Dependence of Sub-Volume Excitation on Structural and Material Parameters in Precessional Regime of Spin Transfer Torque Magnetization Reversal

Ito K.; Ohuchida S.; Endoh T.

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Dependence of Sub-Volume Excitation on Structural and Material Parameters in Precessional Regime of Spin Transfer Torque Magnetization Reversal

机译：自旋传递转矩磁化反转进动区中子体积激励对结构和材料参数的依赖性

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We studied the structural and material parameter dependence of sub-volume excitation in a precessional regime of spin transfer torque (STT) magnetization reversal for CoFeB/MgO-based p-magnetic tunnel junctions (MTJs) using LLG micromagnetic simulation. The current density dependence of switching and incubation time in STT magnetization reversal can be globally scaled by the macrospin theory regardless of sub-volume excitation. The transit time has the minimum value at the minimum MTJ diameter where the sub-volume is excited. This critical diameter increases with an increase in exchange stiffness. The mechanism that sub-volume excitation is related to current density is also discussed.

机译：我们使用LLG微磁仿真研究了基于自旋转移转矩（STT）磁化反转的进动机制中基于CoFeB / MgO的p磁隧道结（MTJ）的子体积激发的结构和材料参数依赖性。 STT磁化反转中切换和孵育时间的电流密度依赖性可以通过宏旋转理论全局缩放，而与子体积激励无关。在激发子体积的最小MTJ直径处，渡越时间具有最小值。该临界直径随着交换刚度的增加而增加。还讨论了子体积激励与电流密度有关的机制。

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《Magnetics, IEEE Transactions on》 |2014年第11期|1-4|共4页
作者
Ito K.; Ohuchida S.; Endoh T.;
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Center for Innovative Integrated Electron. Syst., Tohoku Univ., Sendai, Japan;

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正文语种 eng
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boron alloys; cobalt alloys; current density; elastic constants; interface magnetism; iron alloys; magnesium compounds; magnetic switching; magnetic thin films; magnetic tunnelling; magnetisation reversal; CoFeB-MgO; LLG micromagnetic simulation; current density dependence; exchange stiffness; incubation time; macrospin theory; material parameter dependence; p-magnetic tunnel junctions; spin transfer torque magnetization reversal; structural parameter dependence; subvolume excitation; switching; Current density; Junctions; Magnetic tunneling; Magnetization; Magnetization reversal; Switches; Torque; Magnetic tunnel junction (MTJ); magnetization dynamics; micromagnetic simulation; spin transfer torque (STT);

机译：硼合金;钴合金;电流密度;弹性常数;界面磁性;铁合金;镁化合物;磁性开关;磁性薄膜;磁性隧穿;磁化反转;CoFeB-MgO;LLG微磁模拟;电流密度依赖性;交换刚度;孵育时间;宏钉理论;材料参数依赖性;p-磁性隧道结;旋转传递转矩磁化反转;结构参数依赖性;子体积励磁;开关;电流密度;结;磁隧道效应;磁化;磁化反转;开关;转矩;磁隧道结（MTJ）;磁化动力学;微磁模拟;自旋传递转矩（STT）;

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1. Reliable spin-transfer torque driven precessional magnetization reversal with an adiabatically decaying pulse [J] . D. Pinna, C. A. Ryan, T. Ohki, Physical review. B, Condensed Matter And Materals Physics . 2016,第18期

机译：具有绝热衰减脉冲的可靠的自旋传递转矩驱动的进动磁化反转
2. Reliable spin-transfer torque driven precessional magnetization reversal with an adiabatically decaying pulse [J] . Pinna D., Ryan C. A., Ohki T., Physical review, B . 2016,第18期

机译：具有绝热衰减脉冲的可靠的自旋传递转矩驱动的进动磁化反转
3. Magnetization precession by short-wavelength magnon excitations and spin-transfer torque [J] . Shizhu Qiao, Shishen Yan, Shishou Kang, Physical review . 2018,第2期

机译：短波磁振子激励和自旋传递转矩引起的磁化进动
4. Thermal effects on the magnetic-field dependence of spin-transfer-induced magnetization reversal [C] . Lacour, D., Katine, . 2005

机译：热效应对自旋转移引起的磁化反转的磁场依赖性的影响
5. Characterization of spin transfer torque and magnetization manipulation in magnetic nanostructures [D] . Wang, Chen 2012

机译：磁性纳米结构中自旋传递转矩的表征和磁化作用
6. A cryogenic spin-torque memory element with precessional magnetization dynamics [O] . G. E. Rowlands, C. A. Ryan, L. Ye, -1

机译：具有进动磁化动力学的低温自旋扭矩存储元件
7. Reliable spin-transfer torque driven precessional magnetization reversal with an adiabatically decaying pulse [O] . D. Pinna, C. A. Ryan, T. Ohki, 2016

机译：可靠的自旋转移扭矩驱动的模型磁化反转，具有绝热衰减脉冲

Dependence of Sub-Volume Excitation on Structural and Material Parameters in Precessional Regime of Spin Transfer Torque Magnetization Reversal

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