Engineering & Materials Science
Crystal growth
100%
Crystals
66%
Cadmium
60%
Zinc
48%
Crystal growth from melt
40%
Heat transfer
26%
Finite element method
22%
Furnaces
18%
Liquids
18%
Hot Temperature
17%
Solidification
16%
Convection
14%
Electrodynamics
13%
Silicon
12%
Single crystals
12%
Radiation
11%
Cadmium telluride
10%
Newton-Raphson method
10%
Sintering
9%
Incompressible flow
8%
Oxides
8%
Thermal gradients
8%
Geometry
8%
Mass transfer
7%
Fluids
7%
Microgravity
7%
Potassium
7%
Supercomputers
6%
Phosphates
6%
Buoyancy
6%
Momentum
6%
Capillarity
6%
Fluid dynamics
6%
Radiation detectors
6%
Feedback control
5%
Undercooling
5%
Temperature
5%
Temperature distribution
5%
Hydrodynamics
5%
Supersaturation
5%
Tellurium
5%
Supercooling
5%
Sapphire
5%
Physics & Astronomy
zinc tellurides
59%
cadmium tellurides
59%
crystal growth
52%
crystals
25%
crucibles
23%
heat transfer
20%
gradients
15%
furnaces
14%
convection
12%
ampoules
11%
heaters
10%
electrodynamics
9%
solidification
8%
finite element method
8%
simulation
8%
liquid-solid interfaces
8%
quasi-steady states
7%
potassium phosphates
7%
supercooling
7%
solutes
7%
silicon
6%
liquids
6%
menisci
6%
Newton methods
6%
radiation detectors
5%
microgravity
5%
oxides
5%
mass transfer
5%
fluid dynamics
5%
schedules
5%
Chemical Compounds
Crystal Growth
50%
Heat Transfer
34%
Crucible
32%
Flow
29%
Shape
22%
Bridgman Crystal Growth
17%
Simulation
16%
Czochralski Process
14%
Electrodynamics
14%
Solidification
14%
Meniscus
11%
Liquid-Solid Interface
10%
Microgravity
10%
Solute
9%
Liquid
9%
Heat
8%
Mass Transfer
7%
Sintering
7%
Buoyancy
7%
Single Crystalline Solid
7%
Diffusion
6%
Velocity
6%
Momentum
6%
Oxide
5%
Magnetic Field
5%
Fluid Dynamics
5%
Force
5%
Convective Heat Transfer
5%
Supercooling
5%