The prospects for traveling magnetic fields to affect interface shape in the vertical gradient freeze growth of cadmium zinc telluride

Engineering & Materials Science

• Cadmium 97%
• Zinc 76%
• Lorentz force 65%
• Magnetic fields 62%
• Buoyancy 51%
• Phase shift 50%
• Heat transfer 31%
• Electromagnetic induction 29%
• Forced convection 27%
• Electromagnetic waves 25%
• Fluid dynamics 25%
• Furnaces 20%
• Geometry 14%
• Hot Temperature 11%

Physics & Astronomy

• zinc tellurides 100%
• cadmium tellurides 89%
• gradients 46%
• Lorentz force 40%
• buoyancy 37%
• magnetic fields 35%
• phase shift 29%
• heat transfer 27%
• ampoules 23%
• forced convection 21%
• magnetic induction 21%
• fluid dynamics 19%
• traveling waves 17%
• furnaces 16%
• electromagnetic radiation 14%
• geometry 9%
• simulation 6%

Chemical Compounds

• Buoyancy 69%
• Magnetic Field 66%
• Heat Transfer 51%
• Shape 46%
• Magnetic Induction 38%
• Fluid Dynamics 34%
• Electromagnetic Wave 32%
• Force 32%
• Flow 30%
• Wave 22%
• Simulation 14%