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Advances of the Vertical Directional Solidification Technique for the Growth of High Quality InSb Bulk Crystals

Advances of the Vertical Directional Solidification Technique for the Growth of High Quality InSb Bulk Crystals
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摘要 Since 1994, the vertical directional solidification (VDS) technique is employed for the growths of bulk crystals-without the seed, without contact to the ampoule wall, without coating and without external pressure, which leads to the detached growth. Growth velocities ranged from 3 mm/h to 10 mm/h, and rotation rates 10-20 rpm have been used. Ingots, 10-20 mm diameter and 60-65 mm length, have been grown with the conical ampoule geometry and these ingots have shown symmetric detachment. Crystals grown under such conditions showed the relatively low dislocation density and the highest carrier mobility,/tn = 5.9 x 104 cm2"Vl-sl than the crystal grown ever. For the detached crystals, the dislocation density is 104 cm"2 in conical region, and reached less than 103 cm-2 in the direction of the growth, when the ingots are not in contact with the ampoule wall. Experiments for indium-antimonide (InSb) growth have shown that the 80% growth environments have detachment, 15% entrapped in conical region and 5% attached.
出处 《Journal of Chemistry and Chemical Engineering》 2012年第3期250-258,共9页 化学与化工(英文版)
关键词 ANTIMONIDES growth from melt SOLIDIFICATION DETACHMENT crystal structure semiconductor indium compound. 定向凝固技术 晶体生长 锑化铟 垂直 散装 品质 载流子迁移率 位错密度
分类号 TN304.23 [电子电信—物理电子学] TB30 [一般工业技术—材料科学与工程]
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  • 1Wilcox, W. R.; Regel, L. L. Detached Solidification in Microgravity: A Review. Microgravity Sci. Technol. 1999, 14, 152-166 and 1995, 8, 56-61.
  • 2Witt, A. F.; Gatos, H. C.; Lichtensteiger, M.; Harmon, C. J. Crystal Growth and Steady-State Segration under Zero Gravity: InSb. J. Electrochem. Soc. 1975, 122, 276-283.
  • 3Duffer, T.; Paret-Harter, I.; Dusserre, P. Crucible de-Wetting during Bridgman Growth of Semiconductor in Microgravity Cryst. Growth 1990, 100, 171-184.
  • 4Wang, J. B.; Regel, L L.; Wilcox, W. R. Detached Solidification of InSb on Earth. Journal of Crystal Growth 2004, 260, 590-599 D.
  • 5Duffer, T.; Boiton, P.; Dusserre, P.; Abadie, J. Crucible de-Wetting ,:luring Bridgman Growth in Microgravity II, Smooth Crucible. J. Cryst. Growth 1997, 179, 397-401.
  • 6Fiederie, M.; Duffer, T.; Garander, J.; Babemsov, V.; Fauler, A.; Benz, K.; et al. Dewetted Growth and Characterization of High Resistivity CdTe. J. Cryst. Growth 2004, 267, 429-435.
  • 7Epure, S.; Duffer, T.; Braescu, L. Comparison between Analytical and Numeric Determination of the Interface Curvature during Dewetl;ed Bridgman Crystal Growth. J. Cryst. Growth 2008, 310. 1559-1563.
  • 8Braescu, L. Shape of Menisci in Terrestrial Dewetted Bridgman Growth. J. Colloid & Interface Sci. 2008, 319, 309-315.
  • 9Epure, S.; Duffer, T.; Braescu, L. On the Capillary Stability of the Crystal..Crucible Gap during Dewetted Bridgman Process. J. Cryst. Growth 2010, 312, 1416-1420.
  • 10Braescu, L. Nonlinear Boundary Value Problem of the Meniscus for the Dewetted Bridgman Crystal Growth Process. Int. J. Math. Model & Methods in Appl. Sci 2010, 4, 42-49.
Journal of Chemistry and Chemical Engineering
2012年 第3期

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