Abstract
Co-(Pr, Nd, Gd, Dy, Er) amorphous binary alloy films were fabricated by vacuum evaporation, and the perpendicular magnetic anisotropy constant K ? and magnetostriction A were systematically examined. For Dy-Co alloy films, the maximum value of K ? at 77 K, 9×106 erg/cm3, was obtained at 25 at% Dy. For Gd-Co films, K ? remained close to zero, regardless of the Gd concentration. In Er-Co films, K ? at 77 K took on a minimum of ?2.5×106 erg/cm3 around 19 at% Er. The ? of Gd-Co films decreased monotonically from 60×10?6 at 17.1 at% Gd to 15×10?6 at 55.1 at% Gd. For Dy-Co films, the maximum value of ? was about 220×10?6 at 31.5 at% Dy. In Er-Co films, the sign of ? changed around 17 at% Er. The change in K ? max (77 K) as the RE element was varied, was found to be similar to that of the uniaxial anisotropy expected from ions of the different rare earths in a Gd-based crystal. This fact suggests that the mechanism of perpendicular magnetic anisotropy in these amorphous films can be satisfactorily explained by a model of single RE ions in crystals, together with the local atomic order of RE atoms.
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