Title :
Compositionally graded magnetic multilayer films for high areal density longitudinal recording
Author :
Choe, G. ; Acharya, B.R. ; Zhou, J.N. ; Yu, M. ; Abarra, E.N. ; Johnson, K.E.
Author_Institution :
MMC Technol., San Jose, CA, USA
fDate :
7/1/2004 12:00:00 AM
Abstract :
Compositionally graded magnetic multilayer (CGM) structures were investigated to improve media signal-to-noise ratio (SNR) as well as thermal stability. The medium structure consists of multiple magnetic layers that play an important role in determining the crystallographic texture as well as magnetic activation volume. Low medium noise is achieved while retaining high resolution, as the number of layers is increased. The CGM media offer a magnetic anisotropy gradient from the top to bottom layers, which enhances head writability at high frequencies without affecting thermal stability. Improved magnetic and recording properties such as high Ku V/kT, SNR, and overwrite are obtained with CGM media, suitable for high areal density recording.
Keywords :
magnetic anisotropy; magnetic heads; magnetic multilayers; magnetic recording noise; surface composition; thermal stability; CGM media; CGM structures; compositionally graded magnetic multilayer films; crystallographic texture; head writability; high areal density longitudinal recording; high areal density recording; low medium noise; magnetic activation volume; magnetic anisotropy gradient; magnetic properties improvements; medium structure; multiple magnetic layers; recording properties; signal-to-noise ratio improvements; thermal stability; Crystallography; Magnetic anisotropy; Magnetic films; Magnetic multilayers; Magnetic noise; Magnetic recording; Perpendicular magnetic anisotropy; Signal to noise ratio; Thermal stability; User-generated content; Magnetic recording media; multilayer films; signal-to-noise ratio; thermal stability;
Journal_Title :
Magnetics, IEEE Transactions on
DOI :
10.1109/TMAG.2004.832663
