Keyphrases
Circular Couette Flow
22%
Convexity
44%
Crucible Rotation
28%
Crystal Fiber
32%
Crystal Growth
77%
Crystal-melt Interface
77%
Czochralski Growth
37%
Czochralski Silicon
55%
Directional Solidification
31%
Efficiency Droop
34%
Finite Difference Method
26%
Floating Zone
63%
Fluid Flow
27%
Free Surface
25%
Growth Mechanism
22%
Growth Process
46%
Heat Transport
29%
Indium Gallium Nitride (InGaN)
25%
Ingot
27%
Input Power
31%
Interface Shape
34%
Laser Heated Pedestal Growth Method
44%
Light-emitting Diodes
53%
LiNbO3 Crystal
31%
Linear Stability
28%
Lithium Niobate
93%
Multicrystalline Silicon
26%
Numerical Computation
48%
Numerical Investigation
36%
Numerical Simulation
100%
Oxygen Concentration
43%
Oxygen Transport
37%
Rectangular Cavity
28%
Rotation Rate
26%
Rutile
29%
Sapphire
36%
Sapphire Crystal
70%
Sapphire Surface
29%
Silicon Crystal Growth
62%
Silicon Melt
25%
Single Crystal Fiber
54%
Temperature Distribution
32%
Temperature Effect
28%
Temperature Gradient
26%
Thermal Stress
23%
Thermocapillary
31%
Thermocapillary Convection
75%
Thermocapillary Flow
26%
Vortex
37%
Yttrium Iron Garnet
28%
Engineering
Axisymmetric
29%
Couette Flow
28%
Crystal Surface
18%
Directional Solidification
25%
Efficiency Droop
34%
Energy Equation
20%
Exchanger
23%
Experimental Result
25%
Finite Difference Method
21%
Finite Element Analysis
17%
Floating Zone
26%
Flow Distribution
20%
Fluid Flow
23%
Free Surface
31%
Growth Interface
18%
Growth Mechanism
17%
Growth Method
32%
Growth Process
56%
Input Power
36%
Interface Shape
33%
Iron
22%
Iso
17%
Isothermal
31%
Light-Emitting Diode
73%
Linearized Stability
22%
Melting Point
21%
Microchannel
17%
Multicrystalline Silicon
33%
Navier-Stokes Equation
27%
Numerical Computation
47%
Numerical Study
42%
Optical Path
17%
Oxygen Concentration
25%
Quantum Well
16%
Rectangular Cavity
28%
Rod
50%
Rotation Rate
18%
Sapphire Surface
17%
Semisolid
22%
Side Wall
15%
Simulation Result
21%
Solidification Process
25%
Surface Deformation
19%
Temperature Distribution
33%
Temperature Gradients
35%
Thermal Effect
21%
Thermal Gradient
41%
Thermal Stress
25%
Two Dimensional
24%
Vortex
41%
