Effects of the electric field on the aggregation of point defects in ion-irradiated α-Al2O3

K. Yasuda; T. Higuchi; K. Shiiyama; C. Kinoshita; K. Tanaka; M. Kutsuwada

doi:10.1080/0950083021000048172

Effects of the electric field on the aggregation of point defects in ion-irradiated α-Al₂O₃

K. Yasuda, T. Higuchi, K. Shiiyama, C. Kinoshita, K. Tanaka, M. Kutsuwada

エネルギー物質科学

研究成果: Contribution to journal › Article › 査読

5 被引用数 (Scopus)

抄録

We have investigated the effects of an electric field on the formation process of interstitial-type dislocation loops in α-Al₂O ₃ irradiated at 760 K with 100 keV He⁺ ions to a damage level of 0.5 displacements per atom. An electric field of 100 kV m^-1 depresses the density of dislocation loops and enhances their growth process, compared with the microstructure irradiated without an electric field. In addition, a higher fraction of interstitials escapes to surface sinks in a wedge-shaped thin-foil specimen when irradiated in the presence of an electric field. The kinetic behaviour of interstitials is discussed in terms of diffusion processes driven by the electric field and the concentration gradient. This is the first transmission electron microscopy observation to demonstrate the effects of an electric field on the aggregation of radiation-induced defects in α-Al₂O₃.

本文言語	英語
ページ（範囲）	21-28
ページ数	8
ジャーナル	Philosophical Magazine Letters
巻	83
号	1
DOI	https://doi.org/10.1080/0950083021000048172
出版ステータス	出版済み - 1 2003

All Science Journal Classification (ASJC) codes

Condensed Matter Physics

文献へのアクセス

10.1080/0950083021000048172

フィンガープリント「Effects of the electric field on the aggregation of point defects in ion-irradiated α-Al<sub>2</sub>O<sub>3</sub>」の研究トピックを掘り下げます。これらがまとまってユニークなフィンガープリントを構成します。

引用スタイル

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title = "Effects of the electric field on the aggregation of point defects in ion-irradiated α-Al2O3",

abstract = "We have investigated the effects of an electric field on the formation process of interstitial-type dislocation loops in α-Al2O 3 irradiated at 760 K with 100 keV He+ ions to a damage level of 0.5 displacements per atom. An electric field of 100 kV m-1 depresses the density of dislocation loops and enhances their growth process, compared with the microstructure irradiated without an electric field. In addition, a higher fraction of interstitials escapes to surface sinks in a wedge-shaped thin-foil specimen when irradiated in the presence of an electric field. The kinetic behaviour of interstitials is discussed in terms of diffusion processes driven by the electric field and the concentration gradient. This is the first transmission electron microscopy observation to demonstrate the effects of an electric field on the aggregation of radiation-induced defects in α-Al2O3.",

author = "K. Yasuda and T. Higuchi and K. Shiiyama and C. Kinoshita and K. Tanaka and M. Kutsuwada",

note = "Funding Information: ACKNOWLEDGEMENTS This work was supported in part by the Ministry of Education, Culture, Sports Science and Technology, grant-in-aid for young scientists under contract 13750658 and the TEPCO research foundation.",

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AU - Yasuda, K.

AU - Higuchi, T.

AU - Shiiyama, K.

AU - Kinoshita, C.

AU - Tanaka, K.

AU - Kutsuwada, M.

N1 - Funding Information: ACKNOWLEDGEMENTS This work was supported in part by the Ministry of Education, Culture, Sports Science and Technology, grant-in-aid for young scientists under contract 13750658 and the TEPCO research foundation.

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N2 - We have investigated the effects of an electric field on the formation process of interstitial-type dislocation loops in α-Al2O 3 irradiated at 760 K with 100 keV He+ ions to a damage level of 0.5 displacements per atom. An electric field of 100 kV m-1 depresses the density of dislocation loops and enhances their growth process, compared with the microstructure irradiated without an electric field. In addition, a higher fraction of interstitials escapes to surface sinks in a wedge-shaped thin-foil specimen when irradiated in the presence of an electric field. The kinetic behaviour of interstitials is discussed in terms of diffusion processes driven by the electric field and the concentration gradient. This is the first transmission electron microscopy observation to demonstrate the effects of an electric field on the aggregation of radiation-induced defects in α-Al2O3.

AB - We have investigated the effects of an electric field on the formation process of interstitial-type dislocation loops in α-Al2O 3 irradiated at 760 K with 100 keV He+ ions to a damage level of 0.5 displacements per atom. An electric field of 100 kV m-1 depresses the density of dislocation loops and enhances their growth process, compared with the microstructure irradiated without an electric field. In addition, a higher fraction of interstitials escapes to surface sinks in a wedge-shaped thin-foil specimen when irradiated in the presence of an electric field. The kinetic behaviour of interstitials is discussed in terms of diffusion processes driven by the electric field and the concentration gradient. This is the first transmission electron microscopy observation to demonstrate the effects of an electric field on the aggregation of radiation-induced defects in α-Al2O3.

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