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Crystal-field effects and the magnetic properties of rare-earth rhodium borides

1984; American Physical Society; Volume: 29; Issue: 11 Linguagem: Inglês

10.1103/physrevb.29.6244

1095-3795

B. D. Dunlap, L. N. Hall, F. Behroozi, G. W. Crabtree, D. Niarchos,

Iron-based superconductors research

The magnetic properties of the $R{\mathrm{Rh}}_{4}{\mathrm{B}}_{4}$ ($R$ represents rare-earth metal) compounds are discussed in terms of a combined crystalline-electric-field and molecular-field approach. Magnetization data taken on single-crystal Er${\mathrm{Rh}}_{4}$${\mathrm{B}}_{4}$ in five orientations are used to obtain the crystal-field and molecular-field coefficients, resulting in a complete analysis for the paramagnetic properties of this compound. The crystal-field parameters are additionally used to discuss all previously published magnetic data for polycrystalline $R{\mathrm{Rh}}_{4}{\mathrm{B}}_{4}$ compounds. For these highly anisotropic materials, the effect of preferential crystallite orientation on the observed data is pointed out. Consideration of the variation of the magnetic transition temperature ${T}_{m}$ between different constituent rare earths has verified a previous conclusion that the crystal field has a pronounced effect on ${T}_{m}$, but this alone does not fully explain the observations.