Magnetic ordering in amorphous Nd-Co, Gd-Co and Er-Co alloys

Abstract

Previous studies of magnetism in amorphous rare earth–transition metal alloys have emphasized alloys rich in transition metal. We report here results on three rare earth rich amorphous alloys: Nd₆₄Co₃₆, Gd₆₅Co₃₅, and Er₆₅Co₃₅. Low field susceptibility, χ, was measured for T in the range 4.2 K⩽T⩽300 K and magnetization was measured for 1.3⩽T⩽200 K and applied fields, H, of 0⩽H⩽80 kOe. Curie‐Weiss fits were made to high temperature χ (T) data to determine average effective moments and Weiss temperatures. Hysteresis loops were used to determine the coercive force and the ordering temperatures, T_C. The effective moments and saturation moments are compared with values calculated on the assumption of local moments on both the rare earth and Co ions. T_C values for Nd, Gd, and Er alloys are 38 K, 170 K, and 12 K, respectively. The data are consistent with a ferrimagnetic structure in Gd₆₅Co₃₅. Local random anisotropy appears to play an important role in the Nd‐Co and the Er‐Co alloys.