Effects of hydrogen treatment on strain relaxation of SiGe epi-layer on Ge substrate

Y. Yamashita; R. Nakagawa; Y. Sakamoto; T. Ishiyama; Y. Kamiura

doi:10.1016/j.physb.2005.12.054

Effects of hydrogen treatment on strain relaxation of SiGe epi-layer on Ge substrate

Y. Yamashita, R. Nakagawa, Y. Sakamoto, T. Ishiyama, Y. Kamiura

Research output: Contribution to journal › Conference article › peer-review

2 Citations (Scopus)

Abstract

Effects of hydrogen treatment on post-growth strain relaxation of GeSi epitaxial films on Ge substrate were studied. We found that pre-hydrogen treatment at room temperature enhanced strain relaxation during subsequent thermal treatment. We also confirmed that the relaxation enhancement effect became small as the annealing time was elongated and the temperature was raised. These results mean that the effect is more remarkable in the early stage of relaxation. In order to investigate the mechanism of this effect, threading dislocation velocity was measured. However, it was not enhanced by pre-hydrogenation. This fact strongly suggests that the relaxation enhancement effect was caused by increase of dislocation sources, which are attributed to hydrogen atoms incorporated into GeSi film.

Original language	English
Pages (from-to)	204-207
Number of pages	4
Journal	Physica B: Condensed Matter
Volume	376-377
Issue number	1
DOIs	https://doi.org/10.1016/j.physb.2005.12.054
Publication status	Published - Apr 1 2006
Event	Proceedings of the 23rd International Conference on Defects in Semiconductors - Duration: Jul 24 2005 → Jul 29 2005

Keywords

Hydrogen
Relaxation of misfit strain
SiGe

ASJC Scopus subject areas

Electronic, Optical and Magnetic Materials
Condensed Matter Physics
Electrical and Electronic Engineering

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10.1016/j.physb.2005.12.054

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title = "Effects of hydrogen treatment on strain relaxation of SiGe epi-layer on Ge substrate",

abstract = "Effects of hydrogen treatment on post-growth strain relaxation of GeSi epitaxial films on Ge substrate were studied. We found that pre-hydrogen treatment at room temperature enhanced strain relaxation during subsequent thermal treatment. We also confirmed that the relaxation enhancement effect became small as the annealing time was elongated and the temperature was raised. These results mean that the effect is more remarkable in the early stage of relaxation. In order to investigate the mechanism of this effect, threading dislocation velocity was measured. However, it was not enhanced by pre-hydrogenation. This fact strongly suggests that the relaxation enhancement effect was caused by increase of dislocation sources, which are attributed to hydrogen atoms incorporated into GeSi film.",

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T1 - Effects of hydrogen treatment on strain relaxation of SiGe epi-layer on Ge substrate

AU - Yamashita, Y.

AU - Nakagawa, R.

AU - Sakamoto, Y.

AU - Ishiyama, T.

AU - Kamiura, Y.

PY - 2006/4/1

Y1 - 2006/4/1

N2 - Effects of hydrogen treatment on post-growth strain relaxation of GeSi epitaxial films on Ge substrate were studied. We found that pre-hydrogen treatment at room temperature enhanced strain relaxation during subsequent thermal treatment. We also confirmed that the relaxation enhancement effect became small as the annealing time was elongated and the temperature was raised. These results mean that the effect is more remarkable in the early stage of relaxation. In order to investigate the mechanism of this effect, threading dislocation velocity was measured. However, it was not enhanced by pre-hydrogenation. This fact strongly suggests that the relaxation enhancement effect was caused by increase of dislocation sources, which are attributed to hydrogen atoms incorporated into GeSi film.

AB - Effects of hydrogen treatment on post-growth strain relaxation of GeSi epitaxial films on Ge substrate were studied. We found that pre-hydrogen treatment at room temperature enhanced strain relaxation during subsequent thermal treatment. We also confirmed that the relaxation enhancement effect became small as the annealing time was elongated and the temperature was raised. These results mean that the effect is more remarkable in the early stage of relaxation. In order to investigate the mechanism of this effect, threading dislocation velocity was measured. However, it was not enhanced by pre-hydrogenation. This fact strongly suggests that the relaxation enhancement effect was caused by increase of dislocation sources, which are attributed to hydrogen atoms incorporated into GeSi film.

KW - Hydrogen

KW - Relaxation of misfit strain

KW - SiGe

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Effects of hydrogen treatment on strain relaxation of SiGe epi-layer on Ge substrate

Abstract

Keywords

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