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Low writing energy and sub nanosecond spin torque transfer switching of in-plane magnetic tunnel junction for spin torque transfer random access memory

机译：用于自旋扭矩传递随机存取存储器的平面内磁隧道结的低写入能量和亚纳秒自旋扭矩传递切换

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This work investigated in-plane MgO-based magnetic tunnel junctions (MTJs) for the application of spin torque transfer random access memory (STT-RAM). The MTJ in this work had an resistance area product (RA) = 4.3 m~2, tunneling magnetoresistance ratio ~135%, thermal stability factor A(H)=68 (by field measurement), and A(I) = 50 (by current measurement). The optimal writing energy was found to be 0.286 pj per bit at 1.54 ns for antiparallel (AP) state to parallel (P) state switching, and 0.706 pJ per bit at 0.68 ns for P state to AP state switching. Ultra fast spin torque transfer (STT) switching was also observed in this sample at 580 ps (AP to P) and 560 ps (P to AP). As a result, 0.6-1.3 GHz was determined to be the optimal writing rate from writing energy consumption of view. These results show that in-plane MgO MTJs are still a viable candidate as the fast memory cell for STT-RAM.

机译：这项工作调查了用于旋转扭矩传递随机存取存储器（STT-RAM）的平面内的基于MgO的磁隧道结（MTJ）。该工作中的MTJ具有电阻区域产品（RA）= 4.3M〜2，隧道磁阻比〜135％，热稳定因子A（H）= 68（通过场测量），A（i）= 50（通过电流测量）。最佳写入能量被发现为1.54 ns的0.286 pj，用于反平行（ap）状态，以平行（p）状态切换，0.78 ns的0.706 pj，对于P状态，对于AP状态切换。在该样品中也观察到超快速自旋扭矩传递（STT）切换，在580 ps（ap至p）和560 ps（p到ap）中观察到。结果，确定了0.6-1.3 GHz是从写入能源消耗的最佳写入率。这些结果表明，在平面内MgO MTJS仍然是作为STT-RAM的快速存储器单元的可行候选者。

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《Annual Conference on Magnetism Magnetic Materials》|2011年||共3页
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H. Zhao; A. Lyle; Y. Zhang;
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入库时间 2022-08-20 19:55:31

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1. Low writing energy and sub nanosecond spin torque transfer switching of in-plane magnetic tunnel junction for spin torque transfer random access memory [J] . H. Zhao, A. Lyle, Y. Zhang, Journal of Applied Physics . 2011,第7Pta3期

机译：平面内磁性隧道结的低写入能量和亚纳秒级自旋扭矩转移切换，用于自旋扭矩转移随机存取存储器
2. Spin-transfer torque switching in magnetic tunnel junctions and spin-transfer torque random access memory [J] . Zhitao Diao, Zhanjie Li, Shengyuang Wang, Journal of Physics. Condensed Matter . 2007,第16期

机译：磁性隧道结中的自旋转移力矩切换和自旋转移力矩随机存取存储器
3. Micromagnetic study of spin-transfer-torque switching of a ferromagnetic cross towards multi-state spin-transfer-torque based random access memory [J] . Urmimala Roy, Tanmoy Pramanik, Maxim Tsoi, Journal of Applied Physics . 2013,第22期

机译：铁磁交叉自旋转移转矩切换到基于多状态自转移转矩的随机存取存储器的微磁研究
4. Low writing energy and sub nanosecond spin torque transfer switching of in-plane magnetic tunnel junction for spin torque transfer random access memory [C] . H. Zhao, A. Lyle, Y. Zhang Annual Conference on Magnetism Magnetic Materials . 2011

机译：用于自旋扭矩传递随机存取存储器的平面内磁隧道结的低写入能量和亚纳秒自旋扭矩传递切换
5. Spin transfer torque induced oscillation and switching in magnetic tunnel junction. [D] . Zhang, Yisong. 2014

机译：自旋传递转矩在磁隧道结中引起振荡和切换。
6. A compact model for magnetic tunnel junction (MTJ) switched by thermally assisted Spin transfer torque (TAS + STT) [O] . Weisheng Zhao, Julien Duval, Jacques-Olivier Klein, 2011

机译：通过热辅助自旋传递转矩（TAS + STT）切换的磁性隧道结（MTJ）的紧凑模型
7. Interplay of Voltage Control of Magnetic Anisotropy, Spin-Transfer Torque, and Heat in the Spin-Orbit-Torque Switching of Three-Terminal Magnetic Tunnel Junctions [O] . Viola Krizakova, Eva Grimaldi, Kevin Garello, 2021

机译：磁各向异性，旋转转矩和热量控制的电压控制和旋转轨道扭矩切换的旋转轨道转换的相互作用

Low writing energy and sub nanosecond spin torque transfer switching of in-plane magnetic tunnel junction for spin torque transfer random access memory

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