Title :
Side-Track Erasure Processes in Perpendicular Recording
Author :
Li, Shaoping ; Zhang, H. ; Lu, P. ; Zhu, W. ; Edelman, H. ; Rea, Chris ; Tabat, Ned ; Mao, S. ; Brown, D. ; Montemorra, M. ; Palmer, D.
Author_Institution :
Seagate Technol., Inc, Bloomington, MN
Abstract :
In perpendicular recording, substantial erasure of the stored data patterns can occur during the writing process. Among all those erasure processes, side-track erasure (STE) is one of the critical issues in drive head/media integration. Unlike the adjacent track erasure (ATE) process, the locations of the STE affected areas are often many tens of tracks away from the central writing track location. In this work, we report on an experimental investigation and quantification of the general attributes and the origins of the STE processes in various situations. Particularly, we thoroughly characterize some distinctive signatures and behaviors of STE processes by employing both the amplitude- and bit-error-rate-based STE measurement methods in combination with a novel magnetic force microscope characterization technique
Keywords :
magnetic force microscopy; perpendicular magnetic recording; magnetic force microscope; perpendicular recording; side track erasure; side writing; Bit error rate; Degradation; Magnetic field measurement; Magnetic force microscopy; Magnetic forces; Magnetic heads; Perpendicular magnetic recording; Servomechanisms; Tunneling magnetoresistance; Writing; Magnetic force microscope; perpendicular recording; side writing; side-track erasure;
Journal_Title :
Magnetics, IEEE Transactions on
DOI :
10.1109/TMAG.2006.883836
