143,145Nd+ 570.38 nm谱线的超精细结构作用常数测量

利用共线快离子束－激光高分辨光谱学方法测量了^143,145Nd^ 570.38nm谱线的超精细结构光谱，并得到了参与跃迁的上、下能级的超精细相互作用常数。     

143,145Nd+ 4f45d6K\-9/2→(23229.991)o\-9/2跃迁超精细结构光谱

利用共线快离子束-激光光谱学方法测量了143,145Nd+ 6K\-9/2→(23229.991)o\-9/2跃迁的超精细结构光谱,得到了上、下能级的超精细相互作用常数.     

143,145Nd+4f45d6K9/2→(23229.991)o9/2跃迁超精细结构光谱

利用共线快离子束-激光光谱学方法测量了^143,145Nd⁺⁶K_9/2→(23229.991)^o_9/2跃迁的超精细结构光谱,得到了上、下能级的超精细相互作用常数.     

~(143,145)Nd~+4f~45d~6K_(9/2)→(23229.991)_(9/2)~o跃迁超精细结构光谱

利用共线快离子束 激光光谱学方法测量了1 4 3 ,1 4 5Nd+6K9/ 2 → (2 32 2 9.991 ) o9/ 2 跃迁的超精细结构光谱 ,得到了上、下能级的超精细相互作用常数 .     

141Pr+ 581.69 nm谱线超精细结构光谱研究

利用共线快离子束-激光光谱学方法测量了正一价镨离子波长581.69nm谱线的超精细结构光谱,得到了超精细相互作用常数;与已发表的数据比较,在测量误差范围内一致,我们的测量精度提高了一个量级.     

~(141)Pr~ 581.69nm谱线超精细结构光谱研究

利用共线快离子束 激光光谱学方法测量了正一价镨离子波长 5 81.6 9nm谱线的超精细结构光谱 ,得到了超精细相互作用常数 ;与已发表的数据比较 ,在测量误差范围内一致 ,我们的测量精度提高了一个量级     

LaⅡ5d2 1G4→4f5d 1F3超精 细结构光谱测量

利用少有的共线快离子激光光谱学方法研究了LaⅡ的超精细结构,测量了5d² < sup>1G₄态→4f5d ¹F₃态的超精细结构光谱,分 别得出了相应的磁偶极矩和电四极矩的超精细相互作用常数. 关键词： 共线快离子束激光光谱学 超精细结构 共振激发     

159TbII超精细结构光谱测量

利用具有光谱高分辨和选择性激发等特点的共线快离子束激光光谱学方法研究了^159TbⅡ亚稳态4f^95d^7H8^0和激发态4f^96p3/2(15/2,3/2)的超精细结构光谱，所有光谱线可以很好地分辨；并由实验测量得到的高分辨超精细结构光谱，给出了相应能级的超精细结构常数。     

~(159)TbII超精细结构光谱测量

利用具有光谱高分辨和选择性激发等特点的共线快离子束激光光谱学方法研究了159Tb II亚稳态 4 f95 d7H08和激发态 4 f96 p3 / 2 ( 1 5 /2 ,3/2 )的超精细结构光谱 ,所有光谱线可以很好地分辨 ;并由实验测量到的高分辨超精细结构光谱 ,给出了相应能级的超精细结构常数     

3290LaⅡ5d21G4→4f5d1F3超精细结构光谱测量

利用少有的共线快离子激光光谱学方法研究了LaⅡ的超精细结构,测量了5d21G4态→4f5d1F3态的超精细结构光谱,分别得出了相应的磁偶极矩和电四极矩的超精细相互作用常数.     

Hyperfine structure of singly ionized lanthanum and praseodymium

Hyperfine structure spectra of singly ionized lanthanum and praseodymium have been measured by collinear fast-ion-beam laser spectroscopy. All the spectral lines were resolved and the magnetic dipole and electric quadruple coupling constants of the metastable levels and excited levels were determined. Our results are in agreement with the published data within the experimental uncertainty. For praseodymium ions, the accuracy of the magnetic dipole coupling constants are improved by one order of magnitude compared with other published data, and the electric quadruple coupling constants are reported for the first time.     

MEASUREMENT OF HYPERFINE COUPLING CONSTANTS OF THE EXCITED STATES 4f7(8S07/2)6p3/2(7/2, 3/2) IN 151,153Eu+

Hyperfine structure spectra of singly ionized europium have been measured by collinear fast-ion-beam laser spectroscopy. All the spectral lines were resolved and the magnetic dipole and electric quadrupole coupling constants of the metastable and excited levels were determined.     

Hyperfine Magnetic Anomaly in Atomic Spectra of Rare-Earth Elements

The constants of the hyperfine splitting in the atomic optical spectra of the rare-earth elements – Nd, Eu, Gd and Lu – were measured. The method of laser resonance fluorescence in the parallel atomic beam was used. The values of the hyperfine magnetic anomaly were determined from the comparision of magnetic dipole constant ratios of the neighbouring odd Z or N isotopes for the different atomic levels. The connection of these values and the parameters of atomic and nuclear structure is discussed. This revised version was published online in September 2006 with corrections to the Cover Date.     

Fine and hyperfine structure in the atomic spectrum of niobium

A parametric analysis of the fine and the magnetic dipole hyperfine structure for the three configurations of odd parity 4d³5s5p, 4d⁴5p and 4d²5s²5p was performed. Effective one-electron parameters were determined and theoretical predictions are given for the magnetic dipole hyperfine structure constants A for the levels of these three configurations. Additionally, 12 new energy levels could be found, four of odd and eight of even parity, by re-analysing data for experimental wavelengths of Nb.     

Measurement of isotope shift and hyperfine splitting of190, 191, 193, 197Pb isotopes by collinear laser spectroscopy

We report here on the measurement of isotope shift and hyperfine splitting of^{190, 191, 193, 197}Pb for the 723 nm atomic optical transition. Detailed analysis of the optical data has been done by combining them with the available muonic and electronicx-ray isotope shift data. The magnetic dipole moments and the electric quadrupole moments of the odd isotopes have been extracted from the hyperfine coupling constants of the atomic states involved in the optical transition used.     

估算双层屏蔽腔体窄缝耦合的混合方法

 用混合方法计算双层屏蔽腔体窄缝耦合时,外腔体的窄缝耦合用传输线模型计算,内腔体的用磁偶极子模型计算。混合法可以求出双层屏蔽腔体内的场分布和屏蔽系数的分布规律,避免了传输线模型只能计算腔体中心线上的屏蔽系数而不能分析腔内横截面上耦合场分布规律的缺点。将得到的窄缝耦合的传输线模型和磁偶极子模型的计算结果与实测值和Micro-Stripes软件仿真值进行对比,验证了传输线和磁偶极子模型的有效性。混合方法给出了窄缝数量及腔体内不同观测点对屏蔽系数的影响,结果表明：双层屏蔽腔体的屏蔽效能明显优于单层屏蔽腔体;随着相同尺寸的窄缝数量的递增,腔体内的屏蔽系数递减;在与双层屏蔽腔体中心线垂直的横截面上,观测点屏蔽系数以中心线上点为中心,沿窄缝方向向两边递增,也就是离中心线越远,腔体内的耦合电场越弱,且混合法的速度明显快于软件计算速度,适合于高频范围的分析。