[KSCI] Korea Science Citation Index Service

Predictions of zinc selenide single crystal growth rate for the micro gravity experiments

Kim, Geug-Tae (Department of Nano-Bio Chemical Engineering, Hannam University)

Publication Information

Journal of the Korean Crystal Growth and Crystal Technology / v.14, no.5, 2004 , pp. 226-232 More about this Journal

Abstract

One predicts the crystal growth rate of ZnSe with a low vapor pressure system in a horizontal configuration based on one dimensional advection-diffusion and two-dimensional diffusion-convection model. The present results show that for the ratios of partial pressures, s = 0.2 and 2.9, the growth rate increases with the temperature differences between the source and crystal. As the ratio of partial pressure approaches the stoichiometric value, s = 2 from s = 1.5 (zinc-deficient case: s < 2) and 2.9 (zinc-rich case: s > 2), the rate increases sharply. For the ranges from 1.5 to 1.999 (zinc-deficient case: s < 2) and from s = 9 to 2.9 (zinc-rich case: s > 2), the rate are slightly varied. From the viewpoint of the order of magnitude, the one-dimensional model for low vapor pressure system falls within the 2D predictions, which indicates the flow fields would be advective-diffusive. For the effects of gravitational accelerations on the rate, the gravitational constants are varied from 1 g to $10^{-6}$ g for $\Delta$ T = 50 K and s = 1.5, the rates remain nearly constant, i.e., 211 mg/hr, which indicates Stefan flow is dominant over convection.

Keywords

Zinc selenide; Microgravity;

Citations & Related Records

Times Cited By KSCI : 1 (Citation Analysis)

