Title :
Finite Size Effect on Spread of Resonance Frequencies in Arrays of Coupled Vortices
Author :
Vogel, Andreas ; Drews, André ; Im, Mi-Young ; Fischer, Peter ; Meier, Guido
Author_Institution :
Inst. fur Angewandte Phys. und Zentrum fur Mikrostrukturforschung, Univ. Hamburg, Hamburg, Germany
fDate :
6/1/2011 12:00:00 AM
Abstract :
Dynamical properties of magnetic vortices in arrays of magnetostatically coupled ferromagnetic disks are studied by means of a broadband ferromagnetic-resonance (FMR) setup. Magnetic force microscopy and magnetic transmission soft X-ray microscopy are used to image the core polarizations and the chiralities which are both found to be randomly distributed. The resonance frequency of vortex-core motion strongly depends on the magnetostatic coupling between the disks. The parameter describing the relative broadening of the absorption peak observed in the FMR transmission spectra for a given normalized center-to-center distance between the elements is shown to depend on the size of the array.
Keywords :
X-ray microscopy; ferromagnetic materials; ferromagnetic resonance; magnetic force microscopy; magnetisation; magnetostatics; vortices; FMR transmission spectra; absorption peak broadening; broadband ferromagnetic-resonance; chiralities; core polarizations; coupled vortices; finite size effect; magnetic force microscopy; magnetic transmission soft X-ray microscopy; magnetic vortices; magnetostatic coupling; magnetostatically coupled ferromagnetic disks; resonance frequency spread; vortex-core motion; Magnetic cores; Magnetic resonance; Magnetic resonance imaging; Magnetostatic waves; Magnetostatics; Microscopy; Saturation magnetization; Broadband ferromagnetic resonance measurements; magnetic properties of nanostructures; magnetization dynamics; magnetostatic coupling;
Journal_Title :
Magnetics, IEEE Transactions on
DOI :
10.1109/TMAG.2011.2107505
