Title :
Magnetic properties, microstructure, and read-write performance of CoSiO2-Pt granular multilayer perpendicular recording media
Author :
Kawada, Yasuyuki ; Ueno, Yukie ; Shibata, Kazuyoshi
Author_Institution :
Device Technol. Lab., Fuji Electr. Adv. Technol. Co. Ltd., Nagano, Japan
fDate :
7/1/2004 12:00:00 AM
Abstract :
Co layers with added SiO2 were applied to Co-Pt multilayer media to enhance the grain isolation and reduce the media noise. Typical magnetic properties of the media with 0.29 nm Co layer thickness and 0.12 nm Pt layer thickness were the coercivity Hc=6.2 kOe, the saturation magnetization Ms=540 emu/cm3, squareness S=1.0, the slope parameter α=1.6, the nucleation field Hn=-2.5 kOe, and the perpendicular anisotropy energy Ku=6.0×106 erg/cm3. Average grain size and grain boundary of that media were 6.6 nm in diameter and about 2 nm in width, respectively. The media exhibited both excellent recording performances and good thermal stability.
Keywords :
cobalt compounds; grain boundaries; grain size; magnetic anisotropy; magnetic multilayers; magnetic particles; magnetic recording noise; perpendicular magnetic recording; silicon compounds; thermal stability; 0.12 nm; 0.29 nm; 2 nm; 6.6 nm; Co-Pt multilayer media; CoSiO2-Pt; CoSiO2-Pt multilayer; grain boundary; grain isolation; grain size; granular multilayer; magnetic properties; media noise; microstructure properties; nucleation field; perpendicular anisotropy energy; perpendicular magnetic recording; perpendicular recording media; read-write performance; recording performances; saturation magnetization; thermal stability; thin Pt layer; Anisotropic magnetoresistance; Coercive force; Grain boundaries; Grain size; Magnetic multilayers; Magnetic noise; Magnetic properties; Microstructure; Noise reduction; Saturation magnetization; CoSiO$_2$–Pt multilayer; SiO $_2$; perpendicular magnetic recording; thin Pt layer;
Journal_Title :
Magnetics, IEEE Transactions on
DOI :
10.1109/TMAG.2004.832503
