Effects of combined current injection and laser irradiation on Permalloy microwire switching

Effects of combined current injection and laser irradiation on Permalloy microwire switching

Combined field- and current-induced domain wall (DW) motion in Permalloy microwires is studied using fast magneto-optical Kerr-microscopy. On increasing the current density, we find a decrease of Kerr signal contrast, corresponding to a reduction in the magnetization, which is attributed to Joule he...

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Veröffentlicht in:Applied physics letters 2009-11, Vol.95 (21), p.212502-212502-3
Hauptverfasser: Franken, J. H., Möhrke, P., Kläui, M., Rhensius, J., Heyderman, L. J., Thiele, J.-U., Swagten, H. J. M., Gibson, U. J., Rüdiger, U.
Format: Artikel
Sprache:eng
Schlagworte:
CURIE POINT
CURRENT DENSITY
ELECTRIC CONDUCTIVITY
HEAT FLUX
JOULE HEATING
LASER RADIATION
MAGNETIZATION
MATERIALS SCIENCE
OPTICAL MICROSCOPY
PERMALLOY
SUBSTRATES
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Zusammenfassung:Combined field- and current-induced domain wall (DW) motion in Permalloy microwires is studied using fast magneto-optical Kerr-microscopy. On increasing the current density, we find a decrease of Kerr signal contrast, corresponding to a reduction in the magnetization, which is attributed to Joule heating of the sample. Resistance measurements on samples with varying substrates confirm that the Curie temperature is reached when the magneto-optical contrast vanishes and reveal the importance of the heat flow into the substrate. By tuning the laser power, DWs can be pinned in the laser spot, which can thus act as a flexible pinning site for DW devices.
ISSN:0003-6951
1077-3118
DOI:10.1063/1.3265944