Spin wave mediated unidirectional vortex core reversal by two orthogonal monopolar field pulses: The essential role of three-dimensional magnetization dynamics

Scanning transmission x-ray microscopy is employed to investigate experimentally the reversal of the magnetic vortex core polarity in cylindrical Ni81Fe19 nanodisks triggered by two orthogonal monopolar magnetic field pulses with peak amplitude B 0, pulse length τ = 60 ps , and delay time Δ t in t...

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Veröffentlicht in:	Journal of applied physics 2016-05, Vol.119 (17)
Hauptverfasser:	Noske, Matthias, Stoll, Hermann, Fähnle, Manfred, Gangwar, Ajay, Woltersdorf, Georg, Slavin, Andrei, Weigand, Markus, Dieterle, Georg, Förster, Johannes, Back, Christian H., Schütz, Gisela
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Sprache:	eng
Schlagworte:	Applied physics Delay time Magnons Phase diagrams Polarity Switching Vortices X ray microscopy
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container_title	Journal of applied physics
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creator	Noske, Matthias Stoll, Hermann Fähnle, Manfred Gangwar, Ajay Woltersdorf, Georg Slavin, Andrei Weigand, Markus Dieterle, Georg Förster, Johannes Back, Christian H. Schütz, Gisela
description	Scanning transmission x-ray microscopy is employed to investigate experimentally the reversal of the magnetic vortex core polarity in cylindrical Ni81Fe19 nanodisks triggered by two orthogonal monopolar magnetic field pulses with peak amplitude B 0, pulse length τ = 60 ps , and delay time Δ t in the range from − 400 ps to + 400 ps between the two pulses. The two pulses are oriented in-plane in the x- and y-directions. We have experimentally studied vortex core reversal as a function of B 0 and Δ t . The resulting phase diagram shows large regions of unidirectional vortex core switching where the switching threshold is modulated due to resonant amplification of azimuthal spin waves. The switching behavior changes dramatically depending on whether the first pulse is applied in the x- or the y-direction. This asymmetry can be reproduced by three-dimensional micromagnetic simulations but not by two-dimensional simulations. This behavior demonstrates that in contrast to the previous experiments on vortex core reversal, the three-dimensionality in the dynamics is essential here.
doi_str_mv	10.1063/1.4948354
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The two pulses are oriented in-plane in the x- and y-directions. We have experimentally studied vortex core reversal as a function of B 0 and Δ t . The resulting phase diagram shows large regions of unidirectional vortex core switching where the switching threshold is modulated due to resonant amplification of azimuthal spin waves. The switching behavior changes dramatically depending on whether the first pulse is applied in the x- or the y-direction. This asymmetry can be reproduced by three-dimensional micromagnetic simulations but not by two-dimensional simulations. 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The two pulses are oriented in-plane in the x- and y-directions. We have experimentally studied vortex core reversal as a function of B 0 and Δ t . The resulting phase diagram shows large regions of unidirectional vortex core switching where the switching threshold is modulated due to resonant amplification of azimuthal spin waves. The switching behavior changes dramatically depending on whether the first pulse is applied in the x- or the y-direction. This asymmetry can be reproduced by three-dimensional micromagnetic simulations but not by two-dimensional simulations. 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subjects	Applied physics Delay time Magnons Phase diagrams Polarity Switching Vortices X ray microscopy
title	Spin wave mediated unidirectional vortex core reversal by two orthogonal monopolar field pulses: The essential role of three-dimensional magnetization dynamics
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