Abstract
The isotope shift of the natural isotopes of Sm and Nd was investigated by a digital recording Fabry-Perot spectrometer using highly enriched samples. By the accuracy achieved in the measurements it was possible to verify earlier results indicating different relative isotope shifts for lines with positive and negative displacements, and to show that also lines with the same sign of the displacement may have different relative isotope shifts. It is shown that these non-constant relative isotope shifts can be explained for the even isotopes by the different contributions of the mass and volume effect to the isotope shifts in the different lines, but this explanation seems only to be partly valid for some distances between even and odd isotopes. The size of the mass effect is estimated and its influence especially on the results of the odd-even staggering is considered. The odd-even staggering is compared to earlier results for Hg. The estimation of the mass effect shows that the results forδ〈r 2〉 determined from the measured isotope shifts without correcting for the mass effect may be considerably wrong. Nevertheless it is possible by a suitable combination of the measured distances to calculate a quantity which only depends on nuclear properties and which therefore enables to check the known theories of the volume dependent isotope shift also without calculating the probability density of thes-electrons at the nucleus.
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Einer von uns (J.E.H.) dankt der Alexander von Humboldt-Stiftung für ein Stipendium. Herrn Dipl.-Phys. H.Lenz von der Bundesanstalt für Bodenforschung in Hannover danken wir für die Durchführung der massenspektroskopischen Analysen einiger Sm-Proben.
Der Deutschen Forschungsgemeinschaft sei auch an dieser Stelle für die Bereitstellung von GerÄten gedankt.
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Hansen, J.E., Steudel, A. & Walther, H. Isotopieverschiebung der natürlichen geraden und ungeraden Sm- und Nd-Isotope. Z. Physik 203, 296–329 (1967). https://doi.org/10.1007/BF01325919
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DOI: https://doi.org/10.1007/BF01325919