Detail publikace

Dynamics and efficiency of magnetic vortex circulation reversal

URBÁNEK, M. UHLÍŘ, V. LAMBERT, C. KAN, J. EIBAGI, N. VAŇATKA, M. FLAJŠMAN, L. KALOUSEK, R. IM, M. FISCHER, P. ŠIKOLA, T. FULLERTON, E.

Originální název

Dynamics and efficiency of magnetic vortex circulation reversal

Typ

článek v časopise ve Web of Science, Jimp

Jazyk

angličtina

Originální abstrakt

Dynamic switching of the vortex circulation in magnetic nanodisks by fast-rising magnetic field pulse requires annihilation of the vortex core at the disk boundary and reforming a new vortex with the opposite sense of circulation. Here we study the influence of pulse parameters on the dynamics and efficiency of the vortex core annihilation in permalloy (Ni80Fe20) nanodisks. We use magnetic transmission soft x-ray microscopy to experimentally determine a pulse rise time-pulse amplitude phase diagram for vortex circulation switching and investigate the time-resolved evolution of magnetization in different regions of the phase diagram. The experimental phase diagram is compared with an analytical model based on Thiele's equation describing high-amplitude vortex core motion in a parabolic potential. We find that the analytical model is in good agreement with experimental data for a wide range of disk geometries. From the analytical model and in accordance with our experimental finding we determine the geometrical condition for dynamic vortex core annihilation and pulse parameters needed for the most efficient and fastest circulation switching. The comparison of our experimental results with micromagnetic simulations shows that the micromagnetic simulations of ideal disks with diameters larger than 250 nm overestimate nonlinearities in susceptibility and eigenfrequency. This overestimation leads to the core polarity switching near the disk boundary, which then in disagreement with experimental findings prevents the core annihilation and circulation switching. We modify the micromagnetic simulations by introducing the boundary region of reduced magnetization to simulate the experimentally determined susceptibility and in these modified micromagnetic simulations we are able to reproduce the experimentally observed dynamic vortex core annihilation and circulation switching.

Klíčová slova

Magnetic vortexes; Nanostructures; Dynamics

Autoři

URBÁNEK, M.; UHLÍŘ, V.; LAMBERT, C.; KAN, J.; EIBAGI, N.; VAŇATKA, M.; FLAJŠMAN, L.; KALOUSEK, R.; IM, M.; FISCHER, P.; ŠIKOLA, T.; FULLERTON, E.

Rok RIV

2015

Vydáno

16. 3. 2015

ISSN

1098-0121

Periodikum

PHYSICAL REVIEW B

Ročník

91

Číslo

9

Stát

Spojené státy americké

Strany od

094415-1

Strany do

094415-11

Strany počet

11