Structural and magnetic transformation in [Fe.sub.1-x][Co.sub.x][O.sub.v] films grown by molecular beam epitaxy

[Fe.sub.1-x][Co.sub.x][O.sub.y] (O [less than or equal to] x [less than or equal to] 1,1 [less than or equal to] y [less than or equal to] 4/3) mixture oxide films are grown, with epitaxial quality, on MgO(001) substrates by molecular beam epitaxy. The X-ray diffraction result along (001) plane is similar to [Fe.sub.3][O.sub.4] for the films with x < 0.5 (Fe rich) and is similar to CoO for the films with x > 0.5 (Co rich). An abrupt change, over 2%, on the lattice spacing is observed around Fe/Co ~ 1(x = 0.5) suggesting a phase transformation from spinel to rocksalt. A fast suppression of the saturation magnetization is found markedly different from the bulk materials as the Co ratio increases. Crystalline anisotropy and anomalous magnetic properties are affected substantially by Co ions. These unique magnetic behaviors of Fe-Co-O films are believed to be related to cation distribution in spinel structure originated by the low-temperature process of thin-film fabrication. Index Terms--Ferrite films, magnetic anisotropy, magnetic epitaxial layers.