Abstract

Axisymmetric, time-dependent simulations of the high-pressure vertical Bridgman growth of large-diameter cadmium zinc telluride are performed to study the effect of accelerated crucible rotation (ACRT) on crystal growth dynamics. The model includes details of heat transfer, melt convection, solid-liquid interface shape, and dilute zinc segregation. Application of ACRT greatly improves mixing in the melt, but causes an overall increased deflection of the solid-liquid interface. The flow exhibits a Taylor-Görtler instability at the crucible sidewall, which further enhances melt mixing.

Volume Subject Area:
Multiphase Flow and Heat Transfer in Manufacturing and Materials Processing
Topics:
Crystal growth, Rotational flow, Convection, Deflection, Dynamics (Mechanics), Engineering simulation, Flow (Dynamics), Heat transfer, High pressure (Physics), Rotation, Shapes, Simulation
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