Title :
Spin Modes in Elliptical Nanorings in the Vortex State: Two-Dimensional Mapping by Micro-Focused Brillouin Light Scattering
Author :
Madami, M. ; Tacchi, S. ; Gubbiotti, G. ; Carlotti, G. ; Montoncello, F. ; Capuzzo, G. ; Giovannini, L. ; Nizzoli, F. ; Tanigawa, H. ; Ono, T.
Author_Institution :
Unita di Perugia Dipt. di Fis., CNISM, Perugia, Italy
Abstract :
Micro-focused and conventional Brillouin light scattering techniques have been exploited to investigate the spectrum of magnetic excitations (eigenmodes) of elliptical permalloy nanorings in the vortex ground state. The interpretation of the experimental data has been achieved using the dynamical matrix method. A careful comparison of the calculated frequency and profiles of magnetic modes with the experimental data, allowed us to identify the character of the different modes in terms of spatial symmetry and localization. In particular, the spatial extent of each mode was directly visualized by measurement of two-dimensional maps of the mode intensity over the ring surface.
Keywords :
Brillouin spectra; Permalloy; iron alloys; nanostructured materials; nickel alloys; spin dynamics; spin waves; 2D Mapping; Ni81Fe19; dynamical matrix method; eigenmodes; elliptical permalloy nanorings; magnetic excitations; magnetic modes; micro-focused brillouin light scattering; spatial localization; spatial symmetry; spin modes; vortex ground state; Brillouin scattering; Chemicals; Data visualization; Frequency; Light scattering; Magnetic confinement; Scanning electron microscopy; Stationary state; Surface waves; Wavelength measurement; Brillouin light scattering; patterned magnetic films; spin waves;
Journal_Title :
Magnetics, IEEE Transactions on
DOI :
10.1109/TMAG.2009.2032141
