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Tunneling-Magnetoresistance Ratio Comparison of MgO-Based Perpendicular-Magnetic-Tunneling-Junction Spin Valve Between Top and Bottom Co2Fe6B2 Free Layer Structure

机译：Co2Fe6B2上下自由层结构之间基于MgO的垂直-电磁-隧道-结自旋阀的隧道-磁阻比比较

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For the perpendicular-magnetic-tunneling-junction (p-MTJ) spin valve with a nanoscale-thick bottom Co2Fe6B2 free layer ex situ annealed at 400 °C, which has been used as a common p-MTJ structure, the Pt atoms of the Pt buffer layer diffused into the MgO tunneling barrier. This transformed the MgO tunneling barrier from a body-centered cubic (b.c.c) crystallized layer into a mixture of b.c.c, face-centered cubic, and amorphous layers and rapidly decreased the tunneling-magnetoresistance (TMR) ratio. The p-MTJ spin valve with a nanoscale-thick top Co2Fe6B2 free layer could prevent the Pt atoms diffusing into the MgO tunneling barrier during ex situ annealing at 400 °C because of non-necessity of a Pt buffer layer, demonstrating the TMR ratio of ~143 %.Electronic supplementary materialThe online version of this article (doi:10.1186/s11671-016-1637-9) contains supplementary material, which is available to authorized users.

机译：对于垂直磁隧道结（p-MTJ）自旋阀，在400°C处进行原位退火的纳米级厚底Co2Fe6B2自由层已被用作常见的p-MTJ结构，其中的Pt原子Pt缓冲层扩散到MgO隧穿势垒中。这将MgO隧道势垒从体心立方（b.c.c）结晶层转变为bccc，面心立方和非晶层的混合物，并迅速降低了隧道磁阻（TMR）比。具有纳米级顶层Co2Fe6B2顶部自由层的p-MTJ自旋阀可以防止Pt原子在400°C的非原位退火过程中扩散到MgO隧道势垒中，因为不需要Pt缓冲层，证明了TMR比为约143％。电子补充材料本文的在线版本（doi：10.1186 / s11671-016-1637-9）包含补充材料，授权用户可以使用。

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期刊名称 Nanoscale Research Letters
作者
Du-Yeong Lee; Seung-Eun Lee; Tae-Hun Shim; Jea-Gun Park;
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作者单位

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年(卷),期 2016(11),-1
年度 2016
页码 433
总页数 7
原文格式 PDF
正文语种
中图分类生化遗传学;生化药理学;
关键词
p-MTJ BEOL TMR ratio Pt diffusion Top and bottom free layer;

机译：p-MTJ;BEOL;TMR比;Pt扩散;顶部和底部自由层;

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专利

1. Tunneling-Magnetoresistance Ratio Comparison of MgO-Based Perpendicular-Magnetic-Tunneling-Junction Spin Valve Between Top and Bottom Co2Fe6B2 Free Layer Structure [J] . Du-Yeong Lee, Seung-Eun Lee, Tae-Hun Shim, Nanoscale Research Letters . 2016,第1期

机译：Co 2 Fe 6 B 2 顶部和底部之间基于MgO的垂直磁-隧道-隧道结自旋阀的隧穿磁阻比比较层结构
2. Influence of face-centered-cubic texturing of Co2Fe6B2 pinned layer on tunneling magnetoresistance ratio decrease in Co2Fe6B2/MgO-based p-MTJ spin valves stacked with a [Co/Pd](n)-SyAF layer [J] . Takemura Yasutaka, Lee Du-Yeong, Lee Seung-Eun, Nanotechnology . 2015,第19期

机译：Co2Fe6B2固定层的面心立方纹理化对堆叠有[Co / Pd]（n）-SyAF层的Co2Fe6B2 / MgO基p-MTJ自旋阀中隧穿磁阻比降低的影响
3. Dependency of tunneling magnetoresistance ratio on Pt seed-layer thickness for double MgO perpendicular magnetic tunneling junction spin-valves with a top Co2Fe6B2 free layer ex-situ annealed at 400 degrees C [J] . Takemura Yasutaka, Lee Du-Yeong, Lee Seung-Eun, Nanotechnology . 2016,第48期

机译：在400摄氏度下对Co2Fe6B2顶部自由层进行双MgO垂直磁性隧穿结自旋阀的隧穿磁阻比对Pt籽晶层厚度的依赖性
4. Magnetostriction of free layer in top-type and bottom type spin-valves films [C] . Aoshima, K., Jongill Hong . 2000

机译：上型和下型自旋阀膜中自由层的磁致伸缩
5. Fabrication and characterization of single and few layer graphene spin valves leading to optimization of spin relaxation length as well as spin voltage dependence on carrier concentration. [D] . Kubo, Yuri J. 2015

机译：单层和少层石墨烯自旋阀的制造和表征导致自旋弛豫长度以及自旋电压对载流子浓度的依赖性得到优化。
6. Author Correction: Double MgO-based Perpendicular Magnetic-Tunnel-Junction Spin-valve Structure with a Top Co2Fe6B2 Free Layer using a Single SyAF Co/Ptn Layer [O] . Jin-Young Choi, Dong-gi Lee, Jong-Ung Baek, -1

机译：作者更正：使用单个SyAF Co / Pt n层的基于Co2Fe6B2顶层自由层的基于MgO的垂直双隧道垂直磁隧道结自旋阀结构
7. Tunneling-Magnetoresistance Ratio Comparison of MgO-Based Perpendicular-Magnetic-Tunneling-Junction Spin Valve Between Top and Bottom Co2Fe6B2 Free Layer Structure [O] . Du-Yeong Lee, Seung-Eun Lee, Tae-Hun Shim, 2016

机译：Co2Fe6B2上下自由层结构之间基于MgO的垂直-电磁-隧道-结自旋阀的隧道-磁阻比比较
8. The Reflection of Low Frequency Sonar Signals from a Smooth Ocean Bottom. Part II. Calculations of Bottom Losses for a Layered Model and Comparison with Experimental Values [R] . Bucker, H. P. 1963

机译：光滑海底低频声纳信号的反射。第二部分。分层模型的底部损失计算及与实验值的比较

Tunneling-Magnetoresistance Ratio Comparison of MgO-Based Perpendicular-Magnetic-Tunneling-Junction Spin Valve Between Top and Bottom Co2Fe6B2 Free Layer Structure

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