Title :
Azimuthal Spin Wave Modes Excited in an Elliptical Nanomagnet With Vortex Pair States
Author :
Zhang, Hong ; Liu, Yaowen ; Yan, Ming ; Hertel, Riccardo
Author_Institution :
Dept. of Phys., Tongji Univ., Shanghai, China
fDate :
6/1/2010 12:00:00 AM
Abstract :
The ferromagnetic thin-film elements can be prepared to form a ¿diamond¿ remanent state that contains two vortices with opposite circulation and with the same or opposite core polarities. The vortex polarity could influence their normal modes through the magnetostatic interactions between two vortices. In this paper, micromagnetic simulations, combined with Fourier techniques, are employed to study the spin-wave (SW) modes excited in a submicron Permalloy ellipse with a vortex pair configuration. After the application of an inplane Gaussian field pulse, it is found that a series of azimuthal SW modes is excited and the high-order harmonics of SW modes are strongly dependent of the core polarities due to the dynamic magnetic interactions between the two vortices.
Keywords :
Permalloy; ferromagnetic materials; magnetic thin films; micromagnetics; nanomagnetics; nanostructured materials; remanence; spin waves; vortices; FeNi; Fourier techniques; azimuthal spin wave modes; core polarities; diamond remanent state; dynamic magnetic interactions; elliptical nanomagnet; ferromagnetic thin-film elements; high-order harmonics; inplane Gaussian field pulse; magnetostatic interactions; micromagnetic simulations; spin-wave modes; submicron Permalloy ellipse; vortex pair configuration; vortex pair states; vortex polarity; Laboratories; Magnetic confinement; Magnetic cores; Magnetization; Magnetosphere; Magnetostatic waves; Micromagnetics; Microstructure; Physics; Transistors; Magnetic vortex; micromagnetic simulation; spin-wave (SW) mode;
Journal_Title :
Magnetics, IEEE Transactions on
DOI :
10.1109/TMAG.2010.2043714
