Invariant Form of Hyperfine Interaction with Multipolar Moments - Observation of Octupolar Moments in NpO2 and CeB6 by NMR -

Abstract

The invariant form of the hyperfine interaction between multipolar moments and the nuclear spin is derived, and applied to discuss possibilities to identify the antiferro-octupolar (AFO) moments by NMR experiments. The ordered phase of NpO2 and the phase IV of Ce1-xLaxB6 are studied in detail. Recent 17O NMR for polycrystalline samples of NpO2 are discussed theoretically from our formulation. The observed feature of the splitting of 17O NMR spectrum into a sharp line and a broad line, their intensity ratio, and the magnetic field dependence of the shift and of the width can be consistently explained on the basis of the triple AFO ordering model proposed by Paix\~ao et. al. Thus, the present theory shows that the 17O NMR spectrum gives a strong support to the model. The 4 O sites in the fcc NpO2 become inequivalent due to the secondary triple ordering of AF-quadrupoles: one cubic and three non-cubic sites. It turns out that the hyperfine field due to the antiferro-dipole and AFO moments induced by the magnetic field, and the quadrupolar field at non-cubic sites are key ingredients to understand the observed spectrum. The controversial problem of the nature of phase IV in Ce1-xLaxB6 is also studied. It is pointed out that there is a unique feature in the NMR spectra, if the 5(Tβx=Tβy=Tβz) AFO ordering is realized in Ce1-xLaxB6. Namely, the hyperfine splitting of a B atom pair on the (1/2,1/2, u) sites crosses zero on the (110) plane when the magnetic field is rotated around the [001] axis.

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