Abstract

Using a global two-dimensional model of SiC crystal growth by the Modified Lely method the temperature field of the furnace, the multi-species fluid flow between source and crystal, and the transport rate of the crystal building species at the gas–crystal interface are analysed. Finite element codes are used for the field computations while a free energy minimizing software is used to determine the thermodynamic equilibrium composition of the gas phase. The computed species transport rates meet the range of experimental values.

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