Study and optimization of gas flow and temperature distribution in a Czochralski configuration

The Czochralski (Cz) method has virtually dominated the entire production of bulk single crystals with high productivity. Since the Cz-grown crystals are cylindrical, axisymmetric hot zone arrangement is required for an ideally high-quality crystal growth. However, due to three-dimensional effects t...

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Bibliographic Details
Published in:Journal of crystal growth 2012-12, Vol.361, p.114-120
Main Authors: Fang, H.S., Jin, Z.L., Huang, X.M.
Format: Article
Language:English
Subjects:
A1. Computer simulation
A1. Stresses
A1.Fluid flows
A2. Czochralski method
Condensed matter: structure, mechanical and thermal properties
Cross-disciplinary physics: materials science
rheology
Crystal defects
Crystal growth
Czochralski process
Defects and impurities in crystals
microstructure
Design engineering
Exact sciences and technology
Furnaces
Growth from melts
zone melting and refining
Linear defects: dislocations, disclinations
Materials science
Methods of crystal growth
physics of crystal growth
Optimization
Physics
Structure of solids and liquids
crystallography
Temperature distribution
Theory and models of crystal growth
physics of crystal growth, crystal morphology and orientation
Three dimensional
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Summary:The Czochralski (Cz) method has virtually dominated the entire production of bulk single crystals with high productivity. Since the Cz-grown crystals are cylindrical, axisymmetric hot zone arrangement is required for an ideally high-quality crystal growth. However, due to three-dimensional effects the flow pattern and temperature field are inevitably non-axisymmetric. The grown crystal suffers from many defects, among which macro-cracks and micro-dislocation are mainly related to inhomogeneous temperature distribution during the growth and cooling processes. The task of the paper is to investigate gas partition and temperature distribution in a Cz configuration, and to optimize the furnace design for the reduction of the three-dimensional effects. The general design is found to be unfavorable to obtain the desired temperature conditions. Several different types of the furnace designs, modified at the top part of the side insulation, are proposed for a comparative analysis. The optimized one is chosen for further study, and the results display the excellence of the proposed design in suppression of three-dimensional effects to achieve relatively axisymmetric flow pattern and temperature distribution for the possible minimization of thermal stress related crystal defects. ► We model temperature field and gas flow in a Czochralski crystal growth furnace. ► Three-dimensional effects of gas partition and temperature field are studied. ► Optimized furnace design is proposed to suppress the three-dimensional effects. ► Experimental observation validates the distribution of temperature field.
ISSN:0022-0248
1873-5002
DOI:10.1016/j.jcrysgro.2012.09.027