Title :
Domain structures in thin-film discrete magnetic tracks
Author :
Nguyen, Tu A. ; Alexopoulos, P.S. ; Hwang, C. ; Lambert, S.E. ; Sanders, L.L.
Author_Institution :
IBM Almaden Res. Center, San Jose, CA, USA
fDate :
11/1/1988 12:00:00 AM
Abstract :
The magnetic domain structure and recording characteristics of thin-film discrete tracks, physically etched in Co-alloy thin-film disks, have been studied. The micromagnetic characteristics of recorded transitions written on tracks with widths in the range of 0.5 to 10 μm at bit densities of 200 to 1000 fc/mm were imaged using Lorentz electron microscopy. Previous work has shown that signal and media noise scale linearly with discrete track width to submicron dimensions. This scaling behavior is explained by the uniformity of the domain wall structure across the track width, revealed by Lorentz microscopy. No unusual domain structures are found at the edges, in contrast to conventional recording on continuous films where complex domain structures have been observed at the edges of the written tracks. Interpretation of the images provides information about the bit definition, transition zones, and the fringing fields
Keywords :
cobalt alloys; electron microscope examination of materials; magnetic disc storage; magnetic domains; magnetic recording; magnetic thin film devices; magnetic thin films; storage media; Co-alloy; Lorentz electron microscopy; bit definition; domain wall structure; fringing fields; image interpretation; magnetic domain structure; media noise; micromagnetic characteristics; recorded transitions; recording characteristics; scaling behavior; storage media; submicron dimensions; thin-film discrete tracks; thin-film disks; transition zones; Disk recording; Electrons; Magnetic domains; Magnetic films; Magnetic heads; Magnetic materials; Magnetic noise; Magnetic recording; Magnetic separation; Noise level;
Journal_Title :
Magnetics, IEEE Transactions on
