Domain wall dynamics and Hall effect in eddy current loop in amorphous ferromagnetic wire with small helical anisotropy

Small helical anisotropy was induced in amorphous ferromagnetic Co 68.2Fe 4.3Si 12.5B 15 wire by current annealing and simultaneous application of tensile stress and torsion. Presence of helical anisotropy was confirmed by measurement and analysis of the circular magnetic flux versus axial magnetic...

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Veröffentlicht in:	Physica. B, Condensed matter Condensed matter, 2011-10, Vol.406 (19), p.3576-3582
Hauptverfasser:	Ziman, J., Onufer, J., Kladivová, M.
Format:	Artikel
Sprache:	eng
Schlagworte:	Amorphous and quasicrystalline magnetic materials Amorphous wire Anisotropy Condensed matter: electronic structure, electrical, magnetic, and optical properties Domain structure (including magnetic bubbles) Domain wall velocity Domain walls Dynamics Exact sciences and technology Ferromagnetism Hall effect Helical Helical anisotropy Magnetic fields Magnetic properties and materials Magnetic properties of surface, thin films and multilayers Magnetic reversal Physics Studies of specific magnetic materials Wire
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container_end_page	3582
container_issue	19
container_start_page	3576
container_title	Physica. B, Condensed matter
container_volume	406
creator	Ziman, J. Onufer, J. Kladivová, M.
description	Small helical anisotropy was induced in amorphous ferromagnetic Co 68.2Fe 4.3Si 12.5B 15 wire by current annealing and simultaneous application of tensile stress and torsion. Presence of helical anisotropy was confirmed by measurement and analysis of the circular magnetic flux versus axial magnetic field hysteresis loops. These measurements also showed that a single domain wall between circular domains can be created by placing the wire in a sufficiently high inhomogeneous magnetic field generated by Helmholtz coils with opposite currents. The domain wall velocity versus axial driving field was measured. The results show that the basic dynamic properties (magnitude of the wall mobility, field interval in which linear dependencies between velocity and field are observed, accelerated increase of the velocity for higher fields) are very similar to those obtained for the domain wall between circular domains driven by a constant circular field. The Hall effect was detected in the eddy current loop generated by the moving domain wall.
doi_str_mv	10.1016/j.physb.2011.03.085
format	Article
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Presence of helical anisotropy was confirmed by measurement and analysis of the circular magnetic flux versus axial magnetic field hysteresis loops. These measurements also showed that a single domain wall between circular domains can be created by placing the wire in a sufficiently high inhomogeneous magnetic field generated by Helmholtz coils with opposite currents. The domain wall velocity versus axial driving field was measured. The results show that the basic dynamic properties (magnitude of the wall mobility, field interval in which linear dependencies between velocity and field are observed, accelerated increase of the velocity for higher fields) are very similar to those obtained for the domain wall between circular domains driven by a constant circular field. 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B, Condensed matter</title><description>Small helical anisotropy was induced in amorphous ferromagnetic Co 68.2Fe 4.3Si 12.5B 15 wire by current annealing and simultaneous application of tensile stress and torsion. Presence of helical anisotropy was confirmed by measurement and analysis of the circular magnetic flux versus axial magnetic field hysteresis loops. These measurements also showed that a single domain wall between circular domains can be created by placing the wire in a sufficiently high inhomogeneous magnetic field generated by Helmholtz coils with opposite currents. The domain wall velocity versus axial driving field was measured. The results show that the basic dynamic properties (magnitude of the wall mobility, field interval in which linear dependencies between velocity and field are observed, accelerated increase of the velocity for higher fields) are very similar to those obtained for the domain wall between circular domains driven by a constant circular field. 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These measurements also showed that a single domain wall between circular domains can be created by placing the wire in a sufficiently high inhomogeneous magnetic field generated by Helmholtz coils with opposite currents. The domain wall velocity versus axial driving field was measured. The results show that the basic dynamic properties (magnitude of the wall mobility, field interval in which linear dependencies between velocity and field are observed, accelerated increase of the velocity for higher fields) are very similar to those obtained for the domain wall between circular domains driven by a constant circular field. The Hall effect was detected in the eddy current loop generated by the moving domain wall.</abstract><cop>Kidlington</cop><pub>Elsevier B.V</pub><doi>10.1016/j.physb.2011.03.085</doi><tpages>7</tpages></addata></record>
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subjects	Amorphous and quasicrystalline magnetic materials Amorphous wire Anisotropy Condensed matter: electronic structure, electrical, magnetic, and optical properties Domain structure (including magnetic bubbles) Domain wall velocity Domain walls Dynamics Exact sciences and technology Ferromagnetism Hall effect Helical Helical anisotropy Magnetic fields Magnetic properties and materials Magnetic properties of surface, thin films and multilayers Magnetic reversal Physics Studies of specific magnetic materials Wire
title	Domain wall dynamics and Hall effect in eddy current loop in amorphous ferromagnetic wire with small helical anisotropy
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