Developing quantitative, multi-scale models for melt crystal growth

Keyphrases

• Algorithm Performance 33%
• Approximate Newton 33%
• Block Gauss-Seidel 66%
• Computational Issues 33%
• Convergence Behavior 33%
• Convergence Rate 33%
• Crystal Growth 100%
• Crystal-melt Interface 33%
• Diagnostic Aid 33%
• Earth-bound 33%
• Fixed-point Iteration 33%
• Flow Heat Transfer 33%
• Furnace Heat Transfer 33%
• Gauss-Seidel Iteration 33%
• Global Model 33%
• Growth Experiment 33%
• Heat Transfer 100%
• High-temperature Furnace 33%
• Incompressible Flow 66%
• Interface Shape 33%
• Iterative Scheme 33%
• Local Model 33%
• Loose Coupling 33%
• Melt Flow 33%
• Microgravity 33%
• Microgravity Environment 33%
• Mode of Use 33%
• Modular Block 33%
• Multiphysics 33%
• Multiphysics Model 33%
• Newton Algorithm 33%
• Nonlinear Model 33%
• One-way Coupling 33%
• Predictive Algorithm 33%
• Predictive Tool 33%
• Processing Operations 33%
• Realistic Boundary Conditions 33%
• Scale Model 100%
• Self-consistent Solution 33%
• Simple Solution 33%
• Solute Segregation 33%
• Solution Strategies 33%
• Strongly Coupled 33%
• Successful Development 33%
• Two-mode 33%

Engineering

• Boundary Condition 50%
• Convergence Rate 50%
• Experimental Observation 50%
• Fixed Points 50%
• Gauss 100%
• Incompressible Flow 100%
• Interface Shape 50%
• Local Model 50%
• Melt Flow 50%
• Microgravity Environment 50%
• Multiscale 50%
• Multiscale Model 100%
• Nonlinear Model 50%
• Processing Operation 50%
• Sample Result 50%