Dislocation Reduction by Glide in Epitaxial IV–VI Layers on Si Substrates

被引:0
|
作者
H. Zogg
机构
[1] ETH Zurich,Thin Film Physics Group
来源
Journal of Electronic Materials | 2012年 / 41卷
关键词
Molecular beam epitaxy; heteroepitaxy; dislocation reduction; lead chalcogenides;
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摘要
It is explained with a simple model why the reduction of threading dislocation (TD) densities in epitaxial lattice and thermal expansion mismatched IV–VI layers such as PbSe(111) on Si(111) substrates follows a 1/h2 dependence where h is the thickness of the layer. This is in contrast to the 1/h dependence for III–V and II–VI layers grown on mismatched substrates. The 1/h2 dependence results since the thermal mismatch strain is mainly reduced by glide and reactions of the TD in their main {100}-type glide system of the NaCl-type IV–VI semiconductors. In addition, multiple thermal cycles lead to further reduction of the TD densities by glide and fusion since fusion does not cause dislocation blocking.
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页码:1931 / 1935
页数:4
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