Abstract
Crystal-field parameters have been deduced for the light rare-earth solutes Ce, Pr, and Nd in Y or Lu hosts from measurements of the paramagnetic susceptibilities. In the analysis all multiplets in the lowest $\mathrm{LS}$ term were included. For a given host, crystal-field parameters divided by Stevens factors $\frac{{B}_{\mathrm{lm}}}{{\ensuremath{\alpha}}_{l}}$, are of approximately the same magnitude for all the solutes Pr, Nd, Tb, Dy, Ho, Er, and Tm and do not scale with $〈{r}^{l}〉$. The values deduced for Ce do not fit in with this simple picture. The higher-order parameters ${B}_{40}$, ${B}_{60}$, and ${B}_{66}$ are, within the errors in their determination, identical in Y and Lu hosts, indicating that these values for a specific rare-earth solute in Y and Lu may give a reliable estimate for the corresponding sites in rare-earth metal. This is confirmed for Pr, for which these values and the value of ${B}_{20}$ deduced from paramagnetic-susceptibility measurements on the pure metal, correctly explain the transition observed by neutron spectroscopy and the level crossing observed in a high-field experiment. A weighted average of ${B}_{20}$ for cubic and hexagonal sites in Nd and Sm was obtained from the paramagnetic susceptibilities of these metals at high temperatures.
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