Abstract
Nuclear magnetic resonance on oriented nuclei has been detected for the first time via the destruction of the anisotropy of characteristic Lx-rays. The new method can be applied to isomeric states which decay only via highly converted transitions, for which the standard NMR-ON technique — detection of NMR via the anisotropy of γ-rays — is not applicable. The X-NMR-ON technique has been used to measure the magnetic hyperfine splitting of193mpt (Iπ=1322+; E=149.8 keV; T1/2= 4.3 d) to be ¦ gμ NBHF/h¦=111.3 (3) MHz. with the known hyperfine field of −1280(27) kG the magnetic moment of193mpt is deduced to be ¦μ¦=0.7417(14) μN. This magnetic moment differs strongly from the known magnetic moments of the 13/2+ isomeric states in Hg and Pb and195mPt.
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References
G. Schütz, E. Zech, E. Hagn and P. Kienle, Hyp. Int. 15/16(1983)1039.
K. Alder and H. Rösel, private communication (1982).
M. Kontani and J. Itoh, J. Phys. Soc. Jap. 22(1967)345.
F. Bacon, G. Kaindl, H.-E. Mahnke and D.A. Shirley, Phys. Rev. Lett. 28(1972)720.
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Schütz, G., Hagn, E., Kienle, P. et al. Detection on NMR via the anisotropy of X-rays (X-NMR-ON). Hyperfine Interact 22, 163–166 (1985). https://doi.org/10.1007/BF02063987
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DOI: https://doi.org/10.1007/BF02063987