Title :
Interlayer Thickness, Transition Parameter, and Intergranular Exchange in Perpendicular Oxide Media
Author :
Supper, Natacha ; Margulies, D.T. ; Olson, T. ; Ikeda, Y. ; Moser, A. ; Lengsfield, B. ; Berger, A.
Author_Institution :
Hitachi Global Storage Technol., San Jose, CA
Abstract :
The effect of intergranular exchange on the transition parameter (a) in perpendicular oxide composite media was investigated. Two different methods were used to vary the amount of intergranular exchange present in the films. The inter layer (IL) thickness was varied for one series of sample, while for the other, the oxygen (O2) flow was changed during deposition. The transition parameter was extracted using a read-back model to fit experimental rolloff curves for both series. The exchange was quantified by calculating alpha values from the experimental (M-H) loops. It was found that increasing the intergranular exchange in the recording layer lead to a reduction of the transition parameter by up to 12% for alpha values in the range of 2.2. These results were achieved for both methods of varying exchange and lead to very similar range of alpha values
Keywords :
inhomogeneous media; magnetic multilayers; oxygen; perpendicular magnetic recording; intergranular exchange; interlayer thickness; magnetic recording; oxygen flow; perpendicular oxide composite media; recording layer; transition parameter; Density measurement; Disk recording; Elementary particle exchange interactions; Filling; Hard disks; Magnetic field measurement; Magnetic heads; Magnetic recording; Perpendicular magnetic recording; Saturation magnetization; Intergranular exchange; interlayer (IL) thickness; magnetic recording; perpendicular oxide media; transition parameter;
Journal_Title :
Magnetics, IEEE Transactions on
DOI :
10.1109/TMAG.2006.879642
