1) Equivalent Configuration
同科电子组态
1.
The Spin Factoring for Deriving Atomic Spectroscopic Terms of Equivalent Configuration;
自旋因式化法推求同科电子组态原子光谱项
2) equivalent electrons
同科电子
1.
Determination of atom term of equivalent electrons by Slater method in Matlab language;
借助于Matlab语言用Slater方法确定同科电子的光谱项
2.
A C++ programming to confirm spectroscopic terms of equivalent electrons system;
基于C++编程确定同科电子体系的光谱项
3.
The inference of spectral term of equivalent electrons using "Maple" mathematical software;
应用“Maple”数学软件来推求同科电子光谱项
3) equivalent electron
同科电子
1.
Some methods to confirm atomic state of equivalent electrons coupled through L-S interaction;
确定同科电子L-S耦合原子态的几种方法
2.
This paper discussed the quantum number combining law of the atomic state with two equivalent electrons in LS coupling which meet the requirement of Pauli principle,and the atomic state of two equivalent electrons is determined by use of the method.
讨论了满足泡利原理的同科电子L-S耦合原子态量子数的组合规律,并用量子数组合法简单的确定同科电子L-S耦合的原子态。
4) equal electrons
同科电子
1.
Inference of spectral term of five equal electrons;
五个同科电子形成的光谱项的推求
2.
Inference of spectral term of three equal electrons by delete principle;
用“删除法则”求3个同科电子的光谱项
3.
The spectral term of five equal electrons is calculated.
该文提出了推求同科电子体系在L—S耦合中确定光谱项的删除定则,并说明推求删除定则的步骤,且计算了5个同科电子所形成的光谱项。
5) electron configuration
电子组态
1.
Expressions of electron young tables for their energy matrixes of the equivalence electron configuration(l_+~2l_-~1);
等价电子组态(l_+~2l_-~1)的能量矩阵的电子杨表表示
2.
The relativistic effect is introduced,and it affects to the electron configuration and properties of the 6th periodic elements is discussed.
讨论了相对论效应及其对第6周期元素的电子组态和性质的影响,阐述了在相对论效应作用下金的化学性质并将它和汞与银的化学性质进行对比。
3.
The standard Young tables corresponding to the space quantum state of the electron configuration ( l N 1 +l N 2 - ) are called the electron Young tables.
:将对应于电子组态 (lN1 +lN2-)的空间量子状态的标准杨表称为电子杨表 ,并以电子组态 (l3+l1-)为例 ,揭示了电子杨表的波函数性质 ,用电子杨表完备地描述了该电子组态的谱项波函数和能量矩阵 。
6) electronic configuration
电子组态
1.
This paper studies the periodicity of atomic ground state which is determined by electronic configuration.
原子基态由电子组态确定,利用在元素周期表中同一族的元素具有相似的电结构的规律,使用列表的方法,可以确定当电子组态随原子序数Z的增加呈现周期性时,原子基态也随原子序数Z的增加呈现周期性。
2.
A simple and rapid method is suggested for deriving atomic spectral terms from equivalent electronic configuration.
介绍了原子光谱项 ,特别是等价电子组态原子光谱项的几种推导方法 ,提出一种推求等价电子组态原子光谱项的简便方法 ,该法简单、快捷 ,易熟练掌握 。
3.
The principal component analysis, one of pattern recognition methods, is applied to classification of electronic configuration of the odd parity spectrum of curium (CmⅡ) and some criteria for classification of configurations among 5f 87p、5f 76d7s、5f 76d 2 are obtained.
利用模式识别的主成分分析法 (PCA- Principal Component Analysis)对 Cm 奇宇称光谱的电子组态进行分类 ,得出 5 f87p、 5 f76 d7s、 5 f76 d2各组态间的分类判据。
补充资料:同科电子
分子式:
CAS号:
性质:具有相同主量子数(n)和轨道量子数(l)的电子。
CAS号:
性质:具有相同主量子数(n)和轨道量子数(l)的电子。
说明:补充资料仅用于学习参考,请勿用于其它任何用途。
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