Title :
Approach to High-Density Recording Using CGC Structure
Author :
Yasumori, Junichi ; Sonobe, Yoshiaki ; Greaves, Simon J. ; Tham, Kim Kong
Author_Institution :
HOYA Corp., Tokyo
Abstract :
Coupled granular/continuous (CGC) perpendicular media with two different continuous layers, a Co/Pd multilayer and a CoCrPtB cap layer, were compared. It was confirmed that both thickness optimized layers functioned well as exchange coupled continuous layers. A Landau-Lifshitz-Gilbert simulation was performed for various grain boundary thicknesses, and the signal-to-noise ratio improvement predicted by the simulation was in good agreement with experiments. The CGC structure was susceptible to side erasure on account of its Stoner-Wohlfarth type magnetic switching, and the recording performance was dominated by the granular layer. Controlling this behavior would enable further improvement in recording density. The benefits of discrete-track media with the CGC structure are discussed. We found that ion irradiation of the CGC media could be effective to create soft magnetic regions in between recorded tracks, which act as guard bands, improving the recording performance.
Keywords :
cobalt; exchange interactions (electron); grain boundaries; magnetic multilayers; magnetic switching; palladium; perpendicular magnetic recording; soft magnetic materials; CGC structure; Co-Pd; Landau-Lifshitz-Gilbert simulation; Stoner-Wohlfarth type magnetic switching; coupled granular-continuous perpendicular media; discrete-track media; exchange coupled continuous layers; grain boundary; magnetic recording; multilayer; signal-noise ratio; soft magnetism; Discrete-track medium; exchange coupling; soft guard band; track edge noise;
Journal_Title :
Magnetics, IEEE Transactions on
DOI :
10.1109/TMAG.2008.2010652
