Quantitative evaluation of germanium displacement induced by arsenic implantation using germanium isotope superlattices

Yoko Kawamura; Yasuo Shimizu; Hiroyuki Oshikawa; Masashi Uematsu; Eugene E. Haller; Kohei M. Itoh

doi:10.1016/j.physb.2009.08.107

Quantitative evaluation of germanium displacement induced by arsenic implantation using germanium isotope superlattices

Yoko Kawamura, Yasuo Shimizu, Hiroyuki Oshikawa, Masashi Uematsu, Eugene E. Haller, Kohei M. Itoh

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研究成果: Article › 査読

7 被引用数 (Scopus)

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The displacement of germanium (Ge) atoms induced by arsenic (As) ion implantation at room temperature was investigated using Ge isotope superlattices grown by molecular beam epitaxy. The depth profiles of ⁷⁴Ge isotopes in the ⁷⁰Ge/^natGe isotope superlattices before and after ion implantation were obtained by secondary ion mass spectrometry. By representing the experimental data using a conventional integral model, Ge atomic displacement as a function of depth was obtained, from which we determined that 0.75 nm is the critical displacement necessary to make the structure appear amorphous under examination by cross-sectional transmission electron microscopy. However, we found that the amorphous Ge layers were recrystallized due to a local elevation of temperature caused by the implantation, which indicates that the samples should be cooled down during implantation to avoid the regrowth of amorphous Ge layers for this analysis.

本文言語	English
ページ（範囲）	4546-4548
ページ数	3
ジャーナル	Physica B: Condensed Matter
巻	404
号	23-24
DOI	https://doi.org/10.1016/j.physb.2009.08.107
出版ステータス	Published - 2009 12月 15

ASJC Scopus subject areas

電子材料、光学材料、および磁性材料
凝縮系物理学
電子工学および電気工学

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10.1016/j.physb.2009.08.107

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title = "Quantitative evaluation of germanium displacement induced by arsenic implantation using germanium isotope superlattices",

abstract = "The displacement of germanium (Ge) atoms induced by arsenic (As) ion implantation at room temperature was investigated using Ge isotope superlattices grown by molecular beam epitaxy. The depth profiles of 74Ge isotopes in the 70Ge/natGe isotope superlattices before and after ion implantation were obtained by secondary ion mass spectrometry. By representing the experimental data using a conventional integral model, Ge atomic displacement as a function of depth was obtained, from which we determined that 0.75 nm is the critical displacement necessary to make the structure appear amorphous under examination by cross-sectional transmission electron microscopy. However, we found that the amorphous Ge layers were recrystallized due to a local elevation of temperature caused by the implantation, which indicates that the samples should be cooled down during implantation to avoid the regrowth of amorphous Ge layers for this analysis.",

keywords = "Amorphous, Arsenic, Germanium, Ion implantation, Isotopes",

author = "Yoko Kawamura and Yasuo Shimizu and Hiroyuki Oshikawa and Masashi Uematsu and Haller, {Eugene E.} and Itoh, {Kohei M.}",

note = "Funding Information: We gratefully acknowledge Prof. W. Vandervorst and Selete Corporation, with whom we had many fruitful discussions. This work has been supported in part by the Research Program on Collaborative Development of Innovative Seeds by JST, Special Coordination Funds for Promoting Science and Technology, and Grant-in-Aid for the Keio Global Center of Excellence for High-Level Global Cooperation for Leading-Edge Platform on Access Spaces from the Ministry of Education, Culture, Sport, Science, and Technology in Japan.",

year = "2009",

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doi = "10.1016/j.physb.2009.08.107",

language = "English",

volume = "404",

pages = "4546--4548",

journal = "Physica B: Condensed Matter",

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TY - JOUR

T1 - Quantitative evaluation of germanium displacement induced by arsenic implantation using germanium isotope superlattices

AU - Kawamura, Yoko

AU - Shimizu, Yasuo

AU - Oshikawa, Hiroyuki

AU - Uematsu, Masashi

AU - Haller, Eugene E.

AU - Itoh, Kohei M.

N1 - Funding Information: We gratefully acknowledge Prof. W. Vandervorst and Selete Corporation, with whom we had many fruitful discussions. This work has been supported in part by the Research Program on Collaborative Development of Innovative Seeds by JST, Special Coordination Funds for Promoting Science and Technology, and Grant-in-Aid for the Keio Global Center of Excellence for High-Level Global Cooperation for Leading-Edge Platform on Access Spaces from the Ministry of Education, Culture, Sport, Science, and Technology in Japan.

PY - 2009/12/15

Y1 - 2009/12/15

N2 - The displacement of germanium (Ge) atoms induced by arsenic (As) ion implantation at room temperature was investigated using Ge isotope superlattices grown by molecular beam epitaxy. The depth profiles of 74Ge isotopes in the 70Ge/natGe isotope superlattices before and after ion implantation were obtained by secondary ion mass spectrometry. By representing the experimental data using a conventional integral model, Ge atomic displacement as a function of depth was obtained, from which we determined that 0.75 nm is the critical displacement necessary to make the structure appear amorphous under examination by cross-sectional transmission electron microscopy. However, we found that the amorphous Ge layers were recrystallized due to a local elevation of temperature caused by the implantation, which indicates that the samples should be cooled down during implantation to avoid the regrowth of amorphous Ge layers for this analysis.

AB - The displacement of germanium (Ge) atoms induced by arsenic (As) ion implantation at room temperature was investigated using Ge isotope superlattices grown by molecular beam epitaxy. The depth profiles of 74Ge isotopes in the 70Ge/natGe isotope superlattices before and after ion implantation were obtained by secondary ion mass spectrometry. By representing the experimental data using a conventional integral model, Ge atomic displacement as a function of depth was obtained, from which we determined that 0.75 nm is the critical displacement necessary to make the structure appear amorphous under examination by cross-sectional transmission electron microscopy. However, we found that the amorphous Ge layers were recrystallized due to a local elevation of temperature caused by the implantation, which indicates that the samples should be cooled down during implantation to avoid the regrowth of amorphous Ge layers for this analysis.

KW - Amorphous

KW - Arsenic

KW - Germanium

KW - Ion implantation

KW - Isotopes

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JO - Physica B: Condensed Matter

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Quantitative evaluation of germanium displacement induced by arsenic implantation using germanium isotope superlattices

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