Direct observation of domain wall motion induced by low-current density in TbFeCo wires

Duc The Ngo; Kotato Ikeda; Hiroyuki Awano

doi:10.1143/APEX.4.093002

Direct observation of domain wall motion induced by low-current density in TbFeCo wires

Duc The Ngo^*
, Kotato Ikeda
, Hiroyuki Awano

^*Corresponding author for this work

Toyota Technological Institute

Research output: Contribution to journal › Article › peer-review

Abstract

The motion of magnetic domain walls (DWs) in TbFeCo wires induced by low-current density up to 4.97 × 10 ¹⁰ A/M ² has been directly observed by Kerr polarized optical microscopy. The critical current density slightly increases with wire width, from 4.97 × 10 ¹⁰ A/M ² for 800-nm-width wires to 6.16 × 10 ¹⁰ A/M ² for 1500-nm-width wires. DW velocity is estimated to be 28 ± 2 m/s, and mostly independent on the wire width. Increasing current density results in an increase of the wall velocity up to 59 ±4 m/s. These findings indicate that TbFeCo nanowire is an excellent candidate for low-energy, fast accessing DW-controlled devices.

Original language	English
Article number	093002
Journal	Applied Physics Express
Volume	4
Issue number	9
DOIs	https://doi.org/10.1143/APEX.4.093002
Publication status	Published - 1 Sept 2011

Keywords

Current density
Domain walls
magnetic domains
Nanowires

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10.1143/APEX.4.093002

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title = "Direct observation of domain wall motion induced by low-current density in TbFeCo wires",

abstract = " The motion of magnetic domain walls (DWs) in TbFeCo wires induced by low-current density up to 4.97 × 10 10 A/M 2 has been directly observed by Kerr polarized optical microscopy. The critical current density slightly increases with wire width, from 4.97 × 10 10 A/M 2 for 800-nm-width wires to 6.16 × 10 10 A/M 2 for 1500-nm-width wires. DW velocity is estimated to be 28 ± 2 m/s, and mostly independent on the wire width. Increasing current density results in an increase of the wall velocity up to 59 ±4 m/s. These findings indicate that TbFeCo nanowire is an excellent candidate for low-energy, fast accessing DW-controlled devices.",

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author = "Ngo, \{Duc The\} and Kotato Ikeda and Hiroyuki Awano",

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AU - Ikeda, Kotato

AU - Awano, Hiroyuki

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Y1 - 2011/9/1

N2 - The motion of magnetic domain walls (DWs) in TbFeCo wires induced by low-current density up to 4.97 × 10 10 A/M 2 has been directly observed by Kerr polarized optical microscopy. The critical current density slightly increases with wire width, from 4.97 × 10 10 A/M 2 for 800-nm-width wires to 6.16 × 10 10 A/M 2 for 1500-nm-width wires. DW velocity is estimated to be 28 ± 2 m/s, and mostly independent on the wire width. Increasing current density results in an increase of the wall velocity up to 59 ±4 m/s. These findings indicate that TbFeCo nanowire is an excellent candidate for low-energy, fast accessing DW-controlled devices.

AB - The motion of magnetic domain walls (DWs) in TbFeCo wires induced by low-current density up to 4.97 × 10 10 A/M 2 has been directly observed by Kerr polarized optical microscopy. The critical current density slightly increases with wire width, from 4.97 × 10 10 A/M 2 for 800-nm-width wires to 6.16 × 10 10 A/M 2 for 1500-nm-width wires. DW velocity is estimated to be 28 ± 2 m/s, and mostly independent on the wire width. Increasing current density results in an increase of the wall velocity up to 59 ±4 m/s. These findings indicate that TbFeCo nanowire is an excellent candidate for low-energy, fast accessing DW-controlled devices.

KW - Current density

KW - Domain walls

KW - magnetic domains

KW - Nanowires

UR - https://www.scopus.com/pages/publications/80052568415

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DO - 10.1143/APEX.4.093002

M3 - Article

AN - SCOPUS:80052568415

SN - 1882-0778

VL - 4

JO - Applied Physics Express

JF - Applied Physics Express

IS - 9

M1 - 093002

ER -

Direct observation of domain wall motion induced by low-current density in TbFeCo wires

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