Demonstration of magnetoelectric effect in ultrathin Cr2O3/Fe2O3 nano-oxide layer by training effect

Shimomura Naoki; Sawada Kazuya; Nozaki Tomohiro; Doi Masaaki; Sahashi Masashi

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Demonstration of magnetoelectric effect in ultrathin Cr2O3/Fe2O3 nano-oxide layer by training effect

机译：通过训练效应证明超薄Cr2O3 / Fe2O3纳米氧化物层的磁电效应

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摘要

We identified magnetoelectric effect in an ultrathin (Cr2O3/Fe2O3) nano-oxide layer structure (thickness ∼1 nm) formed on the surface of a Co0.9Fe0.1 metal layer by investigating the training effect as a function of sense current/bias voltage and its direction. A system-dependent constant κMR, which reflects changes in the surface spin, increases (decreases) with increasing current in the pinned (inverse pinned) direction. Furthermore, κMR varies for temperatures up to ∼200 K with current despite the extreme thinness, thus suggesting the current contributes to the surface spin changes. The results indicate the demonstration of the magnetoelectric effect in ultrathin Cr2O3.

机译：通过研究作为感测电流/偏置电压的函数的训练效果，我们确定了在Co0.9Fe0.1金属层表面上形成的超薄（Cr2O3 / Fe2O3）纳米氧化物层结构（厚度约为1 nm）中的磁电效应。及其方向。依赖于系统的常数κMR反映了表面自旋的变化，随着电流在固定（反向固定）方向上的增大而增大（减小）。此外，尽管极薄，但κMR在高达200 currentK的温度下仍会随电流而变化，这表明电流有助于表面自旋变化。结果表明了超薄Cr2O3中的磁电效应。

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来源
《Applied Physics Letters》 |2012年第1期|p.1-4|共4页
作者
Shimomura Naoki; Sawada Kazuya; Nozaki Tomohiro; Doi Masaaki; Sahashi Masashi;
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作者单位

Department of Electronic Engineering, Graduate School of Electronic Engineering, Tohoku University, Sendai 980-8579, Japan;

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收录信息美国《科学引文索引》(SCI);美国《工程索引》(EI);美国《生物学医学文摘》(MEDLINE);
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正文语种 eng
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入库时间 2022-08-17 13:13:33

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1. Demonstration of magnetoelectric effect in ultrathin Cr_2O_3/Fe_2O_3 nano-oxide layer by training effect [J] . Naoki Shimomura, Kazuya Sawada, Tomohiro Nozaki, Applied Physics Letters . 2012,第1期

机译：通过训练效应证明超薄Cr_2O_3 / Fe_2O_3纳米氧化物层的磁电效应
2. Epitaxial Growth and Magnetoelectric Properties of Magnetoelectric Multilayers: Cr2O3/LiNbO3/Cr2O3 Thin Films [J] . Takeshi Yokota, Koji Ichikawa, Manabu Gomi Transactions of the Japan Society for Computational Engineering and Science . 2013,第1期

机译：磁电多层膜Cr2O3 / LiNbO3 / Cr2O3薄膜的外延生长和磁电特性
3. Epitaxial Growth and Magnetoelectric Properties of Magnetoelectric Multilayers: Cr2O3/LiNbO3/Cr2O3 Thin Films [J] . Takeshi Yokota, Koji Ichikawa, Manabu Gomi E-Journal of Surface Science and Nanotechnology . 2013,第3期

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4. Anomalous temperature dependence of training effect in specular spin valve using ultrathin Cr_2O_3-nano-oxide layer with magnetoelectric effect [C] . Kazuya Sawada, Naoki Shimomura, Masaaki Doi Joint MMM-Intermag Conference . 2010

机译：用磁电效应使用超薄Cr_2O_3-纳米氧化物层在镜面旋转阀中训练效果的异常温度依赖性
5. Engineering Interfacial Magnetoelectric Effects in Ultrathin-Film Composite Nanostructures [D] . Fitzell, Kevin. 2021

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6. Magnetoelectric Force Microscopy on Antiferromagnetic 180∘ Domains in Cr2O3 [O] . Peggy Schoenherr, L. Marcela Giraldo, Martin Lilienblum, 2017

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Demonstration of magnetoelectric effect in ultrathin Cr2O3/Fe2O3 nano-oxide layer by training effect

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