Title :
Compositional inhomogeneities in Co-Cr-Ta/Cr films for longitudinal magnetic recording
Author :
Maeda, Yasushi ; Takei, Koji
Author_Institution :
NTT Basic Res. Lab., Ibaraki, Japan
fDate :
11/1/1991 12:00:00 AM
Abstract :
The change in compositional distribution of sputtered Co-12at.%Cr-2at.%Ta films deposited on Cr underlayers was investigated as a function of substrate temperature, using spin-echo 59Co nuclear magnetic resonance. It was observed that a highly Co-rich component with an estimated Co content of about 97 at.% precipitates as the substrate temperature increases from 25 to 250°C. The compositional microstructure observation suggests compositional separation within grains having Cr-enriched grain boundaries. The precipitation is in accordance with an increase in coercivity and a decrease in coercive squareness and media noise. The compositional inhomogeneities observed in Co-Cr-based alloy films for either longitudinal or perpendicular recording media are thought to be effective in promoting the change from a continuous structure to a particulate structure suitable for high-density magnetic recording
Keywords :
chromium alloys; cobalt alloys; coercive force; ferromagnetic properties of substances; grain boundaries; magnetic recording; magnetic thin films; precipitation; spin echo (NMR); sputtered coatings; tantalum alloys; 25 to 250 C; CoCrTa-Cr; Cr underlayers; coercive squareness; coercivity; compositional distribution; compositional inhomogeneities; compositional microstructure; grain boundaries; high-density magnetic recording; longitudinal magnetic recording; media noise; perpendicular recording media; precipitation; spin-echo 59Co nuclear magnetic resonance; sputtered films; substrate temperature; Chromium; Coercive force; Grain boundaries; Magnetic films; Magnetic noise; Microstructure; Nonhomogeneous media; Nuclear magnetic resonance; Perpendicular magnetic recording; Temperature distribution;
Journal_Title :
Magnetics, IEEE Transactions on
