Title :
Magnetic domain structure and coercivity distribution for patterned DyFeCo thin films
Author :
Ye, L.X. ; Lee, J.M. ; Wu, Te-Ho ; Te-Ho Wu
Author_Institution :
Taiwan SPIN Res. Center, Nat. Yunlin Univ. of Sci. & Technol., Touliu, Taiwan
Abstract :
The coercivity of patterned magnetooptical (MO) thin film media is quite different from that of nonpatterned samples. During the demagnetization process, we observed the sample´s magnetic domain motion and structures. It was quite obvious that the coercivity values in the hole regions are unlike those on the land regions for patterned magnetic materials. Nevertheless, it was not possible to compute coercivity of holes and land regions directly. In this study, we measured of microhysteresis curves at a patterned position while mapping coercivity distribution using a Kerr microscope. The submicrometer images of the remanent state of domain reversal patterns were observed using a magnetic force microscope.
Keywords :
cobalt alloys; coercive force; demagnetisation; dysprosium alloys; iron alloys; magnetic domains; magnetic hysteresis; magnetic thin films; magnetisation reversal; magneto-optical effects; metallic thin films; DyFeCo; Kerr microscope; coercivity distribution; demagnetization; domain reversal patterns; magnetic domain motion; magnetic domain structure; magnetic force microscope; microhysteresis curves; patterned DyFeCo thin films; patterned magnetooptical thin film; Coercive force; Demagnetization; Magnetic domain walls; Magnetic domains; Magnetic field measurement; Magnetic films; Magnetic force microscopy; Magnetic materials; Morphology; Perpendicular magnetic anisotropy; Coercivity; domain; magnetooptical; microhysteresis;
Journal_Title :
Magnetics, IEEE Transactions on
DOI :
10.1109/TMAG.2004.842134
