Micromagnetic structure analysis of head-on-head-type 180° domain wall in submicron size Co wires

Yukio Nozaki; Kimihide Matsuyama; Tenio Ono; Hideki Miyajima

Micromagnetic structure analysis of head-on-head-type 180° domain wall in submicron size Co wires

Yukio Nozaki, Kimihide Matsuyama, Tenio Ono, Hideki Miyajima

Electronic Devices

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11 Citations (Scopus)

Abstract

Micromagnetic structures of the 180° domain wall in submicron-size ferromagnetic Co wires were investigated by means of magnetic force microscopy. The domain wall width δ (approximately μm) observed in the Co wire is about 10 times larger than that observed in Co films of the same thickness. From micromagnetic calculations using the Landau-Lifshitz-Gilbert (LLG) equation, the magnetic structure of the 180° domain wall is expected to be a large vortex accompanied by a magnetic ripple structure. This complicated 180° domain wall is formed to reduce the demagnetizing energy due to a head-on-head configuration of the magnetization, which results in a micron-scale transition area of the domain wall. The wire width dependence of the 180° domain wall width obtained by micromagnetic calculations is almost consistent with that measured from the magnetic force micrograph.

Original language	English
Pages (from-to)	6282-6286
Number of pages	5
Journal	Japanese Journal of Applied Physics, Part 1: Regular Papers and Short Notes and Review Papers
Volume	38
Issue number	11
Publication status	Published - Nov 1 1999

All Science Journal Classification (ASJC) codes

Engineering(all)
Physics and Astronomy(all)

Cite this

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title = "Micromagnetic structure analysis of head-on-head-type 180° domain wall in submicron size Co wires",

abstract = "Micromagnetic structures of the 180° domain wall in submicron-size ferromagnetic Co wires were investigated by means of magnetic force microscopy. The domain wall width δ (approximately μm) observed in the Co wire is about 10 times larger than that observed in Co films of the same thickness. From micromagnetic calculations using the Landau-Lifshitz-Gilbert (LLG) equation, the magnetic structure of the 180° domain wall is expected to be a large vortex accompanied by a magnetic ripple structure. This complicated 180° domain wall is formed to reduce the demagnetizing energy due to a head-on-head configuration of the magnetization, which results in a micron-scale transition area of the domain wall. The wire width dependence of the 180° domain wall width obtained by micromagnetic calculations is almost consistent with that measured from the magnetic force micrograph.",

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AU - Nozaki, Yukio

AU - Matsuyama, Kimihide

AU - Ono, Tenio

AU - Miyajima, Hideki

PY - 1999/11/1

Y1 - 1999/11/1

N2 - Micromagnetic structures of the 180° domain wall in submicron-size ferromagnetic Co wires were investigated by means of magnetic force microscopy. The domain wall width δ (approximately μm) observed in the Co wire is about 10 times larger than that observed in Co films of the same thickness. From micromagnetic calculations using the Landau-Lifshitz-Gilbert (LLG) equation, the magnetic structure of the 180° domain wall is expected to be a large vortex accompanied by a magnetic ripple structure. This complicated 180° domain wall is formed to reduce the demagnetizing energy due to a head-on-head configuration of the magnetization, which results in a micron-scale transition area of the domain wall. The wire width dependence of the 180° domain wall width obtained by micromagnetic calculations is almost consistent with that measured from the magnetic force micrograph.

AB - Micromagnetic structures of the 180° domain wall in submicron-size ferromagnetic Co wires were investigated by means of magnetic force microscopy. The domain wall width δ (approximately μm) observed in the Co wire is about 10 times larger than that observed in Co films of the same thickness. From micromagnetic calculations using the Landau-Lifshitz-Gilbert (LLG) equation, the magnetic structure of the 180° domain wall is expected to be a large vortex accompanied by a magnetic ripple structure. This complicated 180° domain wall is formed to reduce the demagnetizing energy due to a head-on-head configuration of the magnetization, which results in a micron-scale transition area of the domain wall. The wire width dependence of the 180° domain wall width obtained by micromagnetic calculations is almost consistent with that measured from the magnetic force micrograph.

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Micromagnetic structure analysis of head-on-head-type 180° domain wall in submicron size Co wires

Abstract

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