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Nuclear magnetic resonance on oriented194Ir (T 1/2=19.4 h) in Fe and Ni

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Zeitschrift für Physik A Atoms and Nuclei

Abstract

The hyperfine interaction of194Ir (j π=1;T 1/2=19.4 h) in Fe and Ni has been investigated with the technique of nuclear magnetic resonance on oriented nuclei. For both systems the electronic-orbital-momentum induced electric quadrupole splitting could be resolved. The magnetic and electric hyperfine splitting frequencies,v M N B HF/h¦ andv Q =e 2 qQ/h, respectively, were measured as:194IrFe:v m =408.54 (23) MHz;v q =−2.47(20) MHz;194IrNi:v M =135.24(5) MHz;v q =−1.23 (3) MHz. Taking into account a 3% uncertainty arising from hyperfine anomalies theg-factor is deduced as ¦g¦=0.39 (1). The electric quadrupole moment,Q=+0.352 (18)b, is slightly smaller than expected from the known systematics of deformation parameters in this mass region.

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Authors and Affiliations

  1. Physik-Department, Technische Universität München, Garching, Federal Republic of Germany

    E. Hagn, H. Kleebauer, M. Zahn & E. Zech

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  1. E. Hagn
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  2. H. Kleebauer
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  3. M. Zahn
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  4. E. Zech
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Additional information

We are indebted to Prof. P. Kienle for his kind interest and continuous support of this work. We further want to thank Dr. P. Maier-Komor for preparing the alloys.

This work was supported by the Bundesministerium für Forschung und Technologie, Bonn.

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Hagn, E., Kleebauer, H., Zahn, M. et al. Nuclear magnetic resonance on oriented194Ir (T 1/2=19.4 h) in Fe and Ni. Z Physik A 306, 73–78 (1982). https://doi.org/10.1007/BF01413411

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  • DOI: https://doi.org/10.1007/BF01413411

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