2016
DOI: 10.1364/josab.33.001921
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Isotope shifts in Sb I

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Cited by 3 publications
(15 citation statements)
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“…
a b s t r a c tAb initio multiconfiguration Dirac-Hartree-Fock (MCDHF) calculations have been carried out in order to determine the isotope shift (IS) electronic parameters of transitions belonging to electric dipole (E1) transition arrays 5s 2 5p 3 − 5s 2 5p 2 6s , 5s 2 5p 2 6s − 5s 2 5p 2 6p and 5s 2 5p 2 6s − 5s 2 5p 2 7p in neutral antimony, Sb I. In a correlation model limited to single and double excitations from the valence shells, these parameters, combined with the changes in mean-square nuclear charge radius δ r 2 123,121 compiled by Angeli and Marinova [3] produce isotope shifts values in good agreement with the most recent measurements by high-resolution emission and optogalvanic absorption spectroscopy of Sobolewski et al [5] but not with the old measurements of Buchholz et al [4] for 5p 3 − 5p 2 6s . However, our analysis does not allow to reject the latter due to the large uncertainty affecting δ r 2 123,121 , i.e.
…”
supporting
confidence: 78%
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“…
a b s t r a c tAb initio multiconfiguration Dirac-Hartree-Fock (MCDHF) calculations have been carried out in order to determine the isotope shift (IS) electronic parameters of transitions belonging to electric dipole (E1) transition arrays 5s 2 5p 3 − 5s 2 5p 2 6s , 5s 2 5p 2 6s − 5s 2 5p 2 6p and 5s 2 5p 2 6s − 5s 2 5p 2 7p in neutral antimony, Sb I. In a correlation model limited to single and double excitations from the valence shells, these parameters, combined with the changes in mean-square nuclear charge radius δ r 2 123,121 compiled by Angeli and Marinova [3] produce isotope shifts values in good agreement with the most recent measurements by high-resolution emission and optogalvanic absorption spectroscopy of Sobolewski et al [5] but not with the old measurements of Buchholz et al [4] for 5p 3 − 5p 2 6s . However, our analysis does not allow to reject the latter due to the large uncertainty affecting δ r 2 123,121 , i.e.
…”
supporting
confidence: 78%
“…where ˜ K ul = ˜ K u −˜ K l refers to the mass-shift electronic parameter, F ul = F u − F l is the field-shift electronic factor and δ r 2 M,M ≡ r 2 M − r 2 M is the mean-square nuclear charge radius difference between the two isotopes. The relativistic mass-shift electronic parameter ˜ K RMS for a level is related to the expectation value of the relativistic recoil Hamiltonian, H RMS , 5) or, in energy units,…”
Section: Isotope Shiftsmentioning
confidence: 99%
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