Fingerprint Fingerprint is based on mining the text of the person's research documents to create an index of weighted terms, which defines the key subjects of each individual researcher.

Engineering & Materials Science

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

Physics & Astronomy

Chemistry and Materials

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

Physics

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

General

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

Engineering

separators
boiling
charge flow devices
furnaces
electric batteries

Mathematical and Computer Sciences

Burger equation
numerical analysis
boundary element method
theorems
boundary value problems

Life Sciences

microorganisms

Chemical Compounds

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