Title :
Investigation for Mechanism of Far Track Interference in Hard Disk Drives
Author :
Shimokoshi, Masayoshi ; Wen-Chien Hsiao ; Kaya, Ahmet ; Yansheng Luo ; Cheng, Nelson ; Ramamoorthy, Lakshmi ; Jen, David ; Schouterden, Kris
Author_Institution :
Hitachi Global Storage Technol. Japan, Ltd., Fujisawa, Japan
Abstract :
In hard disk drives (HDDs) using perpendicular magnetic recording, an adjacent track interference (ATI) is a major barrier to increasing areal density because both strong writing and narrow track pitch are required. Recent head/disk combinations have exhibited not only ATI, but also a phenomenon we call far track interference (FTI). FTI is a gradual magnetic damage to written data on nearby but non-adjacent tracks that accumulate with increasing number of writes. We developed HDD level measurement ways to detect FTI and investigate the FTI mechanism considering skew angle and external field effects. We also confirmed that the minor shape change of wrap around shield (WAS) causes difference of magnetic domain structures on WAS and FTI incidence. The results support the hypothesis that the FTI is created by structures of magnetic domains and walls on a WAS of a single-pole head on the HDD.
Keywords :
disc drives; hard discs; interference; level measurement; magnetic domains; perpendicular magnetic recording; HDD level measurement; WAS; adjacent track interference; areal density; external field effects; far track interference; gradual magnetic damage; hard disk drives; head-disk combinations; magnetic domain structures; perpendicular magnetic recording; skew angle; wrap around shield; Bit error rate; Degradation; Magnetic domains; Magnetic fields; Magnetic heads; Shape; Target tracking; ATI; Adjacent track interference (ATI); FTI; HDD; far track interference (FTI); hard disk drive (HDD); magnetic domain and wall; perpendicular magnetic recording; wrap around shield (WAS);
Journal_Title :
Magnetics, IEEE Transactions on
DOI :
10.1109/TMAG.2015.2402271
