Modulation of domain wall dynamics in TbFeCo single layer nanowire

Duc The Ngo; Kotaro Ikeda; Hiroyuki Awano

doi:10.1063/1.4704395

Modulation of domain wall dynamics in TbFeCo single layer nanowire

Duc The Ngo^*, Kotaro Ikeda, Hiroyuki Awano

^*Corresponding author for this work

Toyota Technological Institute

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

Abstract

We demonstrate the possibility to write and modulate the magnetic domain walls in a TbFeCo single layer nanowire (300 nm width, 150 m length). To realize this, a tiny magnetic domain was nucleated by an Oersted field produced by a 1.6 MHz pulse current (35 mA in amplitude, 5-40 ns in length) crossed the wire. To write the wall to the wire, a DC current was used to drive the nucleated domain (with two walls in two sides) to the wire in accordance with spin-transfer torque mechanism. A critical current density of J _c 3.5 × 10 ¹⁰ Am ^-2 was required to control the motion of the walls in the wire. It was found that the size of the domain moving in the wire could be adjusted by either external field or the length of the nucleated pulse current. This could be considered as an important note for writing process in domain wall spin-torque devices, especially, memory elements.

Original language	English
Article number	083921
Journal	Journal of Applied Physics
Volume	111
Issue number	8
DOIs	https://doi.org/10.1063/1.4704395
Publication status	Published - 15 Apr 2012

Keywords

cobalt alloys
Current density
iron alloys
magnetic domain walls
magnetic thin films
metallic thin films
nanomagnetics
nanowires

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10.1063/1.4704395

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title = "Modulation of domain wall dynamics in TbFeCo single layer nanowire",

abstract = "We demonstrate the possibility to write and modulate the magnetic domain walls in a TbFeCo single layer nanowire (300 nm width, 150 m length). To realize this, a tiny magnetic domain was nucleated by an Oersted field produced by a 1.6 MHz pulse current (35 mA in amplitude, 5-40 ns in length) crossed the wire. To write the wall to the wire, a DC current was used to drive the nucleated domain (with two walls in two sides) to the wire in accordance with spin-transfer torque mechanism. A critical current density of J c 3.5 × 10 10 Am -2 was required to control the motion of the walls in the wire. It was found that the size of the domain moving in the wire could be adjusted by either external field or the length of the nucleated pulse current. This could be considered as an important note for writing process in domain wall spin-torque devices, especially, memory elements.",

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

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AU - Ngo, Duc The

AU - Ikeda, Kotaro

AU - Awano, Hiroyuki

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N2 - We demonstrate the possibility to write and modulate the magnetic domain walls in a TbFeCo single layer nanowire (300 nm width, 150 m length). To realize this, a tiny magnetic domain was nucleated by an Oersted field produced by a 1.6 MHz pulse current (35 mA in amplitude, 5-40 ns in length) crossed the wire. To write the wall to the wire, a DC current was used to drive the nucleated domain (with two walls in two sides) to the wire in accordance with spin-transfer torque mechanism. A critical current density of J c 3.5 × 10 10 Am -2 was required to control the motion of the walls in the wire. It was found that the size of the domain moving in the wire could be adjusted by either external field or the length of the nucleated pulse current. This could be considered as an important note for writing process in domain wall spin-torque devices, especially, memory elements.

AB - We demonstrate the possibility to write and modulate the magnetic domain walls in a TbFeCo single layer nanowire (300 nm width, 150 m length). To realize this, a tiny magnetic domain was nucleated by an Oersted field produced by a 1.6 MHz pulse current (35 mA in amplitude, 5-40 ns in length) crossed the wire. To write the wall to the wire, a DC current was used to drive the nucleated domain (with two walls in two sides) to the wire in accordance with spin-transfer torque mechanism. A critical current density of J c 3.5 × 10 10 Am -2 was required to control the motion of the walls in the wire. It was found that the size of the domain moving in the wire could be adjusted by either external field or the length of the nucleated pulse current. This could be considered as an important note for writing process in domain wall spin-torque devices, especially, memory elements.

KW - cobalt alloys

KW - Current density

KW - iron alloys

KW - magnetic domain walls

KW - magnetic thin films

KW - metallic thin films

KW - nanomagnetics

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Modulation of domain wall dynamics in TbFeCo single layer nanowire

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