\begin{document}${\rm{Sn}}^{6+}$\end{document}-\begin{document}${\rm{Sn}}^{14+}$\end{document}. The electronic correlation effects of \begin{document}$4{\rm d}^m\text{-}4{\rm f}^m$\end{document}(\begin{document}$m=1, 2, 3, 4$\end{document}) and \begin{document}$ 4\mathrm{p}^n\text{-}4\mathrm{d}^n $\end{document}(\begin{document}$n=1, 2, 3$\end{document}) are mainly considered, which dominate the radiation near 13.5 nm. The number of fine-structure levels reaches about 200000 for each ionization stage in the present large-scale configuration interaction calculations. For the large oscillator strengths (> 0.01), the length form is in accord with the velocity form and their relative difference is about 20%–30%. The calculated transmission spectra of Sn plasma at 30 eV and 0.01 g/cm3 are compared with the experimental result, respectively, showing that they have both good consistency. The radiative opacity and emissivity of Sn plasma at the temperature in a range of 16–30 eV and density in a scope of of 0.0001–0.1 g/cm3 are investigated systematically. The effects of the plasma temperature and plasma density on radiation characteristics are studied. The results show that the radiative properties near 13.5 nm are broadened with the increase of density at a specific temperature, while it is narrowed with the increase of temperature for a specific density. The present investigation should be helpful in designing and studying EUV light source in the future."> - 必威体育下载

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Gao Cheng, Liu Yan-Peng, Yan Guan-Peng, Yan Jie, Chen Xiao-Qi, Hou Yong, Jin Feng-Tao, Wu Jian-Hua, Zeng Jiao-Long, Yuan Jian-Min
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  • Abstract views:3026
  • PDF Downloads:109
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  • Received Date:26 March 2023
  • Accepted Date:04 May 2023
  • Available Online:20 June 2023
  • Published Online:20 September 2023

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