Signatures of a quantum Griffiths phase in a d-metal alloy close to its ferromagnetic quantum critical point

Abstract

We report magnetization (M) measurements close to the ferromagnetic quantum phase transition of the d-metal alloy Ni1-xVx at a vanadium concentration of xc ≈ 11.4 %. In the diluted regime (x>xc), the temperature (T) and magnetic field (H) dependencies of the magnetization are characterized by nonuniversal power laws and display H/T scaling in a wide temperature and field range. The exponents vary strongly with x and follow the predictions of a quantum Griffiths phase. We also discuss the deviations and limits of the quantum Griffiths phase as well as the phase boundaries due to bulk and cluster physics.