In a thin magnetic nanostripe, an antivortex nucleates inside a moving domain wall when driven by an in-plane magnetic field greater than the so-called Walker field. The nucleated antivortex must cross the width of the nanostripe before the domain wall can propagate again, leading to low average domain wall speeds. A large out-of-plane magnetic field, applied perpendicularly to the plane of the nanostripe, inhibits the nucleation of the antivortex leading to fast domain wall speeds for all in-plane driving fields. We present micromagnetic simulation results relating the antivortex dynamics to the strength of the out-of-plane field. An asymmetry in the motion is observed which depends on the alignment of the antivortex core magnetic moments to the direction of the out-of-plane field. The size of the core is directly related to its crossing speed, both depending on the strength of the perpendicular field and the alignment of the core moments and direction of the out-of-plane field.
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1 April 2009
PROCEEDINGS OF THE 53RD ANNUAL CONFERENCE ON MAGNETISM AND MAGNETIC MATERIALS
10-14 November 2008
Austin, Texas (USA)
Research Article|
Magnetism and Magnetic Materials|
January 30 2009
Antivortex dynamics in magnetic nanostripes
Andrew Kunz;
Andrew Kunz
a)
Physics Department,
Marquette University
, Milwaukee, Wisconsin 53233, USA
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Eric C. Breitbach;
Eric C. Breitbach
Physics Department,
Marquette University
, Milwaukee, Wisconsin 53233, USA
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Andy J. Smith
Andy J. Smith
Physics Department,
Marquette University
, Milwaukee, Wisconsin 53233, USA
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a)
Electronic mail: andrew.kunz@marquette.edu.
J. Appl. Phys. 105, 07D502 (2009)
Article history
Received:
September 16 2008
Accepted:
October 06 2008
Citation
Andrew Kunz, Eric C. Breitbach, Andy J. Smith; Antivortex dynamics in magnetic nanostripes. J. Appl. Phys. 1 April 2009; 105 (7): 07D502. https://doi.org/10.1063/1.3056139
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