[KSCI] Korea Science Citation Index Service

http://dx.doi.org/10.6111/JKCGCT.2010.20.3.117

Effects of impurity (N₂) on thermo-solutal convection during the physical vapor transport processes of mercurous chloride

Kim, Geug-Tae (Department of Nano-Bio Chemical Engineering, Hannam University)
Kim, Young-Joo (Bioinformatics Research Center, Korea Research Institute of Bioscience and Biotechnology)

Publication Information

Journal of the Korean Crystal Growth and Crystal Technology / v.20, no.3, 2010 , pp. 117-124 More about this Journal

Abstract

For Ar=5, Pr=1.18, Le=0.15, Pe=2.89, Cv=1.06, $P_B$ =20 Torr, the effects of impurity $(N_2)$ on thermally and solutally buoyancy-driven convection ( $Gr_t=3.46{\times}10^4$ and $Gr_s=6.02{\times}10^5$ , respectively) are theoretically investigated for further understanding and insight into an essence of thermo-solutal convection occurring in the vapor phase during the physical vapor transport. For $10K{\leq}{\Delta}T{\leq}50K$ , the crystal growth rates are intimately related and linearly proportional to a temperature difference between the source and crystal region which is a driving force for thermally buoyancy-driven convection. Moreover, both the dimensionless Peclet number (Pe) and dimensional maximum velocity magnitudes are directly and linearly proportional to ${\Delta}T$ . The growth rate is second order-exponentially decayed for $2{\leq}Ar{\leq}5$ . This is related to a finding that the effects of side walls tend to stabilize the thermo-solutal convection in the growth reactor. Finally, the growth rate is found to be first order exponentially decayed for $10{\leq}P_B{\leq}200$ Torr.

Keywords

Mercurous chloride; Thermo-solutal buoyancy-driven convection; Nitrogen and physical vapor transport (PVT);

Citations & Related Records

Times Cited By KSCI : 7 (Citation Analysis)

Reference
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KSCI

Effects of impurity (N2) on thermo-solutal convection during the physical vapor transport processes of mercurous chloride

Effects of impurity (N₂) on thermo-solutal convection during the physical vapor transport processes of mercurous chloride