Title :
Magnetization Reversal in Arrays of Magnetic Nanoperforations
Author :
Makarov, Denys ; Krone, Philipp ; Lantiat, David ; Schulze, Carsten ; Liebig, Andreas ; Brombacher, Christoph ; Hietschold, Michael ; Hermann, Sascha ; Laberty, Christel ; Grosso, David ; Albrecht, Manfred
Author_Institution :
Inst. of Phys., Chemnitz Univ. of Technol., Chemnitz, Germany
Abstract :
Nanoperforated ZrO2 membranes, produced via organic/inorganic self-assembly using block copolymer micelles, serve as template for a Co/Pt multilayer stack with out-of-plane magnetic anisotropy. The deposition of the magnetic film results in an array of magnetic nanodots surrounded by a continuous magnetic film. These magnetic dots are found to be in a single-domain state and appear as magnetically exchange isolated from the surrounding film. The latter observation can be related to the specific morphology of the nanoperforations. In addition, strong domain-wall pinning of the continuous magnetic film at the locations of the nanoperforations was observed. Therefore, this approach is promising to create a percolated magnetic medium, which is considered as future recording media.
Keywords :
cobalt; magnetic anisotropy; magnetic domain walls; magnetic multilayers; magnetic thin films; magnetisation reversal; membranes; nanotechnology; nanowires; organic-inorganic hybrid materials; platinum; polymer blends; self-assembly; Co-Pt; block copolymer micelles; domain-wall pinning; magnetic exchange; magnetic film deposition; magnetic nanodots; magnetic nanoperforations; magnetization reversal; membranes; multilayer stack; organic-inorganic self-assembly; out-of-plane magnetic anisotropy; Block copolymers; magnetic nanostructures; magnetization reversal; percolated media; perpendicular magnetic anisotropy;
Journal_Title :
Magnetics, IEEE Transactions on
DOI :
10.1109/TMAG.2009.2025181
