正交算子:扩展到超精细结构以及等效 p 电子和 f 电子

IF 1.5 4区 物理与天体物理 Q3 OPTICS
Peter Uylings, Ton Raassen
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引用次数: 0

摘要

摘要 正交算子是复杂光谱半经验描述的下一步。正交性产生了最佳的独立性,从而使算子之间的相关性最小。拟合过程稳定性的提高可用于包含高阶多体效应和完全相对论效应。与传统的半经验方法相比,计算出的特征值通常要精确一个数量级。由此得到的特征向量不仅可以用来计算转变概率和 g 因子,还可以用来计算超细结构 A 常量和 B 常量。我们以两个铁族元素的第一光谱为例,说明我们在这一领域迈出的第一步。我们将结果与当前的实验超正弦结构 A 值进行了比较,同时讨论了该方法的强项和弱项。特别是为了能够处理镧系元素和锕系元素,通过定义等效 p 电子和 f 电子的算子完成了正交算子方法。 图形摘要
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Orthogonal operators: extension to hyperfine structure and equivalent p- and f-electrons

Orthogonal operators are a next step in the semi-empirical description of complex spectra. Orthogonality yields optimal independence and thus least correlation between the operators. The increased stability of the fitting process is used to include higher-order many-body as well as fully relativistic effects. The calculated eigenvalues are frequently an order of magnitude more accurate with respect to a conventional semi-empirical approach. The resulting eigenvectors may not only be put to use to calculate transition probabilities and g-factors, but also to calculate hyperfine structure A and B constants. We illustrate our first steps in this field with two examples of first spectra of the iron group elements. The results are compared to current experimental hyperfine structure A-values while strong and weak points of the method are discussed. In particular to be able to deal with lanthanides and actinides, the orthogonal operator method is completed with the definition of operators for equivalent p- and f-electrons.

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来源期刊
The European Physical Journal D
The European Physical Journal D 物理-物理:原子、分子和化学物理
CiteScore
3.10
自引率
11.10%
发文量
213
审稿时长
3 months
期刊介绍: The European Physical Journal D (EPJ D) presents new and original research results in: Atomic Physics; Molecular Physics and Chemical Physics; Atomic and Molecular Collisions; Clusters and Nanostructures; Plasma Physics; Laser Cooling and Quantum Gas; Nonlinear Dynamics; Optical Physics; Quantum Optics and Quantum Information; Ultraintense and Ultrashort Laser Fields. The range of topics covered in these areas is extensive, from Molecular Interaction and Reactivity to Spectroscopy and Thermodynamics of Clusters, from Atomic Optics to Bose-Einstein Condensation to Femtochemistry.
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