Unusual Kondo-hole effect and crystal-field frustration in Nd-doped CeRhIn5

Abstract

We investigate single crystalline samples of Ce1-xNdxRhIn5 by means of X-ray diffraction, microprobe, magnetic susceptibility, heat capacity, and electrical resistivity measurements. Our data reveal that the antiferromagnetic transition temperature of CeRhIn5, TNCe = 3.8 K, is linearly suppressed with xNd, by virtue of the "Kondo hole" created by Nd substitution. The extrapolation of TCeN to zero temperature, however, occurs at xc 0.3, which is below the 2D percolation limit found in Ce1-xLaxRhIn5. This result strongly suggests the presence of crystal-field frustration effects. Near xNd 0.2, the Ising AFM order from Nd ions is stabilized and TNdN increases up to 11 K in pure NdRhIn5. Our results shed light on the effects of magnetic doping in heavy-fermion antiferromagnets and stimulate the study of such systems under applied pressure.