\begin{document}$V_{\rm O}^{ + 2}$\end{document} (the +2 charged O vacancy) defects at the pressure range of 131–255 GPa. It is found that: 1) there are obvious crystal-orientation effects of the extinction in shocked Al2O3 at high-pressure region, and they strengthen with increasing pressure; 2) shock-induced \begin{document}$V_{\rm O}^{ + 2}$\end{document} defects could play an important role in determining these crystal-orientation effects, but the influences of pressure and temperature factors on them are relatively weak. A further analysis shows that, at the wavelength range adopted in shock experiments, the extinction of a-orientation is the weakest (the best transparency), the extinction of c-orientation is the strongest (the worst transparency), and the extinction of s-orientation is between them; at the same time, the extinction of m-orientation is similar to that of a-orientation, the extinction of r-, n- and d-orientations is close to that of c-orientation, and the extinction of g-orientation is weaker than that of s-orientation. In view of this, we suggest that the a- or m-oriented Al2O3 is chosen as an optical window in shock-wave experiments of the high-pressure region. Our predictions could be not only helpful to understand further the optical properties of Al2O3 at extreme conditions, but also important for future experimental study."> - 必威体育下载

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    Li Tian-Jing, Cao Xiu-Xia, Tang Shi-Hui, He Lin, Meng Chuan-Min
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    • Abstract views:7041
    • PDF Downloads:63
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    Publishing process
    • Received Date:19 June 2019
    • Accepted Date:13 December 2019
    • Published Online:20 February 2020

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