Micromagnetic Simulation of Voltage-Induced Spin Wave Resonance Properties in Ferromagnetic Nanowires with Perpendicular Anisotropy

X. Ya; R. Imai; T. Tanaka; K. Matsuyama

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Micromagnetic Simulation of Voltage-Induced Spin Wave Resonance Properties in Ferromagnetic Nanowires with Perpendicular Anisotropy

机译：具有垂直各向异性的铁磁纳米线中电压感应自旋波共振特性的微磁模拟

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??A fundamental issue in developing spin wave (SW) devices with ultralow power consumption is exploring energy-efficient excitation with nanoscale spatial resolution. We numerically studied the voltage-induced excitation of a geometrically confined standing spin wave (SSW), which is suitable for the downsizing of various SW devices. The micromagnetic configuration of the excited SSW, the resonance spectrum, and the structural size effects were investigated. In addition, a possible application to a SSW-based logic operation was demonstrated in a nanowire with lateral dimensions of 20 nm × 100 nm.

机译：开发具有超低功耗的自旋波（SW）器件的一个基本问题是探索具有纳米级空间分辨率的节能激励。我们通过数值研究了几何约束驻旋转波（SSW）的电压诱导激励，该激励适合于各种SW器件的小型化。研究了激发的SSW的微磁构型，共振谱和结构尺寸效应。此外，在横向尺寸为20 nm×100 nm的纳米线中，展示了可能应用于基于SSW的逻辑操作。

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《Journal of the Magnetics Society of Japan 》 |2020年第2期| 共5页
作者
X. Ya; R. Imai; T. Tanaka; K. Matsuyama;
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中图分类电磁学、电动力学 ;
关键词
spin waveferromagnetic resonancemagnetic anisotropymicromagnetic simulation;

机译：自旋波铁磁共振磁各向异性微观模拟;

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1. Micromagnetic Simulations on Spin Wave Packet Propagation in Ferromagnetic Nanowires With Perpendicular Anisotropy [J] . Nagai K., Nakashima Y., Tanaka T., Magnetics, IEEE Transactions on . 2011 ,第10期

机译：具有垂直各向异性的铁磁纳米线中自旋波包传播的微磁模拟
2. Micromagnetic Simulations of Spin Waves in Nanowires with Perpendicular Anisotropy [J] . C. H. Hsieh, J. C. Lee, J. J. Liang, 日本磁気学会学術講演概要集 . 2012 ,第36期

机译：具有垂直各向异性的纳米线中自旋波的微磁模拟
3. Micromagnetic Simulations of Anisotropies in Coupled and Uncoupled Ferromagnetic Nanowire Systems [J] . T.Blachowicz, A.Ehrmann ScientificWorldJournal . 2013 ,第3期

机译：耦合和解耦合铁磁纳米线系统各向异性的微磁性模拟
4. Controlling of voltage-induced spin wave resonance properties in ferromagnetic nanowires with perpendicular anisotropy [C] . X. Ya, T. Tanaka, K. Matsuyama IEEE International Magnetics Conference . 2017

机译：具有垂直各向异性的铁磁纳米线中电压感应自旋波共振特性的控制
5. Optical control of ultrafast spin-wave relaxation by magnetic anisotropy in a ferromagnet. [D] . Smith, Kevin James. 2010

机译：通过铁磁中的磁各向异性实现超快自旋波弛豫的光学控制。
6. Micromagnetic Simulations of Anisotropies in Coupled and Uncoupled Ferromagnetic Nanowire Systems [O] . T. Blachowicz, A. Ehrmann 2013

机译：耦合和非耦合铁磁纳米线系统中各向异性的微磁模拟
7. Micromagnetic Simulation of Voltage-Induced Spin Wave Resonance Properties in Ferromagnetic Nanowires with Perpendicular Anisotropy [O] . X. Ya, R. Imai, T. Tanaka, 2020

机译：铁磁纳米线中垂直各向异性的微磁模拟型旋转波峰谐振特性
8. Perpendicular Magnetic Anisotropy in Ultrathin Co/Ni Multilayer Films Studies with Ferromagnetic Resonance and Magnetic X-Ray Microspectroscopy. [R] . Macia, F., Warnicke, P., Bedau, D., 2012

机译：超薄Co / Ni多层膜的垂直磁各向异性研究铁磁共振和磁X射线显微光谱。

Micromagnetic Simulation of Voltage-Induced Spin Wave Resonance Properties in Ferromagnetic Nanowires with Perpendicular Anisotropy

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