Title :
Preconditioning, write width, and recording properties of Co-Cr-Pt-O perpendicular media with various underlayer designs
Author :
Abarra, E. Noel ; Gill, Paramjit ; Zheng, Min ; Zhou, J.N. ; Acharya, B. Ramamurthy ; Choe, Gunn
Author_Institution :
MMC Technol., San Jose, CA, USA
Abstract :
The effect of magnetic "preconditioning" on the recording performance of perpendicular media is investigated. Furthermore, the dependence of the magnetic write width (MWW) of shielded-pole heads (SPH) on soft-underlayer (SUL) type and thickness (tSUL) and the recording performance of perpendicular media with thin SULs are examined. The MWW dependence on SUL structure is influenced by the pole-to-trailing shield spacing. For a wide-gap (∼80 nm) SPH, thick single-layer, SULs are preferred. For a narrow-gap (∼50 nm) SPH, MWW is less sensitive to the SUL type. For both narrow and wide-gap SPH and for media with an antiferromagnetically-coupled SUL, MWW is reduced for tSUL<100 nm. Comparable performance is achieved relative to media with tSUL∼150 nm.
Keywords :
antiferromagnetic materials; chromium compounds; cobalt compounds; magnetic heads; magnetic multilayers; magnetic recording; nanostructured materials; perpendicular magnetic recording; platinum compounds; soft magnetic materials; AC erase; Co-Cr-Pt-O perpendicular media; CoCrPtO; antiferromagnetically-coupled SUL; magnetic preconditioning; magnetic write width; narrow-gap spacing; pole-to-trailing shield spacing; recording performance; recording properties; shielded-pole heads; soft underlayer; wide-gap spacing; Amorphous magnetic materials; Antiferromagnetic materials; Land mobile radio; Magnetic heads; Magnetic properties; Magnetic recording; Magnetic shielding; Perpendicular magnetic recording; Soft magnetic materials; Testing; AC erase; magnetic write width (MWW); perpendicular media; preconditioning; recording properties; soft underlayer (SUL);
Journal_Title :
Magnetics, IEEE Transactions on
DOI :
10.1109/TMAG.2004.838069
