本文分析了原子能级精细结构方面普遍存在的一些问题。
In this paper, we analyse some problems of the fine structure in atomic spectral analysis.
在能级精细结构的计算中不仅考虑了自旋-轨道相互作用还计及自旋-其他轨道相互作用。
Their fine structures are calculated by using spin-orbit and spin-other-orbit interaction operators.
介绍了原子能级的精细结构与超精细结构的产生原理,对研究原子能级精细结构的两个实验作了改进、设计及说明。
This article is aimed at introducing the generation principle of fine structure and hyperfine structure of atomic energy level, with its experimental result improved, designed and illustrated.
电子的相对论性运动在能级中产生精细结构。
Relativistic motion of the electron produces fine structure among the energy levels.
介绍了研究原子能级超精细结构的两个实验:磁共振实验、共线快离子束相互作用实验。
It follows that two experiments of hyperfine structure of atomic energy level which are called magnetic resonamce experiment and co-line expression beam interative experiment.
在玻尔理论基础上 ,以氢原子能级和氢原子光谱为主线 ,探讨了狄拉克理论、兰姆移位、氢原子光谱的超精细结构理论对氢原子理论的修正。
We advance a way to explore extra dimensions by calculating the change in hydrogen Lamb shift coursed by two extra dimensions, which gives theoretical basises for future experiments.
在玻尔理论基础上 ,以氢原子能级和氢原子光谱为主线 ,探讨了狄拉克理论、兰姆移位、氢原子光谱的超精细结构理论对氢原子理论的修正。
We advance a way to explore extra dimensions by calculating the change in hydrogen Lamb shift coursed by two extra dimensions, which gives theoretical basises for future experiments.
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