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Theoretical and experimental analysis of the fine structure and hyperfine structure in the configurations 5p6s and 5p6p of the antimony II spectrum

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Zeitschrift für Physik D Atoms, Molecules and Clusters

Abstract

From 17 transitions in the singly ionized Sb II spectrum the hyperfine structure (A andB splitting constants) of the complete excited configurations 5p6s and 5p6p were determined by means of optical interference spectroscopy. In addition, a theoretical analysis both of the fine structure and also of the hyperfine structure was carried out (in the case of 5p6p of the general typenpn′p for the first time in literature). For the 3 levels 5p6p 3 P 1, 5p7p 3 D 2 and 5p6p 1 P 1 a different classification was found and consistent values for the fine structure parameters, mixing coefficients and single electron hyperfine structure splitting parametersa ik nl andb ik nl were obtained. The three new determinations in Sb II of the quadrupole moment (in barn) of121Sb (Q(5p6s)=−0.55(5);Q(5p6p)=−0.57(5) from the 5p-electron andQ(5p6p)=−0.7(2) from the 6p-electron) are well agreeing with each other but differ to former values from SbI. The core polarization and isotope shift of the lines, however, are compatible with our former results in SbI.

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Author notes

  1. M. Voss

    Present address: Spektrum GmbH, D-1000, Berlin 36, Germany

  2. W. Weiss

    Present address: Max-Volmer-Institut, TU-Berlin, D-1000, Berlin 12, Germany

Authors and Affiliations

  1. Optisches Institut der Technischen Universität Berlin, Germany

    M. Voss, W. Weiss & R. Winkler

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  1. M. Voss
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  2. W. Weiss
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  3. R. Winkler
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Voss, M., Weiss, W. & Winkler, R. Theoretical and experimental analysis of the fine structure and hyperfine structure in the configurations 5p6s and 5p6p of the antimony II spectrum. Z Phys D - Atoms, Molecules and Clusters 1, 157–166 (1986). https://doi.org/10.1007/BF01436549

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  • DOI: https://doi.org/10.1007/BF01436549

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