DocumentCode
1241323
Title
Recording performance characteristics of granular perpendicular media
Author
Jiang, Wen ; Velu, E.M.T. ; Malhotra, Sudhir ; Jung, H.S. ; Kwok, Chi Kong ; Bertero, Gerardo ; Wachenschwanz, David
Author_Institution
Komag Inc., San Jose, CA, USA
Volume
41
Issue
2
fYear
2005
Firstpage
587
Lastpage
592
Abstract
The recording performance of CoCrPtO granular-type perpendicular media was examined with two types of perpendicular heads to demonstrate the importance of matching head and media designs in perpendicular recording. Shielded-pole heads with high write field gradients, field angles, and sufficient write field magnitude yielded superior writability and signal-to-noise ratio as compared to mono-pole heads. The recording performance dependences on head-to-medium spacing, interlayer thickness, and soft-underlayer (SUL) thickness were also weaker with the shielded-pole heads. In addition, the effect of stray fields on the SUL domain noise was investigated for a synthetic antiferromagnetically-coupled (SAF) SUL. A radial field close to the exchange field of the SAF SUL was found to induce domain noises that could potentially cause errors in recording systems.
Keywords
antiferromagnetic materials; chromium compounds; cobalt compounds; granular materials; magnetic heads; magnetic multilayers; magnetic recording noise; perpendicular magnetic recording; platinum compounds; soft magnetic materials; CoCrPtO; exchange field; granular double-layer media; granular perpendicular media; granular-type perpendicular media; head-to-medium spacing; interlayer thickness; mono-pole heads; perpendicular heads; perpendicular recording; radial field; recording performance characteristics; shielded-pole head; signal-to-noise ratio; soft-underlayer domain noise; soft-underlayer thickness; superior writability; synthetic antiferromagnetically-coupled soft-underlayer; Antiferromagnetic materials; Coercive force; Digital recording; Magnetic heads; Magnetic shielding; Perpendicular magnetic recording; Signal to noise ratio; Soft magnetic materials; US Department of Energy; Writing; Granular double-layer media; perpendicular recording; soft-underlayer (SUL) domain noise; synthetic antiferromagnetically-coupled (SAF) soft-underlayer;
fLanguage
English
Journal_Title
Magnetics, IEEE Transactions on
Publisher
ieee
ISSN
0018-9464
Type
jour
DOI
10.1109/TMAG.2004.838046
Filename
1396185
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