Abstract
The temperature field inside a vertical Bridgman-Stockbarger growth ampoule was calculated for different crucible conductivities. The sensitivities of the interface position and shape to the heater temperature increases as the effectiveness of heat transfer between the ampoule and the surroundings diminishes. For high thermal conductivity materials, these sensitivities are a minimum when the ampoule conductivity is also high, while for low conductivity materials a low conductivity ampoule is best.
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