High-energy implantation of Hg+ ions into GaAs grown by liquid encapsulated Czochralski method: formation of multiple shallow emissions

Kentaro Harada; Bassirou Lo; Yunosuke Makita; Aboubaker C. Beye; Matthew P. Halsall; Shinji Kimura; Naoto Kobayashi; Tsutomu Iida; Takayuki Shima; Hajime Shibata; Akira Obara; Tokue Matsumori

doi:10.1063/1.114804

High-energy implantation of Hg⁺ ions into GaAs grown by liquid encapsulated Czochralski method: formation of multiple shallow emissions

Kentaro Harada^*, Bassirou Lo, Yunosuke Makita, Aboubaker C. Beye, Matthew P. Halsall, Shinji Kimura, Naoto Kobayashi, Tsutomu Iida, Takayuki Shima, Hajime Shibata, Akira Obara, Tokue Matsumori

^*この研究の対応する著者

研究成果: Article › 査読

2 被引用数 (Scopus)

抄録

The incorporation of Hg atoms was carried out into liquid-encapsulated Czochralski GaAs by high-energy ion implantation. Hall effects measurements at room temperature and 2 K photoluminescence spectra revealed that rapid thermal annealing method is superior to furnace annealing method in view of electrical and optical activation. Activation rate of Hg acceptors as high as 30% was obtained. Optically activated Hg acceptor was found to produce at least six Hg-related shallow emissions in the vicinity of band edge. In addition to the conduction band to Hg acceptor transition, associated with moderately deep acceptor binding energy (52 meV) of Hg, the Hg majority acceptor is found to produce a neutral acceptor complex defect. Moreover, two relatively broad emissions, [g-g] and [g-g]α were noticeably observed which indicated apparent red- and blue-energy shift with increasing net hole concentration |N_A - N_D|, respectively.

本文言語	English
ページ（範囲）	2845-2847
ページ数	3
ジャーナル	Applied Physics Letters
巻	67
号	19
DOI	https://doi.org/10.1063/1.114804
出版ステータス	Published - 1995 11月 6
外部発表	はい

ASJC Scopus subject areas

物理学および天文学（その他）

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10.1063/1.114804

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引用スタイル

Harada, K., Lo, B., Makita, Y., Beye, A. C., Halsall, M. P., Kimura, S., Kobayashi, N., Iida, T., Shima, T., Shibata, H., Obara, A., & Matsumori, T. (1995). High-energy implantation of Hg⁺ ions into GaAs grown by liquid encapsulated Czochralski method: formation of multiple shallow emissions. Applied Physics Letters, 67(19), 2845-2847. https://doi.org/10.1063/1.114804

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abstract = "The incorporation of Hg atoms was carried out into liquid-encapsulated Czochralski GaAs by high-energy ion implantation. Hall effects measurements at room temperature and 2 K photoluminescence spectra revealed that rapid thermal annealing method is superior to furnace annealing method in view of electrical and optical activation. Activation rate of Hg acceptors as high as 30% was obtained. Optically activated Hg acceptor was found to produce at least six Hg-related shallow emissions in the vicinity of band edge. In addition to the conduction band to Hg acceptor transition, associated with moderately deep acceptor binding energy (52 meV) of Hg, the Hg majority acceptor is found to produce a neutral acceptor complex defect. Moreover, two relatively broad emissions, [g-g] and [g-g]α were noticeably observed which indicated apparent red- and blue-energy shift with increasing net hole concentration |NA - ND|, respectively.",

author = "Kentaro Harada and Bassirou Lo and Yunosuke Makita and Beye, {Aboubaker C.} and Halsall, {Matthew P.} and Shinji Kimura and Naoto Kobayashi and Tsutomu Iida and Takayuki Shima and Hajime Shibata and Akira Obara and Tokue Matsumori",

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AU - Beye, Aboubaker C.

AU - Halsall, Matthew P.

AU - Kimura, Shinji

AU - Kobayashi, Naoto

AU - Iida, Tsutomu

AU - Shima, Takayuki

AU - Shibata, Hajime

AU - Obara, Akira

AU - Matsumori, Tokue

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N2 - The incorporation of Hg atoms was carried out into liquid-encapsulated Czochralski GaAs by high-energy ion implantation. Hall effects measurements at room temperature and 2 K photoluminescence spectra revealed that rapid thermal annealing method is superior to furnace annealing method in view of electrical and optical activation. Activation rate of Hg acceptors as high as 30% was obtained. Optically activated Hg acceptor was found to produce at least six Hg-related shallow emissions in the vicinity of band edge. In addition to the conduction band to Hg acceptor transition, associated with moderately deep acceptor binding energy (52 meV) of Hg, the Hg majority acceptor is found to produce a neutral acceptor complex defect. Moreover, two relatively broad emissions, [g-g] and [g-g]α were noticeably observed which indicated apparent red- and blue-energy shift with increasing net hole concentration |NA - ND|, respectively.

AB - The incorporation of Hg atoms was carried out into liquid-encapsulated Czochralski GaAs by high-energy ion implantation. Hall effects measurements at room temperature and 2 K photoluminescence spectra revealed that rapid thermal annealing method is superior to furnace annealing method in view of electrical and optical activation. Activation rate of Hg acceptors as high as 30% was obtained. Optically activated Hg acceptor was found to produce at least six Hg-related shallow emissions in the vicinity of band edge. In addition to the conduction band to Hg acceptor transition, associated with moderately deep acceptor binding energy (52 meV) of Hg, the Hg majority acceptor is found to produce a neutral acceptor complex defect. Moreover, two relatively broad emissions, [g-g] and [g-g]α were noticeably observed which indicated apparent red- and blue-energy shift with increasing net hole concentration |NA - ND|, respectively.

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