1. Extreme ultraviolet 4p and 4d excitation spectra in laser-produced Ag plasmas.
- Author
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Li, Maijuan, Su, Maogen, Li, Haoyang, Zhang, Guoding, Min, Qi, Cao, Shiquan, Sun, Duixiong, Zhang, Denghong, and Dong, Chenzhong
- Subjects
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LASER plasmas , *ULTRAVIOLET spectra , *EMISSION spectroscopy , *EXCITED states , *SPECTRAL lines , *EXCITATION spectrum , *LASER-induced breakdown spectroscopy - Abstract
• A systematic study of spatiotemporal evolution of extreme ultraviolet spectra in laser-produced silver (Ag) plasmas is performed with aid of a spatio-temporally resolved emission spectroscopy and multiconfiguration Hartree-Fock calculations. • Complex spectral structures were accurately revealed based on the assumption of a normalized Boltzmann distribution among the excited states and a steady-state collision-radiative model, which are dominated from the contributions of 4p and 4d excitations of Ag7+–Ag13+ ions. • Theoretical plasma-state parameters near the target surface at the initial stage of the laser-produced Ag plasma were determined via the steady-state collision-radiation model. Experimental and theoretical analyses are reported for the spatiotemporal evolution of extreme ultraviolet spectra in laser-produced silver (Ag) plasmas. The time-resolved spectra were acquired 1.5 mm from the target surface. The 4p and 4d excitations of Ag7+–Ag13+ ions were calculated with the aid of multiconfiguration Hartree-Fock calculations. The spectral line distributions of transitions in the dominant 4p and 4d excitation configurations and their variations with the degree of ionization were analyzed. Complex spectral structures were accurately revealed based on the assumption of a normalized Boltzmann distribution among the excited states and a steady-state collision-radiative model. Experimental peak origins were identified by comparing experimental and simulated spectra. These results will provide data for energy-level structures of highly-charged ions of middle- and high-Z elements and their radiative characteristics in plasmas. [ABSTRACT FROM AUTHOR]
- Published
- 2023
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