Keyphrases
Accelerated Crucible Rotation Technique
15%
Ampoule
18%
Bridgman
15%
Bridgman Crystal Growth
16%
Bridgman Growth
16%
Bulk Crystal Growth
11%
Buoyancy-driven Flow
12%
Cadmium Telluride
18%
Cadmium Zinc Telluride
79%
Capillary Model
21%
Crucible Rotation
17%
Crystal Growth
100%
Crystal Growth Simulation
10%
Crystal Rotation
11%
Crystal-melt Interface
15%
Czochralski
18%
Czochralski Growth
37%
Electrodynamics
19%
Finite Element Calculation
10%
Finite Element Method
25%
Finite Element Model
20%
Galerkin Finite Element Method
17%
Gallium Arsenide
11%
Growing System
38%
Growth Conditions
13%
Growth Interface
11%
Growth Rate
15%
Heat Transfer
43%
Incompressible Flow
12%
Interface Shape
40%
Internal Radiation Exposure
10%
Massively Parallel
12%
Materials Processing
12%
Melt Convection
13%
Melt Flow
9%
Melt Growth
12%
Meniscus
13%
Parallel Finite Element Method
15%
Particle Engulfment
11%
Silicon Crystal
11%
Solid-liquid Interface
20%
Solution Crystal Growth
13%
Solution Growth
12%
Steady State
13%
Temperature Field
9%
Three-dimensional (3D)
38%
Traveling Heater Method
13%
Vertical Bridgman Growth
32%
Vertical Bridgman Method
21%
Vertical Gradient Freeze
9%
Engineering
Axisymmetric
16%
Boundary Condition
9%
Bulk Crystal
15%
Capillarity
6%
Convective
14%
Driven Flow
8%
Engulfment
19%
Feedback Control
11%
Finite Element Analysis
71%
Finite Element Computation
7%
Finite Element Formulation
6%
Finite Element Modeling
18%
Flow Distribution
10%
Flow Structure
6%
Fluid Dynamics
6%
Fluid Flow
12%
Growth Condition
15%
Growth Interface
20%
Growth Method
7%
Growth Process
19%
Heat Transport
10%
Hydrodynamics
12%
Incompressible Flow
11%
Interface Shape
39%
Internals
12%
Length Scale
6%
Limitations
7%
Local Model
6%
Magnetic Field
6%
Mass Transfer
7%
Melt Flow
12%
Melt Growth
9%
Melting Point
12%
Microgravity Condition
8%
Momentum Transport
8%
Multiscale Model
6%
Numerical Model
9%
One Dimensional
7%
Phase Composition
10%
Quasi Steady State
19%
Rotation Rate
9%
Sintering
11%
Steady-State Model
11%
Step Change
6%
Supersaturation
8%
Temperature Distribution
13%
Thermal Field
9%
Thermal Gradient
13%
Transients
28%
Two Dimensional
14%