Hyperfine structure in thallium atom: Study of nuclear magnetization distribution effects

The influence of the nuclear magnetization distribution effects on the hyperfine structure of electronic states of thallium atom is studied within the relativistic coupled cluster theory. Relative significance of these effects is demonstrated for the first excited electronic state 6P3/2 of neutral T...

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Published in:The Journal of chemical physics 2020-01, Vol.152 (4), p.044301-044301
Main Authors: Prosnyak, S. D., Maison, D. E., Skripnikov, L. V.
Format: Article
Language:English
Subjects:
Electron states
Hyperfine structure
Magnetic anomalies
Magnetic moments
Magnetization
Physics
Relativistic theory
Thallium
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description The influence of the nuclear magnetization distribution effects on the hyperfine structure of electronic states of thallium atom is studied within the relativistic coupled cluster theory. Relative significance of these effects is demonstrated for the first excited electronic state 6P3/2 of neutral Tl. Based on the obtained theoretical and available experimental data, the nuclear magnetic moments of short-lived 191Tlm and 193Tlm isotopes are predicted: μ191 = 3.79(2) μN and μ193 = 3.84(3) μN, respectively. Using theoretical and experimental data for the neutral Tl, the magnetic anomalies 205Δ203 for the 7S1/2 state of the neutral Tl atom and the 1S1/2 state of the hydrogen-like ion are also predicted.
doi_str_mv 10.1063/1.5141090
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subjects Electron states
Hyperfine structure
Magnetic anomalies
Magnetic moments
Magnetization
Physics
Relativistic theory
Thallium
title Hyperfine structure in thallium atom: Study of nuclear magnetization distribution effects
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