Title :
High Density Perpendicular Recording With Wrap-Around Shielded Writer
Author :
Bai, Daniel Z. ; Wu, Yan ; Dovek, Moris ; Liu, Yue ; Zhang, Xiaofeng ; Liu, Kowang ; Takano, Kenichi ; Zhou, Yuchen
Author_Institution :
Headway Technol., Inc., Milpitas, CA, USA
fDate :
3/1/2010 12:00:00 AM
Abstract :
Wrap-around shielded writers combining both trailing shield and side shield have been studied both by modeling and by experiments. WAS design is demonstrated to have superior performance over its predecessor trailing shielded writer in perpendicular magnetic recording systems. While maintaining the down-track performance, the side shield significantly reduces the side fringing field, thus enabling high track densities. In this paper, various aspects of WAS design are investigated. Issues unique to side shielded design such as near and far track erasure are also discussed in detail. An outlook of future PMR writer and recording systems design is presented at the end.
Keywords :
magnetic heads; magnetic shielding; perpendicular magnetic recording; PMR writer; WAS design; down-track field; far track erasure; high density perpendicular magnetic recording; magnetic heads; near track erasure; side fringing field; side shield; trailing shield; wrap-around shielded writer; Degradation; Disk recording; Fabrication; Geometry; Hard disks; Interference suppression; Material properties; Performance loss; Perpendicular magnetic recording; Solid modeling; Adjacent track erasure; far track erasure; perpendicular recording; side shield; wrap-around shield;
Journal_Title :
Magnetics, IEEE Transactions on
DOI :
10.1109/TMAG.2009.2034753
