Ion beam deposition and structural characterization of GMR spin valves

Wang S.X.; Bailey W.E.

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Ion beam deposition and structural characterization of GMR spin valves

机译：GMR自旋阀的离子束沉积和结构表征

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NiO exchange-biased "bottom" spin valves of the type NiO/NiFe/Co/Cu/Co/NiFe and FeMn exchange-biased "top" spin valves of the type NiFe/Co/Cu/Co/NiFe/FeMn were deposited by ion-beam deposition (except the NiO layer). Their magnetic properties, magneto-transport, and microstructures are characterized and compared with corresponding GMR spin valves deposited by dc magnetron sputtering. High-resolution cross-sectional transmission electron microscopy and X-ray diffraction reveal microstructural differences between ion-beam-deposited and dc magnetron sputtered spin valves. In particular, film texture, surface morphology, GMR ratio, exchange bias, interlayer coupling strength, and coercivity vary widely, but property-structure-processing correlation can be identified. A GMR ratio of /spl sim/9.7% was obtained on random textured NiO exchange-biased bottom spin valves by ion-beam deposition.

机译：NiO / NiFe / Co / Cu / Co / NiFe类型的NiO交换偏置“底部”自旋阀和NiFe / Co / Cu / Co / NiFe / FeMn类型的FeMn交换偏置“顶部”自旋阀通过以下方式沉积：离子束沉积（NiO层除外）。对它们的磁性，磁传输和微观结构进行了表征，并与通过直流磁控溅射沉积的相应GMR自旋阀进行了比较。高分辨率横截面透射电子显微镜和X射线衍射揭示了离子束沉积和直流磁控溅射自旋阀之间的微观结构差异。特别地，膜的质地，表面形态，GMR比，交换偏压，层间结合强度和矫顽力变化很大，但是可以确定性质-结构-加工相关性。通过离子束沉积在随机织构化的NiO交换偏置底部自旋阀上获得的GMR比为/ spl sim / 9.7％。

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《IEEE Transactions on Magnetics》 |1997年第3期|P.2369-2374|共6页
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Wang S.X.; Bailey W.E.;
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入库时间 2022-08-17 13:07:09

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1. Effects of deposition process parameters on exchange coupling of /spl alpha/-Fe/sub 2/O/sub 3//NiFe bi-layers and GMR of /spl alpha/-Fe/sub 2/O/sub 3//NiFe/Cu/NiFe spin valves [J] . Seongtae Bae, Egelhoff W.F. Jr. IEEE Transactions on Magnetics . 2000,第5期

机译：沉积工艺参数对/ spl alpha / -Fe / sub 2 / O / sub 3 // NiFe双层交换耦合和/ spl alpha / -Fe / sub 2 / O / sub 3 // NiFe /的GMR的影响Cu / NiFe自旋阀
2. Process monitoring of spin-valve GMR deposition [J] . Kools J.C.S., Paranjpe L. IEEE Transactions on Magnetics . 1998,第4期

机译：自旋阀GMR沉积的过程监控
3. Exchange coupling and GMR properties in ion beam sputtered hematite spin-valves [J] . Sano M., Araki S. IEEE Transactions on Magnetics . 1998,第2期

机译：离子束溅射赤铁矿自旋阀的交换耦合和GMR特性
4. UHV ION BEAM DEPOSITION AND STRUCTURAL CHARACTERIZATION OF GMR SPIN VALVES [C] . S. X. Wang, W. E. Bailey, C. Suergers, IEEE International Magnetics Conference . 1996

机译：GMR旋转阀的UHV离子束沉积和结构表征
5. Structural studies of GMR magnetic multilayers and spin-valves grown by DC sputtering. [D] . Geng, Hong. 2003

机译：通过直流溅射生长的GMR磁性多层膜和自旋阀的结构研究。
6. Microstructural analysis and Transport Properties of MoO and MoC nanostructures prepared by focused electron beam-induced deposition [O] . Kazumasa Makise, Kazutaka Mitsuishi, Masayuki Shimojo, -1

机译：聚焦电子束诱导沉积制备的MoO和MoC纳米结构的微观结构和传输特性
7. Electromigration-induced failure characteristics of GMR spin- valves and magnetic multilayers for the electrical reliability of spintronic devices [O] . JIANG JING 2011

机译：GMR自旋阀和磁性多层的电迁移引起的故障特性，用于自旋电子器件的电气可靠性
8. Switchable Zero Order Diffraction Gratings as Light Valves (with Added Task on 'Focused Ion Beam Assisted Deposition Applied to Integrated Circuit Restructuring') [R] . Melngailis, J. 1986

机译：可切换零级衍射光栅作为光阀（在聚焦离子束辅助沉积中应用于集成电路重构的附加任务）

Ion beam deposition and structural characterization of GMR spin valves

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