DocumentCode
763767
Title
Perpendicular Magnetic Recording Media (FePt-Fe 
Pt)/MgO With Tilted Easy Axis
Author
Hnin, Yu Yu Ko ; Suzuki, Takao ; Singh, Amarendra K.
Author_Institution
Inf. Storage Mater. Lab., Toyota Technol. Inst., Nagoya
Volume
42
Issue
10
fYear
2006
Firstpage
2354
Lastpage
2356
Abstract
Magnetic properties of tilted media with a film stack structure of MgO 2 nm/Fe3Pt 0-5 nm [FePt 3 nm/MgO 2 nm/FePt 3 nm/MgO 4 nm]/SiO2/4 nmGlass were investigated. The perpendicular coercivity and nucleation field of composite media without Fe3Pt decrease by about 50% and 86%, respectively, from its initial value with increase in Fe3Pt layer thickness up to 5 nm. The estimated value of alpha(=4pi(dM/dH)H=Hc) ranges from 2-3 with increase in Fe3Pt layer thickness up to 5 nm without significant change in the loop slope. A slight decrease in Ku is observed with increasing Fe3Pt layer thickness. The magnitude of Ku is of the order of 107 erg/cc even for Fe3Pt layer thickness of 5 nm, suggesting media with Fe3Pt is expected to have a high thermal stability
Keywords
coercive force; composite materials; iron alloys; magnesium alloys; nucleation; perpendicular magnetic recording; thermal stability; 2 to 5 nm; FePt-Fe3Pt-MgO; composite media; film stack structure; magnetic properties; nucleation field; perpendicular coercivity; perpendicular magnetic recording media; thermal stability; tilted easy axis; Glass; Image storage; Iron; Magnetic anisotropy; Magnetic films; Magnetic materials; Material storage; Perpendicular magnetic anisotropy; Perpendicular magnetic recording; Temperature; FePt-Fe; magnetic anisotropy; perpendicular magnetic recording media; tilted easy axis;
fLanguage
English
Journal_Title
Magnetics, IEEE Transactions on
Publisher
ieee
ISSN
0018-9464
Type
jour
DOI
10.1109/TMAG.2006.878682
Filename
1704297
Link To Document