Hysteretic Synchronization in Spin-Torque Nanocontact Oscillators: A Micromagnetic Study

Puliafito V.; Pogoryelov Y.; Azzerboni B.; Akerman J.; Finocchio G.

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Hysteretic Synchronization in Spin-Torque Nanocontact Oscillators: A Micromagnetic Study

机译：自旋扭矩纳米接触振荡器的磁滞同步：微磁研究。

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Several experiments report the presence of finite jumps in the properties of spin–torque oscillators at room temperature, such as oscillation frequency and power as functions of current or field. On the basis of micromagnetic simulations, this paper links those experimental discontinuities to the changes in the curve slope numerically observed in the absence of thermal effects. Our numerical results show the key ingredient triggering this behavior is the presence of abrupt changes in the oscillation axis of the magnetization precession. We also predict that by fixing the bias point of the oscillator near those critical regions, it is possible to observe hysteretic synchronization. This result should be a key point in the design of nanoscale on-chip phase-locked loop receivers with improved sensitivity.

机译：一些实验报告了在室温下自旋转矩振荡器的特性中存在有限跳跃，例如振荡频率和功率随电流或磁场的变化。在微磁模拟的基础上，本文将这些不连续性与没有热效应时数值观察到的曲线斜率变化联系起来。我们的数值结果表明，触发这种行为的关键因素是磁化进动的振荡轴突然变化。我们还预测，通过将振荡器的偏置点固定在这些关键区域附近，可以观察到磁滞同步。该结果应该是设计灵敏度更高的纳米级片上锁相环接收器的关键。

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来源
《IEEE transactions on nanotechnology》 |2014年第3期|532-536|共5页
作者
Puliafito V.; Pogoryelov Y.; Azzerboni B.; Akerman J.; Finocchio G.;
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Department of Electronic Engineering, Industrial Chemistry and Engineering, University of Messina, Italy|c|;

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正文语种 eng
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Hysteretic synchronization; micromagnetism; nanooscillators; spin-transfer torque;

机译：磁滞同步;微磁性;纳米振荡器;自旋转矩;

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专利

1. Micromagnetic study of the above-threshold generation regime in a spin-torque oscillator based on a magnetic nanocontact magnetized at an arbitrary angle [J] . G. Consolo, B. Azzerboni, L. Lopez-Diaz, Physical review . 2008,第1期

机译：基于以任意角度磁化的磁性纳米接触的自旋扭矩振荡器中阈值以上生成方式的微磁研究
2. Micromagnetic Modeling of Nanocontact Spin-Torque Oscillators With Perpendicular Anisotropy at Zero Bias Field [J] . Puliafito V., Azzerboni B., Consolo G., IEEE Transactions on Magnetics . 2008,第期

机译：零偏置磁场下具有垂直各向异性的纳米接触自旋转矩振荡器的微磁建模
3. Spin-wave-mediated mutual synchronization of spin-torque nano-oscillators: A micromagnetic study of multistable phase locking [J] . T. Kendziorczyk, S. O. Demokritov, T. Kuhn Physical review . 2014,第5期

机译：自旋转矩纳米振荡器的自旋波介导的相互同步：多稳态锁相的微磁研究
4. Magnetization uniformity and threshold current of out-of-plane precession in spin-torque oscillator with synthetic ferrimagnet free layer under perpendicular magnetic field: Micromagnetic simulation study. [C] . T. Kanao, T. Nagasawa, H. Suto, IEEE International Magnetics Conference . 2018

机译：垂直磁场下具有合成亚铁磁体自由层的自旋转矩振荡器的平面外进动的磁化均匀性和阈值电流：微磁仿真研究。
5. Experimental and numerical studies of synchronization competition in a Chua oscillator. [D] . Le, Zheng. 2007

机译：Chua振荡器中同步竞争的实验和数值研究。
6. Large Hysteresis effect in Synchronization of Nanocontact Vortex Oscillators by Microwave Fields [O] . S. Perna, L. Lopez-Diaz, M. d’Aquino, -1

机译：微波场同步纳米接触涡旋振荡器的大滞后效应
7. Micromagnetic Study of Synchronization of Nonlinear Spin-Torque Oscillators to Microwave Current and Field [O] . M. Carpentieri, G. Finocchio, A. Giordano, 2012

机译：非线性旋转扭矩振荡器与微波电流和场同步的微磁性研究

Hysteretic Synchronization in Spin-Torque Nanocontact Oscillators: A Micromagnetic Study

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