Abstract
Calculations of the effects of resolved and unresolved nuclear hyperfine structure for anomalous muonium have been made for a range of axial nuclear hyperfine parameters and magnetic fields. Although the spectra arc complex, their moments allow predictions about line widths (or depolarization rates) from unresolved hyperfine structure. The increase ofλ with decreasing field observed experimentally is obtained in these calculations. In addition we make predictions ofλ for zero-field spectra, angular dependences ofλ, and line shifts.
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T.L. Estle, S.L. Rudaz, E. Holzschuh, R. Kiefl, B.D. Patterson, W. Kündig, and K.W. Blazey, Hyperfine Interactions17–19 (1984) 623
T.L. Estle and D.A. Vanderwater, Phys. Rev.B27 (1983) 3962
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The work of T.L. Estle and M.E. Warren was supported by N.S.F. grant DMR-79-09223. The help of Serge L. Rudaz is gratefully acknowledged.
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Estle, T.L., Warren, M.E. & Patterson, B.D. Model calculations of nuclear hyperfine structure for anomalous muonium and their implications. Hyperfine Interact 18, 589–593 (1984). https://doi.org/10.1007/BF02064873
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DOI: https://doi.org/10.1007/BF02064873