锗注入硅在蓝宝石上的双固相外延

1990 IEEE SOS/SOI Technology Conference. Proceedings Pub Date : 1990-10-02 DOI:10.1109/SOSSOI.1990.145742

S. Peterstrom

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引用次数: 1

摘要

在0.3 μ m的蓝宝石上制备了注入锗的双固相外延材料。首先，在320 keV下以非对准方向注入4*10/sup 14/锗离子/cm/sup 2/。这种注入使硅的内部非晶化。分别在550、600、700、800、900或1000℃下退火，然后在100 keV下注入8*10/sup 14/锗离子/cm/sup 2/。植入在表面下形成了100 nm厚的非晶态层。在第二次退火处理中，每片晶片在与第一次退火处理相同的温度下，从硅晶体的内部外延再生出该层。在蓝宝石上注入锗的本征硅中，只有少量的注入诱导载流子形成。使用锗离子进行非晶化的另一个优点是，与硅离子相比，注入剂量可减少50%以上。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Double solid phase epitaxy of germanium implanted silicon on sapphire

Germanium-implanted double solid phase epitaxial (DSPE) material was produced in 0.3- mu m intrinsic silicon on sapphire. First, 4*10/sup 14/ germanium ions/cm/sup 2/ were implanted at 320 keV in a nonaligned direction. This implantation amorphized the inner part of the silicon. The wafers were annealed at 550, 600, 700, 800, 900 or 1000 degrees C. Next, 8*10/sup 14/ germanium ions/cm/sup 2/ were implanted at 100 keV. The implantation formed a 100-nm thick amorphous layer beneath the surface. This layer was epitaxially regrown from the inner part of the silicon crystal during the second annealing treatment, which was made at the same temperature as the first one for each wafer. Only a low number of implantation-induced carriers were formed in germanium-implanted intrinsic silicon on sapphire. Another advantage of using germanium for the amorphization is that the implantation dose can be reduced by more than 50% compared with silicon ions.<>

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1990 IEEE SOS/SOI Technology Conference. Proceedings

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