquids
Heat pipes
Phase change materials
Oxygen
Electric vehicles
Cooling systems
Heat transfer
Gases
Thermoanalysis
Temperature
Hydrogen
Thermal gradients
Processing
Liquids
Argon
Heat flux
Separators
Crystal growth from melt
Dislocations (crystals)
Interfacial energy
Polysilicon
Numerical analysis
Experiments
MEMS
Flow of gases
Quartz
Flow rate
Furnaces
Surface tension
Doping (additives)
Carbon Dioxide
Fluids
Defects
Mathematical models
Gas mixtures
Quenching
Wetting
Turbulent flow
Water
Crystallization
Melting
Cooling
Bubbles (in fluids)
Video cameras
Stacking faults
Point defects