Effect of addition of al to single-crystalline CoFe electrodes on nonlocal spin signals in lateral spin-valve devices

Soichiro Oki; Shinya Yamada; Naoki Hashimoto; Masanobu Miyao; Takashi Kimura; Kohei Hamaya

doi:10.1143/APEX.5.063004

Effect of addition of al to single-crystalline CoFe electrodes on nonlocal spin signals in lateral spin-valve devices

Soichiro Oki, Shinya Yamada, Naoki Hashimoto, Masanobu Miyao, Takashi Kimura, Kohei Hamaya

Condensed Matter Physics

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

24 Citations (Scopus)

Abstract

Using single-crystalline spin injectors and detectors, we examine the effect of the addition of Al to CoFe electrodes on nonlocal spin signals in metallic lateral spin valves (LSVs). A molecular beam epitaxy technique enables us to obtain Heusler-alloy-like CoFeAl epitaxial layers with an ordered B2 structure. The LSVs with the CoFeAl electrodes show a remarkable enhancement of the nonlocal spin signals, six times larger than that of the LSV with the CoFe electrodes, at room temperature. The relatively low electrical resistivity of the CoFeAl electrodes means that the enhancement of the spin signals originates from an increase in the spin polarization due to the Al addition to CoFe.

Original language	English
Article number	063004
Journal	Applied Physics Express
Volume	5
Issue number	6
DOIs	https://doi.org/10.1143/APEX.5.063004
Publication status	Published - Jun 2012

All Science Journal Classification (ASJC) codes

Engineering(all)
Physics and Astronomy(all)

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title = "Effect of addition of al to single-crystalline CoFe electrodes on nonlocal spin signals in lateral spin-valve devices",

abstract = "Using single-crystalline spin injectors and detectors, we examine the effect of the addition of Al to CoFe electrodes on nonlocal spin signals in metallic lateral spin valves (LSVs). A molecular beam epitaxy technique enables us to obtain Heusler-alloy-like CoFeAl epitaxial layers with an ordered B2 structure. The LSVs with the CoFeAl electrodes show a remarkable enhancement of the nonlocal spin signals, six times larger than that of the LSV with the CoFe electrodes, at room temperature. The relatively low electrical resistivity of the CoFeAl electrodes means that the enhancement of the spin signals originates from an increase in the spin polarization due to the Al addition to CoFe.",

author = "Soichiro Oki and Shinya Yamada and Naoki Hashimoto and Masanobu Miyao and Takashi Kimura and Kohei Hamaya",

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T1 - Effect of addition of al to single-crystalline CoFe electrodes on nonlocal spin signals in lateral spin-valve devices

AU - Oki, Soichiro

AU - Yamada, Shinya

AU - Hashimoto, Naoki

AU - Miyao, Masanobu

AU - Kimura, Takashi

AU - Hamaya, Kohei

PY - 2012/6

Y1 - 2012/6

N2 - Using single-crystalline spin injectors and detectors, we examine the effect of the addition of Al to CoFe electrodes on nonlocal spin signals in metallic lateral spin valves (LSVs). A molecular beam epitaxy technique enables us to obtain Heusler-alloy-like CoFeAl epitaxial layers with an ordered B2 structure. The LSVs with the CoFeAl electrodes show a remarkable enhancement of the nonlocal spin signals, six times larger than that of the LSV with the CoFe electrodes, at room temperature. The relatively low electrical resistivity of the CoFeAl electrodes means that the enhancement of the spin signals originates from an increase in the spin polarization due to the Al addition to CoFe.

AB - Using single-crystalline spin injectors and detectors, we examine the effect of the addition of Al to CoFe electrodes on nonlocal spin signals in metallic lateral spin valves (LSVs). A molecular beam epitaxy technique enables us to obtain Heusler-alloy-like CoFeAl epitaxial layers with an ordered B2 structure. The LSVs with the CoFeAl electrodes show a remarkable enhancement of the nonlocal spin signals, six times larger than that of the LSV with the CoFe electrodes, at room temperature. The relatively low electrical resistivity of the CoFeAl electrodes means that the enhancement of the spin signals originates from an increase in the spin polarization due to the Al addition to CoFe.

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Effect of addition of al to single-crystalline CoFe electrodes on nonlocal spin signals in lateral spin-valve devices

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