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Test of advanced hyperfine structure theory by precision radio-frequency and laser spectroscopy in molybdenum

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Zeitschrift für Physik D Atoms, Molecules and Clusters

Abstract

The hyperfine structure splittings of 32 even parity states and of 26 odd partity states of molybdenum have been measured by atomic beam magnetic resonance and by laser induced fluorescence. The analysis of the hyperfine structure data of the even parity configurations (4d+5s)6 yields experimental evidence for second order hyperfine interactions. In addition, theg J factors of 19 fine structure levels have been determined in order to test the quality of intermediate coupling wave functions for the (4d+5s)6 configurations.

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Author notes

  1. S. Büttgenbach

    Present address: Institut der Forschungsgesellschaft für Feingeräte-, Mikro- und Uhrentechnik e.V., Breitscheidstrasse 2b, D-7000, Stuttgart 1, Federal Republic of Germany

  2. J. Jacobs

    Present address: Du Pont de Nemours (Deutschland) GmbH, Frankfurter Strasse 231, D-6078, Neu Isenburg, Federal Republic of Germany

  3. M. Koster

    Present address: Siemens AG, Otto-Hahn-Ring 6, D-8000, München 83, Federal Republic of Germany

  4. H. Roeder

    Present address: Daimler-Benz AG, D-7032, Sindelfingen, Federal Republic of Germany

  5. W. Rupprecht

    Present address: Bundesamt für Wehrtechnik und Beschaffung, Konrad-Adenauer-Ufer 2-6, D-5400, Koblenz, Federal Republic of Germany

  6. F. Träber

    Present address: Radiologische Klinik der Universität, Venusberg, D-5300, Bonn 1, Federal Republic of Germany

Authors and Affiliations

  1. Institut für Angewandte Physik der Universität, Wegelerstrasse 8, D-5300, Bonn 1, Federal Republic of Germany

    T. Brenner, S. Büttgenbach, J. Jacobs, M. Koster, H. Roeder, W. Rupprecht & F. Träber

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  1. T. Brenner
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Brenner, T., Büttgenbach, S., Jacobs, J. et al. Test of advanced hyperfine structure theory by precision radio-frequency and laser spectroscopy in molybdenum. Z Phys D - Atoms, Molecules and Clusters 10, 59–70 (1988). https://doi.org/10.1007/BF01425581

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  • DOI: https://doi.org/10.1007/BF01425581

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