Numerical simulation of MHD rotator action on hydrodynamics and heat transfer in single crystal growth processes |
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Authors: | M. Abricka, J. Krü min,Yu. Gelfgat |
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Affiliation: | Laboratory of MHD Technology, Institute of Physics, Latvia Academy of Sciences, LV-2169, Salaspils 1, Latvia |
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Abstract: | The article presents the results of the mathematical and physical simulations of the influence of a rotating magnetic field (RMF) on the hydrodynamics and heat transfer in processes of large semiconductor single crystal growth in ampoules. Different versions of the RMF are considered, in particular, for symmetric and asymmetric positions of a RMF inductor with regard to the melt in the ampoule, for two counter-rotating magnetic fields, for different geometrical ratios in the “RMF inductor - liquid melt” system, and for different electrical conductivities of the hard walls at their contact with the melt. The interconnection between the distribution of the electromagnetic forces in the liquid volume and the formed velocity patterns, temperature distribution and shape of the solidification front is studied. An original method for the definition of the electromagnetic forces, which considers finite dimensions of the RMF inductor and melt, was used to calculate real conditions of the RMF influence on growth processes. The numerical results obtained are compared to the data of model experiments. Their satisfactory agreement permits us to propose this calculation method for the definition of the optimal parameters of a growth process under specific conditions and to select the most rational type of RMF influence. |
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Keywords: | Rotating magnetic field Hydrodynamics Heat transfer Single crystal growth Velocity patterns Temperature distribution Shape of solidification front |
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