| |
|
| ||
       |
 |
 |
|
|
 |
 |
| This Document | ||
 |
Abstract | |
 |
Abstract + References | |
|
PDF (418 K) | |
|
| ||
| Actions | ||
|
Cited By | |
|
Save as Citation Alert | |
|
E-mail Article | |
|
Export Citation | |
Cite or link using doi
Classical semiconductor
Thermochemical model of physical vapor transport of cadmium-zinc telluride
W. Palosz
, 1,
S. L. Lehoczky and F. R. Szofran
Space Science Laboratory,
NASA/Marshall Space Flight Center, Huntsville, Alabama 35812, USA
Received 10 February 1994; revised 7 October 1994. Available
online 22 December 1999.
A theoretical model for the diffusive mass transport of the ternary compound
cadmium-zinc telluride by physical vapor transport (PVT) is presented.
Considerable differences between the composition of the source and deposited
material, and a steep decrease in the mass flux with an increase in ZnTe content
in Cd1-XZnXTe crystals have been found for
X < 0.1. The difference in composition between the crystal and the
source decreases with a decrease in undercooling 
T and/or with an increase in the excess
of metal constituents (Cd + Zn) in the vapor phase.
[1]. R. Triboulet, G. Neu and B. Fotouhi. J. Crystal Growth 65 (1983), p. 262. Abstract
[2]. P. Cheuvart, U. El-Hanani, D. Schneider and R. Triboulet. J. Crystal Growth 101 (1990), p. 270. Abstract
[3]. M. Bruder, H.-J. Schwartz, R. Schmitt, H. Maier and M.-O. Möller. J. Crystal Growth 101 (1990), p. 266. Abstract
[4]. R.B. Lauer and F. Williams. J. Crystal Growth 8 (1971), p. 333. Abstract
[5]. L. Ben-Dor and N. Yellin. J. Crystal Growth 71 (1985), p. 519. Abstract
[6]. Wen-bin Sang, K. Durose, J.E. Lewis and A.W. Brinkman. In: 10th Int. Conf. on Crystal Growth (ICCG-10) (1992).
[7]. M. Zha, M. Piechotka and E. Kaldis. J. Crystal Growth 115 (1991), p. 43. Abstract
[8]. N.B. Singh, R.H. Hopkins, R. Mazelsky, M. Gottlieb and E.P.A. Metz. J. Crystal Growth 74 (1986), p. 667. Abstract
[9]. N. Yellin, D. Eger and A. Shachna. J. Crystal Growth 60 (1982), p. 343. Abstract
[10]. C. Geibel, H. Maier and R. Schmitt. J. Crystal Growth 86 (1988), p. 386. Abstract-INSPEC
[11]. G.J. Russell and J. Woods. J. Crystal Growth 46 (1979), p. 326.
[12]. J.R. Cutter and J. Woods. J. Crystal Growth 47 (1979), p. 405. Abstract
[13]. Z. Golacki, Z. Furmanik, M. Gorska, A. Szczerbakow and W. Zahorowski. J. Crystal Growth 60 (1982), p. 150. Abstract
[14]. Z. Golacki, M. Gorska, T. Warminski and A. Szczerbakow. J. Crystal Growth 74 (1986), p. 129. Abstract
[15]. P. Chandrasekharam, D. Raja Reddy and B.K. Reddy. J. Crystal Growth 63 (1983), p. 304. Abstract
[16]. R. Hill and R.B. Lauer. Mater. Res. Bull. 2 (1967), p. 861. Abstract
[17]. J.R. Cutter, G.J. Russell and J. Woods. J. Crystal Growth 32 (1976), p. 179. Abstract
[18]. M. Aven, R.B. Hall and J.S. Prener. J. Electrochem. Soc. 115 (1968), p. 846.
[19]. W. Palosz, F.R. Szofran and S.L. Lehoczky. J. Crystal Growth 148 (1995), p. 56. SummaryPlus | Full Text + Links | PDF (522 K)
[20]. H.L. Toor. AIChE J. 3 (1957), p. 198.
[21]. R.F. Brebrick. J. Electrochem. Soc. 116 (1969), p. 1274. Abstract-INSPEC
[22]. B. DeLargy, A. Finch and P.J. Gardner. J. Crystal Growth 61 (1983), p. 194. Abstract
[23]. H. Wiedemeier, D. Chandra and F.C. Klaessig. J. Crystal Growth 51 (1981), p. 345. Abstract
[24]. R.A. Svehla. NASA Technical Report R-132 (1962).
[25]. W. Palosz and H. Wiedemeier. J. Crystal Growth 129 (1993), p. 653. Abstract-INSPEC | Abstract-Compendex
[26]. R. Lauck, G. Müller-Vogt and W. Wendl. J. Crystal Growth 74 (1986), p. 520. Abstract
[27]. M.M. Faktor and I. Garrett, Growth of Crystals from the Vapour. , Chapman and Hall, London (1974).
[28]. J.H. Greenberg, V.N. Guskov, V.B. Lazarev and O.V. Shebershneva.
Mater. Res. Bull. 27 (1992), p. 847. Abstract
1 NRC Senior Research Associate.
| ||||||||||||||||||||||||||||||||||
Volume 148, Issues 1-2 , 2 February 1995, Pages 49-55 | ||||||||||||||||||||||||||||||||||
|
|
|
|
Send feedback to ScienceDirect |