Study of current induced magnetic domain wall movement with extremely low energy consumption by micromagnetic simulation

机译：通过微磁模拟研究耗能极低的电流感应磁畴壁运动

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We study the velocity and energy consumption of current induced magnetic domain wall (DW) movement, which is a new paradigm in spintronics devices such as a next generation MRAM and race track memory, by LLG (Landau-Lifshitz-Gilbert) micromagnetic simulation. It is found that DW velocity is almost the same in current in magnetic thin film plane(CIP) and current perpendicular to plane (CPP-Perp.). On the other hand, the energy consumption is much lower in CPP-Perp. than CIP. These results show that the CPP-Perp. structure has potential solutions for high speed and low energy consumption applications

机译：我们通过LLG（Landau-Lifshitz-Gilbert）微磁仿真研究了电流感应磁畴壁（DW）运动的速度和能量消耗，这是自旋电子学设备（例如下一代MRAM和赛道存储器）中的新范例。发现在磁性薄膜平面（CIP）中的电流和垂直于平面的电流（CPP-Perp。）中，DW速度几乎相同。另一方面，CPP-Perp的能耗要低得多。比CIP。这些结果表明了CPP-Perp。结构为高速和低能耗应用提供了潜在的解决方案

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《2011 International Conference on Simulation of Semiconductor Processes and Devices》|2011年|p.55-58|共4页
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Kawabata K.; Tanizawa M.; Ishikawa K.; Inoue Y.; Inuishi M.; Nishimura T.;
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正文语种
中图分类半导体器件制造工艺及设备;
关键词
MRAM; domain wall movement; spin transfer torque;

机译：MRAM;畴壁运动;主轴传递扭矩;

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2. Long-range vortex domain wall displacement induced by an alternating current: Micromagnetic simulations [J] . Peter Warnicke, Yoshinobu Nakatani, Shinya Kasai, Physical review . 2008,第1期

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3. Magneto-optical and micromagnetic simulation study of the current-driven domain wall motion in ferromagnetic (Ga,Mn)As [J] . K.Y. Wang, A.C. Irvine, R.P. Campion, Journal of magnetism and magnetic materials . 2009,第8期

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4. Study of current induced magnetic domain wall movement with extremely low energy consumption by micromagnetic simulation [C] . Kawabata K., Tanizawa M., Ishikawa K., International Conference on Simulation of Semiconductor Processes and Devices . 2011

机译：微磁仿真电流诱导磁畴壁运动极低能量消耗
5. Current induced domain wall motion: Analysis and simulation [D] . Yang, Lei 2008

机译：电流感应畴壁运动：分析与模拟
6. Micromagnetic study of domain wall dynamics in bit-patterned nanodots [O] . Chunsheng E, James O. Rantschler, Sakhrat Khizroev, -1

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7. Micromagnetic Simulation of Current-Induced Domain Wall Motion under a Non-uniform Current Distribution [O] . T. Komine, H. Murakami, T. Nagayama, 2008

机译：在非均匀电流分布下电流诱导畴壁运动的微磁性仿真

Study of current induced magnetic domain wall movement with extremely low energy consumption by micromagnetic simulation

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