DocumentCode
1389782
Title
Enhancement and Correlation of MFM Images: Effect of the Tip on the Magnetic Configuration of Patterned Co Thin Films
Author
Chiolerio, A. ; Martino, P. ; Celegato, F. ; Giurdanella, S. ; Allia, P.
Author_Institution
Phys. Dept., Politec. di Torino, Torino, Italy
Volume
46
Issue
2
fYear
2010
Firstpage
195
Lastpage
198
Abstract
A technique of numerical treatment of magnetic force microscopy (MFM) data matrices has been exploited to enhance the quality of raw MFM images of patterned Co thin films obtained by electron beam lithography on RF sputtered 30-nm-thick Co samples. The pattern consists of chains of elliptical cylinders whose major axis is around 2.5 ¿ m and whose minor axis is around 0.5 ¿m (aspect ratio 5:1). In this work, a new differential approach is proposed. Two or more MFM images of the same surface area of a soft ferromagnetic material submitted to different magnetic fields H are examined, and the different arrangements of the local magnetization, as emerging from contrast differences in MFM images, are analyzed as functions of H. It is shown that this differential approach is able to account for the effect of the MFM tip on the magnetization of the investigated soft magnetic material. The patterned Co samples used to demonstrate this method have been demagnetized before each MFM scan in the plane of the film by applying an alternate field of progressively small absolute value.RF sputtered samples.
Keywords
cobalt; electron beam lithography; ferromagnetic materials; magnetic force microscopy; magnetic structure; magnetic thin films; magnetisation; shapes (structures); sputtering; MFM Images; RF sputtered samples; electron beam lithography; elliptical cylinders; ferromagnetic material; local magnetization; magnetic configuration; magnetic force microscopy; numerical treatment; patterned cobalt thin films; size 30 nm; surface area; Electron beams; Electron microscopy; Lithography; Magnetic films; Magnetic force microscopy; Magnetic forces; Magnetization; Radio frequency; Soft magnetic materials; Sputtering; Algorithms; magnetic films; magnetic force microscopy (MFM);
fLanguage
English
Journal_Title
Magnetics, IEEE Transactions on
Publisher
ieee
ISSN
0018-9464
Type
jour
DOI
10.1109/TMAG.2009.2033202
Filename
5393144
Link To Document