\begin{document}$\left\langle {110} \right\rangle $\end{document}has been captured, as well as the collective 1D motion of an array of dislocation loops in the direction of Burgers vector 1/3\begin{document}$\left\langle {111} \right\rangle $\end{document} under 200 keV electron irradiation. In addition, 1D motion of dislocation loops up to micron-scale range along the direction of Burgers vector 1/3\begin{document}$\left\langle {111} \right\rangle $\end{document}, and up to a few hundred nanometers range along the direction of Burgers vector 1/2\begin{document}$\left\langle {110} \right\rangle $\end{document} have been found, which is different from previous literature works. A characteristic migration track would form behind the moving dislocation loop, lasting for about tens of seconds. The more rapid the dislocation loop motion, the longer the migration track length is. The concentration gradient of SIAs by electron irradiation and the redistribution of hydrogen atoms caused by the moving dislocation loops may account for the observed micron-scale 1D motion of dislocation loops and the migration tracks."> <i>In-situ</i> study of one-dimensional motion of interstitial-type dislocation loops in hydrogen-ion-implanted aluminum - 必威体育下载

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Li Ran-Ran, Zhang Yi-Fan, Yin Yu-Peng, Watanabe Hideo, Han Wen-Tuo, Yi Xiao-Ou, Liu Ping-Ping, Zhang Gao-Wei, Zhan Qian, Wan Fa-Rong
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  • Abstract views:4855
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  • Received Date:01 July 2021
  • Accepted Date:13 September 2021
  • Available Online:26 December 2021
  • Published Online:05 January 2022

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