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Micromagnetic simulation of critical current density of spin transfer torque switching in a full-Heusler Co2FeAl0.5Si0.5 alloy spin valve nanopillar

机译：Heusler Co2FeAl0.5Si0.5合金自旋阀纳米柱中自旋传递转矩切换的临界电流密度的微磁模拟

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We investigated the critical current density of spin transfer torque switching in a full-Heusler Co2FeAl0.5Si0.5 5 alloy spin-valve nanopillar through micromagnetic simulations. The simulations explain the experimental results on the resistance versus external magnetic field and yield good agreement with the measured switching behavior. It is shown that different magnitudes of current densities and directions of external magnetic fields give rise to a shift of resistance hysteretic loop and a variable range of switching. We demonstrated that three critical current densities have different slopes with Gilbert damping constant alpha and spin polarization constant eta, indicating that alpha and eta have different contributions to the critical current densities. Furthermore, we found that the area of resistance-current hysteretic loop decreases as the nanopillar size decreases. The domain structures indicated that the magnetization reversals have different switching processes between small and large sizes of pillars.

机译：我们通过微磁模拟研究了全Heusler Co2FeAl0.5Si0.5 5合金自旋阀纳米柱中自旋传递转矩切换的临界电流密度。仿真说明了电阻对外部磁场的实验结果，并与测得的开关行为产生了良好的一致性。结果表明，不同大小的电流密度和外部磁场的方向会引起电阻滞回回路的移动和可变的开关范围。我们证明了三个临界电流密度具有不同的斜率，吉尔伯特阻尼常数α和自旋极化常数η表示，α和eta对临界电流密度的贡献不同。此外，我们发现，随着纳米柱尺寸的减小，电阻-电流磁滞回线的面积减小。畴结构表明，磁化反转在小尺寸和大尺寸的支柱之间具有不同的切换过程。

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Huang HB; Ma XQ; Liu ZH; Meng FY; Shi SQ; Chen LQ;
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1. Micromagnetic simulation of critical current density of spin transfer torque switching in a full-Heusler Co_2FeAl_(0.5)Si_(0.5) alloy spin valve nanopillar [J] . H.B. Huang, X.Q. Ma, Z.H. Liu, Journal of magnetism and magnetic materials . 2013,第MARa期

机译：Heusler Co_2FeAl_（0.5）Si_（0.5）合金自旋阀纳米柱中自旋传递转矩切换的临界电流密度的微磁模拟
2. Simulation of multilevel cell spin transfer switching in a full-Heusler alloy spin-valve nanopillar [J] . Huang H. B., Ma X. Q., Liu Z. H., Applied Physics Letters . 2013,第4期

机译：Heusler合金自旋阀纳米柱中多级自旋转移转换的仿真
3. Simulation of multilevel cell spin transfer switching in a full-Heusler alloy spin-valve nanopillar [J] . H. B. Huang, X. Q. Ma, Z. H. Liu, Applied Physics Letters . 2013,第4期

机译：Heusler合金自旋阀纳米柱中多级自旋转移转换的仿真
4. Reduction of critical current density for spin transfer magnetization switching in a spin-valve nano-pillar [C] . C. H. Kang, J. C. Lee, K. H. Shin, IEEE Nanotechnology Materials and Devices Conference . 2006

机译：旋转阀纳米支柱中旋转转移磁化强度切换的临界电流密度的降低
5. Dynamics of current-induced switching in spin-orbit torque magnetic devices. [D] . Legrand, William Sylvain. 2016

机译：自旋轨道转矩磁性装置中电流感应开关的动力学。
6. High power and low critical current density spin transfer torque nano-oscillators using MgO barriers with intermediate thickness [O] . J. D. Costa, S. Serrano-Guisan, B. Lacoste, -1

机译：使用中等厚度的MgO势垒的高功率和低临界电流密度自旋传递扭矩纳米振荡器
7. Micromagnetic Simulation of Spin Transfer Torque Switching of Full-Heusler Co2FeAl0.5Si0.5 Alloy Thin Elliptical Disc [O] . Babu R. Vignesh, Malathi M. 2014

机译：全Heusler Co2FeAl0.5Si0.5合金薄椭圆盘自旋转移力矩切换的微磁模拟

Micromagnetic simulation of critical current density of spin transfer torque switching in a full-Heusler Co2FeAl0.5Si0.5 alloy spin valve nanopillar

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