2020
DOI: 10.3390/atoms8040087
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CI-MBPT and Intensity-Based Lifetime Calculations for Th II

Abstract: Lifetime calculations of Th II J = 1.5 and 2.5 odd states are performed with configuration–interaction many-body perturbation theory (CI-MBPT). For many J = 2.5 states, lifetimes are quite accurate, but two pairs of J = 2.5 odd states and many groups of J = 1.5 states are strongly mixed, making theoretical predictions unreliable. To solve this problem, a method based on intensities is used. To relate experimental intensities to lifetimes, two parameters, one an overall coefficient of proportionality for transi… Show more

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Cited by 1 publication
(4 citation statements)
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“…However, when the properties over the three levels, such as g-factors, are averaged, the resulting values are in better agreement with the experiment: g exp = 1.0083 vs. g pRCI = 1.0293. This is what was observed in Th II [38]. More mixing and order reversal occurs in higher levels, as expected, due to higher density of states.…”
Section: Potentialsupporting
confidence: 86%
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“…However, when the properties over the three levels, such as g-factors, are averaged, the resulting values are in better agreement with the experiment: g exp = 1.0083 vs. g pRCI = 1.0293. This is what was observed in Th II [38]. More mixing and order reversal occurs in higher levels, as expected, due to higher density of states.…”
Section: Potentialsupporting
confidence: 86%
“…Some uses include cosmological applications [35], nuclear clocks [36], and calibration standards [37]. While the Th II ion is an analog of the La I atom, with three valence electrons above the core, Th II transition lifetime calculations have significant uncertainty [38]. One reason for this is strong mixing between three or more states.…”
Section: Lifetimes Of Th IImentioning
confidence: 99%
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