Magnetic order and spin dynamics across a ferromagnetic quantum critical point: μSR investigations of YbNi4(P1-xAsx)2

Abstract

In the quasi-1D heavy-fermion system YbNi4(P1-xAsx)2 the presence of a ferromagnetic (FM) quantum critical point (QCP) at xc ≈ 0.1 with unconventional quantum critical exponents in the thermodynamic properties has been recently reported. Here, we present muon-spin relaxation (μSR) experiments on polycrystals of this series to study the magnetic order and the low energy 4f-electronic spin dynamics across the FM QCP. The zero field μSR measurements on pure YbNi4(P2 proved static long range magnetic order and suggested a strongly reduced ordered Yb moment of about 0.04μB. With increasing As substitution the ordered moment is reduced by half at x = 0.04 and to less than 0.005 μB at x=0.08. The dynamic behavior in the μSR response show that magnetism remains homogeneous upon As substitution, without evidence for disorder effect. In the paramagnetic state across the FM QCP the dynamic muon-spin relaxation rate follows 1/T1T T-n with 1.01 0.04 ≤ n ≤ 1.13 0.06. The critical fluctuations are very slow and are even becoming slower when approaching the QCP.