Annealing properties of Si-atomic-layer-doped GaAs

Yoshiharu Yamauchi; Toshiki Makimoto; Yoshiji Horikoshi

doi:10.1143/JJAP.28.L1689

Annealing properties of Si-atomic-layer-doped GaAs

Yoshiharu Yamauchi, Toshiki Makimoto, Yoshiji Horikoshi

研究成果: Article › 査読

5 被引用数 (Scopus)

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Si-atomic-layer-doped GaAs layers are grown at 520°C by flow-rate modulation epitaxy using a 1-s silane pulse. Carrier profiles are measured by the capacitance-voltage method before and after annealing at 700, 800, and 900°C. The sheet carrier concentration increases with the silane mole fraction, and saturates at about 3×10¹² cm^-2. The samples with saturated sheet carrier concentrations exhibit a distinct plateau at the top of the carrier concentration profile after annealing, while the samples with unsaturated sheet carrier concentrations show normal Gaussian-like broadening. The peak carrier concentration at the plateau of the annealed sample is found to be sensitive to annealing temperature, indicating that the carrier concentration is controlled by some thermodynamic limitation.

本文言語	English
ページ（範囲）	L1689-L1692
ジャーナル	Japanese journal of applied physics
巻	28
号	10 A
DOI	https://doi.org/10.1143/JJAP.28.L1689
出版ステータス	Published - 1989 10月
外部発表	はい

ASJC Scopus subject areas

工学（全般）
物理学および天文学（全般）

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10.1143/JJAP.28.L1689

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title = "Annealing properties of Si-atomic-layer-doped GaAs",

abstract = "Si-atomic-layer-doped GaAs layers are grown at 520°C by flow-rate modulation epitaxy using a 1-s silane pulse. Carrier profiles are measured by the capacitance-voltage method before and after annealing at 700, 800, and 900°C. The sheet carrier concentration increases with the silane mole fraction, and saturates at about 3×1012 cm-2. The samples with saturated sheet carrier concentrations exhibit a distinct plateau at the top of the carrier concentration profile after annealing, while the samples with unsaturated sheet carrier concentrations show normal Gaussian-like broadening. The peak carrier concentration at the plateau of the annealed sample is found to be sensitive to annealing temperature, indicating that the carrier concentration is controlled by some thermodynamic limitation.",

keywords = "Annealing property, Atomic layer doping, Flow-rate modulation epitaxy",

author = "Yoshiharu Yamauchi and Toshiki Makimoto and Yoshiji Horikoshi",

year = "1989",

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T1 - Annealing properties of Si-atomic-layer-doped GaAs

AU - Yamauchi, Yoshiharu

AU - Makimoto, Toshiki

AU - Horikoshi, Yoshiji

PY - 1989/10

Y1 - 1989/10

N2 - Si-atomic-layer-doped GaAs layers are grown at 520°C by flow-rate modulation epitaxy using a 1-s silane pulse. Carrier profiles are measured by the capacitance-voltage method before and after annealing at 700, 800, and 900°C. The sheet carrier concentration increases with the silane mole fraction, and saturates at about 3×1012 cm-2. The samples with saturated sheet carrier concentrations exhibit a distinct plateau at the top of the carrier concentration profile after annealing, while the samples with unsaturated sheet carrier concentrations show normal Gaussian-like broadening. The peak carrier concentration at the plateau of the annealed sample is found to be sensitive to annealing temperature, indicating that the carrier concentration is controlled by some thermodynamic limitation.

AB - Si-atomic-layer-doped GaAs layers are grown at 520°C by flow-rate modulation epitaxy using a 1-s silane pulse. Carrier profiles are measured by the capacitance-voltage method before and after annealing at 700, 800, and 900°C. The sheet carrier concentration increases with the silane mole fraction, and saturates at about 3×1012 cm-2. The samples with saturated sheet carrier concentrations exhibit a distinct plateau at the top of the carrier concentration profile after annealing, while the samples with unsaturated sheet carrier concentrations show normal Gaussian-like broadening. The peak carrier concentration at the plateau of the annealed sample is found to be sensitive to annealing temperature, indicating that the carrier concentration is controlled by some thermodynamic limitation.

KW - Annealing property

KW - Atomic layer doping

KW - Flow-rate modulation epitaxy

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Annealing properties of Si-atomic-layer-doped GaAs

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