Magnetism of PdNi alloys near the critical concentration for ferromagnetism

Abstract

We report results of a muon spin rotation and relaxation (μSR) study of dilute Pd1-xNix alloys, with emphasis on Ni concentrations x = 0.0243 and 0.025. These are close to the critical value xcr for the onset of ferromagnetic long-range order (LRO), which is a candidate for a quantum critical point. The 2.43 and 2.5 at.% Ni alloys exhibit similar μSR properties. Both samples are fully magnetic, with average muon local fields Bloc = 2.0 and 3.8 mT and Curie temperatures TC = 1.0 and 2.03 K for 2.43 and 2.5 at.% Ni, respectively, at T = 0. The temperature dependence of Bloc suggests ordering of Ni spin clusters rather than isolated spins. Just above TC a two-phase region is found with separate volume fractions of quasistatic short-range order (SRO) and paramagnetism. The SRO fraction decreases to zero with increasing temperature a few kelvin above TC. This mixture of SRO and paramagnetism is consistent with the notion of an inhomogeneous alloy with Ni clustering. The measured values of TC extrapolate to xcr = 0.0236 0.0027. The dynamic muon spin relaxation in the vicinity of TC differs for the two samples: a relaxation-rate maximum at TC is observed for x = 0.0243, reminiscent of critical slowing down, whereas for x = 0.025 no dynamic relaxation is observed within the μSR time window. The data suggest a mean-field-like transition in this alloy.