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1.
Core Polarization Effect for Oscillator Strengths of Alkali Atoms
碱金属原子振子强度的核实极化效应
2.
Energy and oscillator strength of Sc~(18+) ion
Sc~(18+)离子的能量和振子强度
3.
The Relativistic Correction to Oscillator Strength Sum of Hydrogenic System
类氢离子系统振子强度总和规则的相对论修正
4.
Calculation of Oscillator Strengths and Lifetimes on the Transitions of High Rydbery States of Atom Li
锂原子高里德伯态跃迁的振子强度和辐射寿命
5.
Theoretical Research on the Energy Structure and Oscillator Strength of Sc~(18+);
Sc~(18+)离子的能级结构和振子强度的理论研究
6.
Theoretical Research on the Transition Energy and Oscillator Strength of Lithium-Like Systems;
类锂离子体系跃迁能和振子强度的理论研究
7.
Calculations of 1s~2ns-1s~24p Transition Energies and Oscillator Strengths for Lithium-like Systems from Z=11 to 20;
类锂离子(Z=11-20)1s~2ns-1s~24p的跃迁能和振子强度
8.
Theoretical electric quadrupole transition probabilities and oscillator strengths for Sr;
理论Sr原子电四极矩跃迁几率和振子强度
9.
Theoretical study of generalized oscillator strengths for valence-shell excitations of argon
Ar原子价壳层跃迁广义振子强度的理论研究
10.
Theoretical Research on the Energy Sturcure and Oscillator Strength of Excited States for Mn~(22+);
Mn~(22+)离子激发态的能级结构和振子强度的理论研究
11.
Theoretical Research on the Energy Structure and Oscillator Strength of Excited States for Cr~(21+) Ion;
Cr~(21+)离子激发态的能级结构和振子强度的理论研究
12.
Theoretical Research on the Energy Structure and Oscillator Strength of Excited States for Fe~(23+) Ion;
Fe~(23+)离子激发态的能级结构和振子强度的理论研究
13.
Study of Energy Levels, Wavelengths and Oscillator Strengths in High-Z Mg-like Ions;
高离化态重元素类镁离子能级、波长和振子强度研究
14.
Energy levels and oscillator strengths for like-Mg ions (Z=15-54);
类镁离子的能级和振子强度的相对论多组态计算
15.
Theoretical Research on the Energy Structure and Oscillator Strength of Excited States for Co~(24+) Ion
Co~(24+)离子激发态的能级结构和振子强度的理论研究
16.
Theoretical Research on the Energy Structure and Oscillator Strength of Excited States for Ni~(25+) Ion
Ni~(25+)离子激发态的能级结构和振子强度的理论研究
17.
Theoretical Research on the Energy Structure and Oscillator Strength of Excited States for Cu~(26+) Ion
Cu~(26+)离子激发态的能级结构和振子强度的理论研究
18.
An Analysis of the Induction of the Spatial Electric-magnetic Field While the Live Spring Dipole Is Vibrating;
带电弹簧振子振动时的空间电磁场强度