Magneto-Optic Data Storage Alloys

This paper is Intended to review recent developments in the application of rare earth-transition metal alloys as high density, rewritable data-storage media. First generation magneto-optic media are based on amorphous Tb-FeCo or GdTb-Fe alloys which are adequate but could use improvements In certain respects. A very difficult materials-design problem is encountered because of the following requirements: a sufficiently large Intrinsic uniaxial anisotropy, a Curie temperature in the range 100-300°C, a sufficiently high coercivity, a sufficiently high optical absorption, a high Kerr rotation, reflectivity and high carrier-to-noise ratio, a high storage density, a very fine and homogeneous nanostructure, long-term stability, and inexpensive production. , Fundamental issues such as the relationships between the nanostructure and perpendicular magnetic anisotropy, and electronic structure and Kerr rotation are discussed. Attempts to tailor the properties by rare-earth alloying and by preparing compositionally-modulated, nanostructured multilayers are outlined. Challenges and opportunities in competitive materials such as garnets, ferrites and Co/Pt multilayers are briefly discussed.