Extended analysis of fine-structure energy levels of 4s24p3 and 4s4p4 for ions from PdXIV to Cd XVI

mu zhi-dong; wei qi-ying; ye shi-wang; zhang lei; wei wei; wang shu-kai

Volume 17 Issue 03

Mar. 2005

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Article Navigation > High Power Laser and Particle Beams > 2005 > 17(03): 0-

xu hong-liang, wang lin, li yong-jun, et al. Study of RF system of Hefei Ｓtorage Ｒing under injection[J]. High Power Laser and Particle Beams, 2004, 16.

Citation:

mu zhi-dong, wei qi-ying, ye shi-wang, et al. Extended analysis of fine-structure energy levels of 4s24p3 and 4s4p4 for ions from PdXIV to Cd XVI[J]. High Power Laser and Particle Beams, 2005, 17.

xu hong-liang, wang lin, li yong-jun, et al. Study of RF system of Hefei Ｓtorage Ｒing under injection[J]. High Power Laser and Particle Beams, 2004, 16.

Citation:

mu zhi-dong, wei qi-ying, ye shi-wang, et al. Extended analysis of fine-structure energy levels of 4s24p3 and 4s4p4 for ions from PdXIV to Cd XVI[J]. High Power Laser and Particle Beams, 2005, 17.

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Extended analysis of fine-structure energy levels of 4s24p3 and 4s4p4 for ions from PdXIV to Cd XVI

1.
College of Sciences,China University of Mining and Technology,Xuzhou 221008,China

Publish Date: 2005-03-15

Abstract

Abstract

In this paper, fine-structure energy levels of configurations 4s24p3 and 4s4p4 for Arsenic isoelectronic sequence ions from KrIVto CdXVI are analysed by multi-configuration Hartree-Fock plus exchange-statistical-potential with relativistic corrections　(HXR) method in Cowan'code. By analyzing variation of differences between the experimental data and the associated theoretical energies with Zc along the sequence, a new formula has been found for fit calculation. With this new formula, the fine-structure levels of the configurations mentioned above are predicted, the uncertainty of most predicted energy level values with the associated experimental results are not more than 100 cm-1. The wavelengths, oscillator strengths and probabilities of transitions 4s24p3_4s4p4 calculated with HXR meth
- arsenic-like ion,
- wavelength,
- fine-structure energy level,
- oscillator strength,
- transition probability,
- hxr method

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