Energies and hyperfine structures of the 1s22s2p 3Po state of Be-like ions with Z = 11-18

Kai Kai Li; Lin Zhuo; Chun Mei Zhang; Chao Chen; Bing Cong Gou

doi:10.1139/cjp-2016-0869

Energies and hyperfine structures of the 1s²2s2p ³P^o state of Be-like ions with Z = 11-18

Kai Kai Li, Lin Zhuo, Chun Mei Zhang, Chao Chen, Bing Cong Gou^*

^*Corresponding author for this work

School of Physics

Research output: Contribution to journal › Article › peer-review

3 Citations (Scopus)

Abstract

Nonrelativistic energies and wave functions of the 1s²2s2p ³P^o states of Be isoelectronic sequence (Z = 11-18) are calculated using the full core plus correlation method (FCPC). To obtain the accurate energy level, the relativistic corrections and mass polarization effect are included by using the first-order perturbation theory. The calculated excitation energies (relative to the 1s²2s² ground state) are compared with the experiment. Most of the calculated P3 Jo energies agree with the experiment to within a few inverse centimetres. The calculated hyperfine coupling constants are in good agreement with the latest theoretical data in the literature. Our results may provide valuable reference data for spectral analysis and identification in the future.

Original language	English
Pages (from-to)	720-724
Number of pages	5
Journal	Canadian Journal of Physics
Volume	95
Issue number	8
DOIs	https://doi.org/10.1139/cjp-2016-0869
Publication status	Published - 2017

Keywords

Be-like ions
Excitation energies
Hyperfine structure
Nonrelativistic energies
Relativistic corrections

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title = "Energies and hyperfine structures of the 1s22s2p 3Po state of Be-like ions with Z = 11-18",

abstract = "Nonrelativistic energies and wave functions of the 1s22s2p 3Po states of Be isoelectronic sequence (Z = 11-18) are calculated using the full core plus correlation method (FCPC). To obtain the accurate energy level, the relativistic corrections and mass polarization effect are included by using the first-order perturbation theory. The calculated excitation energies (relative to the 1s22s2 ground state) are compared with the experiment. Most of the calculated P3 Jo energies agree with the experiment to within a few inverse centimetres. The calculated hyperfine coupling constants are in good agreement with the latest theoretical data in the literature. Our results may provide valuable reference data for spectral analysis and identification in the future.",

keywords = "Be-like ions, Excitation energies, Hyperfine structure, Nonrelativistic energies, Relativistic corrections",

author = "Li, {Kai Kai} and Lin Zhuo and Zhang, {Chun Mei} and Chao Chen and Gou, {Bing Cong}",

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doi = "10.1139/cjp-2016-0869",

language = "English",

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publisher = "National Research Council of Canada",

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TY - JOUR

T1 - Energies and hyperfine structures of the 1s22s2p 3Po state of Be-like ions with Z = 11-18

AU - Li, Kai Kai

AU - Zhuo, Lin

AU - Zhang, Chun Mei

AU - Chen, Chao

AU - Gou, Bing Cong

PY - 2017

Y1 - 2017

N2 - Nonrelativistic energies and wave functions of the 1s22s2p 3Po states of Be isoelectronic sequence (Z = 11-18) are calculated using the full core plus correlation method (FCPC). To obtain the accurate energy level, the relativistic corrections and mass polarization effect are included by using the first-order perturbation theory. The calculated excitation energies (relative to the 1s22s2 ground state) are compared with the experiment. Most of the calculated P3 Jo energies agree with the experiment to within a few inverse centimetres. The calculated hyperfine coupling constants are in good agreement with the latest theoretical data in the literature. Our results may provide valuable reference data for spectral analysis and identification in the future.

AB - Nonrelativistic energies and wave functions of the 1s22s2p 3Po states of Be isoelectronic sequence (Z = 11-18) are calculated using the full core plus correlation method (FCPC). To obtain the accurate energy level, the relativistic corrections and mass polarization effect are included by using the first-order perturbation theory. The calculated excitation energies (relative to the 1s22s2 ground state) are compared with the experiment. Most of the calculated P3 Jo energies agree with the experiment to within a few inverse centimetres. The calculated hyperfine coupling constants are in good agreement with the latest theoretical data in the literature. Our results may provide valuable reference data for spectral analysis and identification in the future.

KW - Be-like ions

KW - Excitation energies

KW - Hyperfine structure

KW - Nonrelativistic energies

KW - Relativistic corrections

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DO - 10.1139/cjp-2016-0869

M3 - Article

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VL - 95

SP - 720

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JO - Canadian Journal of Physics

JF - Canadian Journal of Physics

IS - 8

ER -

Energies and hyperfine structures of the 1s²2s2p ³P^o state of Be-like ions with Z = 11-18

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