Matter and Radiation at Extremes, Volume. 10, Issue 2, 027201(2025)
X-ray transition and K-edge energies in dense finite-temperature plasmas: Challenges of a generalized approach with spectroscopic precision
[1] R. J.Taylor. The Stars: Their Structure and Evolution(1994).
[8] G. R.Griem. Principles of Plasma Spectroscopy(1997).
[9] D.Salzmann. Atomic Physics in Hot Plasma(1998).
[11] R. M.More. Atomic physics in inertial confinement fusion. LLNL technical report, No. UCRL-84991(1981).
[15] A.Unsöld. Zur Berechnung der Zustandssummen für Atome und Ionen in einem teilweise ionisierten Gas. Z. Astrophys., 24, 355(1948).
[27] V. A.Astapenko, V. S.Lisitsa, F. B.Rosmej. Springer Series on Atomic, Optical and Plasma Physics(2021).
[40] B. J. B.Crowley. Continuum lowering—A new perspective. High Energy Density Phys., 13, 84(2014).
[51] R. D.Cowan. The Theory of Atomic Structure and Spectra(1981).
[69] I. P.Grant. Relativistic Quantum Theory of Atoms and Molecules: Theory of Computations(2007).
Get Citation
Copy Citation Text
X. Li, F. B. Rosmej. X-ray transition and K-edge energies in dense finite-temperature plasmas: Challenges of a generalized approach with spectroscopic precision[J]. Matter and Radiation at Extremes, 2025, 10(2): 027201
Received: Aug. 27, 2024
Accepted: Dec. 24, 2024
Published Online: Apr. 30, 2025
The Author Email: X. Li (xiangdong_li@siom.ac.cn)