Vortex Dynamics in Magnetic Nanodisks With a Ring of Magnetic Defects

Author

ShuJun Chen ; Qi Zheng ; Senfu Zhang ; Qiyuan Zhu ; JianBo Wang ; Qingfang Liu

Author_Institution

Key Lab. for Magn. & Magn. Mater., Lanzhou Univ., Lanzhou, China

Volume

51

Issue

11

fYear

2015

Firstpage

1

Lastpage

4

Abstract

The dynamics of magnetic vortex in nanodisks with a ring-shaped magnetic defect is investigated using micromagnetic simulations. It is found that a spin-polarized current can drive the vortex core precession, and the presence of the ring affects the final steady oscillation radius R_v and the precession frequency f of the vortex core. Moreover, the precession frequency of the vortex core is sensitive to the size of the ring. In addition, compared with regular nanodisks, the oscillation frequency can be modulated in a wide range for a small exchange stiffness constant Ar of the ring. The ring-shaped defect paves a new pathway for regulating the frequency of magnetic vortex oscillators.

Keywords

micromagnetics; nanomagnetics; nanostructured materials; spin polarised transport; vortices; exchange stiffness constant; final steady oscillation radius; magnetic nanodisks; magnetic vortex dynamics; micromagnetic simulations; precession frequency; ring-shaped magnetic defect; spin-polarized current; vortex core precession; Frequency modulation; Magnetic cores; Magnetic tunneling; Magnetoelectronics; Magnetostatics; Micromagnetics; Oscillators; A ring-shaped magnetic defect; Magnetic nanodisks; magnetic nanodisks; magnetic vortex; micromagnetic simulations; ring-shaped magnetic defect;

fLanguage

English

Journal_Title

Magnetics, IEEE Transactions on

Publisher

ieee

ISSN

0018-9464

Type

jour

DOI

10.1109/TMAG.2015.2440435

Filename

7116583