\begin{document}${\mathrm{K}}_{\text{β}} $\end{document} and \begin{document}$ {\mathrm{K}}_{\text{α}} $\end{document} (\begin{document}$\Delta E_{{\mathrm{K}}_{\text{β}}\text{-}{\mathrm{K}}_{\text{α}}}$\end{document}) of the compressed titanium (7.2–9.2 g/cm3, 1.6–2.4 eV) is about 2 eV smaller than that of cold titanium. Two theoretical methods, i.e. finite-temperature relativistic density functional theory (FTRDFT) and two-step Hartree-Fock-Slater (TSHFS), are used to calculate the fluorescence spectrum of warm dense titanium. The calculated results indicate that the energy difference (\begin{document}$\Delta E_{{\mathrm{K}}_{\text{β}}\text{-}{\mathrm{K}}_{\text{α}}} $\end{document}) decreases with the increase of density but changes slowly with the increase of temperature during the calculated state (4.5–13.5 g/cm3, 0.03–5 eV). The FTRDFT overestimates the density effect on the line shift, while TSHFS underestimates the density effect. The future work will focus on optimizing the experimental method of X-ray fluorescence spectroscopy, obtaining X-ray fluorescence spectrum of titanium with more states, and then testing the theoretical method for warm dense matter."> - 必威体育下载

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    Zhang Zhi-Yu, Zhao Yang, Qing Bo, Zhang Ji-Yan, Ma Jian-Yi, Lin Cheng-Liang, Yang Guo-Hong, Wei Min-Xi, Xiong Gang, Lü Min, Huang Cheng-Wu, Zhu Tuo, Song Tian-Ming, Zhao Yan, Zhang Yu-Xue, Zhang Lu, Li Li-Ling, Du Hua-Bing, Che Xing-Sen, Li Yu-Kun, Zhan Xia-Yu, Yang Jia-Min
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    • Abstract views:1476
    • PDF Downloads:79
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    Publishing process
    • Received Date:26 July 2023
    • Accepted Date:23 August 2023
    • Available Online:12 September 2023
    • Published Online:20 December 2023

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