铁族元素(铁、钴和镍)的光离子化研究:理论与实验的比较

IF 0.4 Q4 PHYSICS, PARTICLES & FIELDS
M. T. Gning, I. Sakho
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引用次数: 0

摘要

本文在单位核电荷筛选常数(SCUNC)方法的框架内研究了铁族元素(Fe、Co 和 Ni)的光离子化(PI)。报告了在这三种过渡元素的 PI 光谱中发现的若干自电离 Rydberg 共振系列的共振能。这项被认为是首次理论研究的 SCUNC 计算结果与现有的实验数据进行了比较,结果表明理论计算值与实验数据的偏差极小。获得的对应关系非常令人满意,澄清了某些系列测得的不确定共振能量。这种比较增强了人们对现有实验和理论数据的信心,也增强了人们对本研究为天体物理应用推断的新数据的信心。这项工作中提出的铁、钴和镍的理论数据为改进过渡元素的基本原子数据库做出了重要贡献,为未来的计算和潜在的天体物理应用提供了宝贵的参考。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

Photoionization Study of Iron-Group Elements (Fe, Co, and Ni): Comparison of Theory and Experiment

Photoionization Study of Iron-Group Elements (Fe, Co, and Ni): Comparison of Theory and Experiment

Photoionization (PI) of iron-group elements (Fe, Co, and Ni) is investigated in this article in the framework of the screening constant per unit nuclear charge (SCUNC) method. The resonance energies of several series of autoionizing Rydberg resonances identified in the PI spectra of these three transition elements are reported. The results of the SCUNC calculations in this study, which is considered to be the first theoretical study, are compared with the available experimental data and show minimal deviation of the theoretically calculated values from the experimental data. The correspondences obtained are very satisfactory, clarifying the uncertain resonance energies measured for certain series. This comparison reinforces confidence in the available experimental and theoretical data, as well as in the new data extrapolated in this study for astrophysical applications. The theoretical data for iron, cobalt and nickel presented in this work make a significant contribution to improving the fundamental atomic database of transition elements, providing valuable references for future calculations and potential astrophysical applications.

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来源期刊
Physics of Particles and Nuclei Letters
Physics of Particles and Nuclei Letters PHYSICS, PARTICLES & FIELDS-
CiteScore
0.80
自引率
20.00%
发文量
108
期刊介绍: The journal Physics of Particles and Nuclei Letters, brief name Particles and Nuclei Letters, publishes the articles with results of the original theoretical, experimental, scientific-technical, methodological and applied research. Subject matter of articles covers: theoretical physics, elementary particle physics, relativistic nuclear physics, nuclear physics and related problems in other branches of physics, neutron physics, condensed matter physics, physics and engineering at low temperatures, physics and engineering of accelerators, physical experimental instruments and methods, physical computation experiments, applied research in these branches of physics and radiology, ecology and nuclear medicine.
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