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The prospects for traveling magnetic fields to affect interface shape in the vertical gradient freeze growth of cadmium zinc telluride
Andrew Yeckel,
Jeffrey J. Derby
Chemical Engineering and Materials Science
Research output
:
Contribution to journal
›
Article
›
peer-review
11
Scopus citations
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Dive into the research topics of 'The prospects for traveling magnetic fields to affect interface shape in the vertical gradient freeze growth of cadmium zinc telluride'. Together they form a unique fingerprint.
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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%