Reference
Cited By KSCI

1	H.J. Eichler, V. Glaw, A. Kummrow, V. Penschke and Wahi, 'Optically bistable thin film devices using widegap II-VI compounds,' J. Crystal Growth 101 (1990) 695 DOI ScienceOn
2	S. Guha, J.M. DePuydt, M.A. Hasse, J. Qiu and H. Cheng, AppI. Phys. Lett. 63 (1993) 3107 DOI ScienceOn
3	K. Mochizuki, K. Masumoto and H. Iwanaga, 'Morphology and photoluminescence (PL) of ZnSe single crystals grown frm Se and/or as solvents,' J. Crystal Growth 84 (1987) 1 DOI ScienceOn
4	K. Bottcher and H. Hartmann, 'Zinc selenide single crystal growth by chemical transport reactions', J. Crystal Growth 146 (1995) 53 DOI ScienceOn
5	H.Y. Cheng and E.E. Anderson, 'The growth of ZnSe single crystals by physical vapor transport', J. Crystal Growth 96 (1989) 756 DOI ScienceOn
6	Y.U. Korostelin, V.I. Kozlovsky, A.S. Nasibov and P.V. Shapkin, 'Vapour and characterization of bulk ZnSe single crystals', J. Crystal Growth 161 (1996) 51 DOI ScienceOn
7	G.T. Kim, 'Convection in the growth of zinc telluride single crystal by physical vapor transport,' J. Korean Crystal Growth and Crystal Tech. 4 (2003) 187 과학기술학회마을
8	D. Siche, K. Bottcher, U. Rinas and H. Hartmann, 'Crystal growth of zinc selenide under ug-conditions,' J. Crystal Growth 244 (2002) 249 DOI ScienceOn
9	M.A. Hasse, J.M. DePuydt and H. Chen, AppI. Phys. Lett. 59 (1991) 1272 DOI
10	J.R. Cutter and J. Woods, 'Growth of single crystals of zinc selenide from the vapor phase', J. Crystal Growth 47 (1979) 405 DOI ScienceOn
11	C.H. Su, S. Feth, L.J. Wang and S.L. Lehoczky, 'Photoluminescene studies of ZnSe starting materials and vapor grown bulk crystals', J. Crystal Growth 224 (2001) 32 DOI ScienceOn
12	W Palosz, 'Growth of ZnS and $Zn_{1-X}Cd_XS(X < 0.07)$ single crystas by iodine transport,' J. Crystal Growth 60 (1982) 57 DOI ScienceOn
13	R.C. Reid, J.M. Prausnitz and B.E. Poling, Bird, The properties of gases & liquids (McGraw-Hill, New York, NY, 1988)
14	H. Jeon, J. Ding, A.Y. Nurmikko, W. Xie, D.C. Grillo, M. Kobayashi, R.L. Gunshor, G.C. Hua and N. Otsuka, Appl. Phys. Lett. 60 (1992) 2045 DOI
15	W.C. Holton, R.K. Watts and R.D. Stinedurf, Eichler, J. Crystal Growth 6 (1969) 97 DOI ScienceOn
16	D.WG. Ballentyne, S. Wetwatana and E.A.D. White, 'Kinetics of the vapour-phase growth of II-VI compounds in a sealed tube,' J. Crystal Growth 7 (1970) 79 DOI ScienceOn
17	N. Ramachandran, C.H. Su and S.L. Lehoczky, 'Modeling studies of PVT growth of ZnSe: current status and future course', J. Crystal Growth 208 (2000) 269 DOI ScienceOn
18	H. Kukimoto, 'Conductivity control of ZnSe grown by MOVPE and its application for blue electroluminescence,' J. Crystal Growth 101 (1990) 953 DOI ScienceOn
19	C.C. Chang, C.C. Wei, YK. Su and H.C. Tzeng, 'Growth and characterization of ZnSe single crystals by closed tube methods,' J. Crystal Growth 84 (1987) 11 DOI ScienceOn
20	H. Hartmann, 'Studies on the vapour growth of ZnS, ZnSe and ZnTe single crystals,' J. Crystal Growth 42 (1977) 144 DOI ScienceOn
21	RE Brebrick and H.-C. Liu, High Temp. Mater. Sci. 35 (1996) 215
22	C.-H. Su, 'Growth rate of CdS by vapor transport in a closed ampoule,' J. Crystal Growth 80 (1987) 333 DOI ScienceOn
23	H. Zhou, A. Zebib, S. Trivedi and WM.B. Duval, 'Physical vapor transport of zinc-telluride by dissociative sublimation', J. Crystal Growth 167 (1996) 534 DOI ScienceOn
24	C.H. Su, M.A. George, W. Palosz, S. Feth and S.L. Lehoczky, 'Contactless growth of ZnSe single crystals by physical vapor transport', J. Crystal Growth 213 (2000) 267 DOI ScienceOn
25	M.M. Faktor and I. Garrett, Growth of Crystals from the Vapour, Chapman & Hall, London (1974)
26	F. Rosenberger, 'Fluid dynamics in crystal growth from vapors', Physico-Chemical Hydro-dynamics 1 (1980) 3
27	Y.-G. Sha, C.-H. Su, W. Palosz, M.P. Volz, D.C. GilIies, ER. Szofran, S.L. Lehoczky, H.-C. Liu and RE Brebrick, 'Mass flux of ZnSe by physical vapor transport', J. Crystal Growth 146 (1995) 42 DOI ScienceOn
28	MJ. Kozielski, 'Polytype single crystals of $Zn_{1-X}Cd_XS$ and $ZnS_{1-x}Se_x$ solid solutions grown from the melt under high argon pressure by bridgmans method,' J. Crystal Growth 30 (1975) 86 DOI ScienceOn
29	I. Kikuma and M. Furukoshi,' Melt growth of ZnSe crystals under argon pressures,' J. Crystal Growth 41 (1977) 103 DOI ScienceOn
30	C.H. Su, S. Feth and S.L. Lehoczky, 'In situ partial pressure measurements and visual observation during crystal growth of ZnSe by seeded physical vapor transport', J. Crystal Growth 209 (2000) 687 DOI ScienceOn