Co2Fe6B2/MgO-based perpendicular spin-transfer-torque magnetic-tunnel-junction spin-valve without [Co/Pt](n) lower synthetic-antiferromagnetic layer

Lee Seung-Eun; Shim Tae-Hun; Park Jea-Gun

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Co2Fe6B2/MgO-based perpendicular spin-transfer-torque magnetic-tunnel-junction spin-valve without [Co/Pt](n) lower synthetic-antiferromagnetic layer

机译：基于Co2Fe6B2 / MgO的垂直自旋转传递扭矩磁隧道结自旋阀，无[Co / Pt]（n）下部合成反磁性层

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We design a Co2Fe6B2/MgO-based p-MTJ spin-valve without a [Co/Pt](n) lower synthetic-antiferromagnetic (SyAF) layer to greatly reduce the 12-inch wafer fabrication cost of the p-MTJ spin-valve. This spin-valve achieve a tunneling magnetoresistance (TMR) of 158% and an exchange field (H-ex) of 1.4 kOe at an ex situ annealing temperature of >350 degrees C, which ensures writing error immunity. In particular, the TMR ratio strongly depends on the body-center-cubic capping-layer nanoscale thickness (t(bcc)), i.e., the TMR ratio peaks at t(bcc) = 0.6 nm.

机译：我们设计了基于Co2Fe6B2 / MgO的p-MTJ自旋阀，而没有[Co / Pt]（n）较低的合成反铁磁（SyAF）层，以大大降低p-MTJ自旋阀的12英寸晶圆制造成本。在> 350摄氏度的非原位退火温度下，该自旋阀实现了158％的隧穿磁阻（TMR）和1.4 kOe的交换场（H-ex），从而确保了抗写入错误能力。特别地，TMR比在很大程度上取决于体心立方覆盖层纳米级厚度（t（bcc）），即，TMR比在t（bcc）＝ 0.6nm处达到峰值。

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来源
《Nanotechnology》 |2015年第47期|共7页
作者
Lee Seung-Eun; Shim Tae-Hun; Park Jea-Gun;
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正文语种 eng
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magnetic-tunnel-junction; perpendicular-spin-transfer-torque-magnetic-random-access-memory; synthetic-antiferromagnetic; tunneling magneto-resistance ratio; exchange field;

机译：磁隧道结;垂直自旋传递转矩;磁随机存取存储器;合成反铁磁;隧道磁阻比;交换磁场;

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1. Co2Fe6B2/MgO-based perpendicular spin-transfer-torque magnetic-tunnel-junction spin-valve without [Co/Pt](n) lower synthetic-antiferromagnetic layer [J] . Lee Seung-Eun, Shim Tae-Hun, Park Jea-Gun Nanotechnology . 2015,第47期

机译：基于Co2Fe6B2 / MgO的垂直自旋转传递扭矩磁隧道结自旋阀，无[Co / Pt]（n）下部合成反磁性层
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. Effects of the radio-frequency sputtering power of an MgO tunneling barrier on the tunneling magneto-resistance ratio for Co2Fe6B2/MgO-based perpendicular-magnetic tunnel junctions [J] . Lee Du-Yeong, Seo Hyung-Tak, Park Jea-Gun Journal of Materials Chemistry, C. materials for optical and electronic devices . 2016,第1期

机译：MgO隧穿势垒的射频溅射功率对基于Co2Fe6B2 / MgO的垂直磁隧道结的隧穿磁阻比的影响
4. Lower-current and Fast switching of A Perpendicular TMR for High Speed and High density Spin-Transfer-Torque MRAM [C] . T. Kishi, H. Yoda, T. Kai, International Electron Devices Meeting . 2008

机译：用于高速和高密度自旋转移转矩MRAM的垂直TMR的较低电流和快速切换
5. Interaction between the aerosol direct effect in the lower troposphere and the planetary boundary layer depth [D] . Sawyer, Virginia Ruth. 2015

机译：较低对流层和行星边界层深度效应之间的相互作用
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. 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, 2018

机译：作者校正：双面MgO的垂直磁隧道连接旋转阀结构，具有顶部CO2FE6B2自由层，使用单个SyaF Co / Pt n层

Co2Fe6B2/MgO-based perpendicular spin-transfer-torque magnetic-tunnel-junction spin-valve without [Co/Pt](n) lower synthetic-antiferromagnetic layer

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