Title :
Influence of magnetic cluster-size distribution on signal-to-noise ratio in perpendicular magnetic recording media
Author :
Hashimoto, M. ; Miura, K. ; Muraoka, H. ; Aoi, H. ; Nakamura, Y.
Author_Institution :
RIEC, Tohoku Univ., Sendai, Japan
fDate :
7/1/2004 12:00:00 AM
Abstract :
Perpendicular recording media noise is investigated with a microstructure model based upon magnetic clustering for irregular magnetization transitions. This model uses cylinders to account for the distribution of cluster diameters. Quantitative comparisons between experiments and calculations indicate that the cluster-size distribution of media can be estimated from the read/write properties. Estimates show that the cluster-size deviation of perpendicular recording media is somewhat larger than that of longitudinal recording media. Because calculations show that transition jitter depends strongly on the cluster-size distribution, reduction of the cluster-size deviation, as well as reducing the average cluster size, can significantly improve the signal-to-noise ratio of perpendicular recording media.
Keywords :
magnetic heads; magnetic recording noise; magnetisation; perpendicular magnetic recording; cluster diameters; cluster-size deviation; irregular magnetization transitions; longitudinal recording media; magnetic cluster-size distribution; magnetic clustering; microstructure model; partial erasure; percolation; perpendicular double-layer media; perpendicular magnetic recording media; perpendicular recording media noise; read properties; signal-to-noise ratio; single pole head; transition jitter; write properties; Giant magnetoresistance; Jitter; Magnetic heads; Magnetic noise; Magnetic separation; Microstructure; Noise reduction; Perpendicular magnetic recording; Saturation magnetization; Signal to noise ratio; Media noise; partial erasure; percolation; perpendicular double-layer media; single pole head;
Journal_Title :
Magnetics, IEEE Transactions on
DOI :
10.1109/TMAG.2004.830468
