Abstract
The growth dynamics of the μ-pulling down method are fully presented, focusing on the basic requirements for growth and on the solute distribution in the solid and melt during growth. The μ-PD method bears the differentiated solute transportation zones, i.e. the capillary and molten zones that characterize the effective partition coefficient with unity for the electrically neutral solute. A large temperature gradient near the interface is another attribute leading to an interface electric field that modifies the solute partitioning for ionic solutes in the melt.
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References
K. Shimamura, S. Uda, T. Yamada, S. Sakaguchi, T. Fukuda, Jpn. J. Appl. Phys. 35 (1996) L793.
R. S. Feigelson, J. Cryst. Growth 79 (1986) 669.
T. Surek, B. Chalmers, J. Cryst. Growth 29 (1975) 1.
V. A. Tatarchenko, J. Cryst. Growth 37 (1977) 272.
D. H. Yoon, I. Yonenaga, T. Fukuda, N. Ohnishi, J. Crystal Growth 142 (1994) 339.
D. H. Yoon, P. Rudolph, T. Fukuda, J. Crystal Growth 144 (1994) 207.
N. Schäfer, T. Yamada, K. Shimamura, H. J. Koh, T. Fukuda, J. Crystal Growth 166 (1996) 675.
H. J. Koh, N. Schäfer, K. Shimamura, T. Fukuda, J. Crystal Growth 167 (1996) 38.
S. Uda, J. Kon, K. Shimamura, T. Fukuda, J. Cryst. Growth 167, (1996) 64.
J. A. Burton, R. C. Prim, W. P. Slichter, J. Chem. Phys. 21 (1953) 1987.
K. Shimamura, K. Sugiyama, S. Uda, T. Fukuda, Jpn. J. Appl. Phys. 34 (1995) 4894.
V. G. Smith, W. A. Tiller, J. W. Rutter, Can. J. Phys. 33 (1955) 723.
W. A. Tiller, K. A. Jackson, J. W. Rutter, B Chalmers, Acta Met. 1 (1953) 428.
J. A. Neider, R. Mead, Computer J. 7 (1965) 308.
H. Kodera, Jpn. J. Appl. Phys. 2 (1963) 212.
V. N. Romanenko, Y. M. Smirnov, Inorg. Mater. 6 (1970) 1527.
H. Sasaki, Y. Anzai, X. M. Huang, K. Terashima, S. Kimura, Jpn. J. Appl. Phys. 34 (1995) 414.
H. Sasaki, E. Tokizaki, X. M. Huang, T. Terashima, S. Kimura, Jpn. J. Appl. Phys. 34 (1995) 3432.
H. Sasaki, E. Tokizaki, T. Terashima, S. Kimura, Jpn. J. Appl. Phys. 33 (1994) 3803.
H. Sasaki, E. Tokizaki, T. Terashima, S. Kimura, Jpn. J. Appl. Phys. 33 (1994) 6078.
C. T. Yen, W. A. Tiller, J. Crystal Growth 118 (1992) 259.
A. G. Ostrogorsky, G. Müller, J. Crystal Growth 121 (1992) 587.
J. P. Garandet, J. J. Favier, D. Camel, J. Crystal Growth 130 (1993) 113.
J. P. Garandet, J. Crystal Growth 131 (1993) 431.
S. Uda, W. A. Tiller, J. Crystal Growth 121, (1992) 93.
S. Uda, W. A. Tiller, J. Crystal Growth 126, (1993) 396.
V. A. D’yakov, D. P. Shumov, L. N. Rashkovich, A. L. Aleksandrovskii, Bulletin of the Academy of Sciences of the USSR. Physical Series 49 (1986) 117.
J. R. Owen, E. A. D. White, J. Crystal Growth 42 (1977) 499.
Y. S. Luh, R. S. Feigelson, M. M. Fejer, R. L. Byer, J. Crystal Growth 78 (1986) 135.
C. T. Yen, D. O. Nason, W. A. Tiller, J. Mater. Res. 1 (1992) 980.
A. Feisst, A. Räuber, J. Crystal Growth 63 (1983) 337.
A. Feisst, P. Koidl, Appl. Phys. Lett. 47 (1985) 1125.
S. Uda, W. A. Tiller, J. Crystal Growth 121 (1992) 155.
W. A. Tiller, S. Uda, J. Crystal Growth 129 (1993) 341.
S. Uda, K. Shimamura, T. Fukuda, J. Crystal Growth 155 (1995) 229.
S. Uda, J. Kon, J. Ichikawa, K. Inaba, K. Shimamura, T. Fukuda, J. Cryst. Growth 179 (1997) 567.
P. F. Bordui, R. G. Norwood, C. D. Bird, G. D. Calvert, J. Crystal Growth 113, (1991) 61.
R. S. Feigelson, W. L. Kway, R. K. Route, Optical Engineering 24, (1985) 1102.
A. Räuber, in Current Topics in Materials Science, E. Kaldis, Ed. ( North-Holland, Amsterdam, 1978 ), vol. 1, pp. 481.
W. A. Tiller, R. F. Sekerka, J. Appl. Phys. 35 (1964) 2726.
S. Uda, W. A. Tiller, J. Crystal Growth 152 (1995) 79.
W. A. Tiller, S. Uda, J. Crystal Growth 129 (1993) 328.
K. Imai, M. Imaeda, S. Uda, T. Taniuchi, T. Fukuda, J. Cryst. Growth 177 (1997) 7987.
S. Uda, J. Kon, J. Ichikawa, K. Inaba, K. Shimamura, T. Fukuda, J. Crystal Growth, 182 (1997) 403.
P. K. Gallagher, J. H. M. O’Bryan, J. Am. Ceram. Soc. 68 (1985) 147.
H. M. O’Bryan, P. K. Gallagher, C. D. Brandle, J. Am. Ceram. Soc. 68 (1985) 493.
R. Zuo and Z. Guo, J. Cryst. Growth 158 (1996) 377.
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Uda, S. (2004). Fundamentals of Growth Dynamics of the μ-Pulling Down Method. In: Fukuda, T., Rudolph, P., Uda, S. (eds) Fiber Crystal Growth from the Melt. Advances in Materials Research, vol 6. Springer, Berlin, Heidelberg. https://doi.org/10.1007/978-3-662-07214-1_2
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DOI: https://doi.org/10.1007/978-3-662-07214-1_2
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