Ko Mibu scite author profile

We report direct observation of current-driven magnetic domain wall (DW) displacement by using a well-defined single DW in a microfabricated magnetic wire with submicron width. Magnetic force microscopy visualizes that a single DW introduced in a wire is displaced back and forth by positive and negative pulsed current, respectively. The direct observation gives quantitative information on the DW displacement as a function of the intensity and the duration of the pulsed current. The result is discussed in terms of the spin-transfer mechanism.

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Propagation of a Magnetic Domain Wall in a Submicrometer Magnetic Wire

Ono

Miyajima

Shigeto

et al. 1999

Science

372

219

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Effect of Joule heating in current-driven domain wall motion

et al. 2004

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It was found that high current density needed for the current-driven domain wall motion results in the Joule heating of the sample. The sample temperature, when the current-driven domain wall motion occurred, was estimated by measuring the sample resistance during the application of a pulsed-current. The sample temperature was 750 K for the threshold current density of 6.7 x 10^11 A/m2 in a 10 nm-thick Ni81Fe19 wire with a width of 240 nm. The temperature was raised to 830 K for the current density of 7.5 x 10^11 A/m2, which is very close to the Curie temperature of bulk Ni81Fe19. When the current density exceeded 7.5 x 10^11 A/m2, an appearance of a multi-domain structure in the wire was observed by magnetic force microscopy, suggesting that the sample temperature exceeded the Curie temperature.Comment: 13 pages, 4 figure

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Ko Mibu

Erratum: Real-Space Observation of Current-Driven Domain Wall Motion in Submicron Magnetic Wires [Phys. Rev. Lett.92, 077205 (2004)]

Real-Space Observation of Current-Driven Domain Wall Motion in Submicron Magnetic Wires

Propagation of a Magnetic Domain Wall in a Submicrometer Magnetic Wire

Effect of Joule heating in current-driven domain wall motion

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