平衡应力和偶极相互作用,在多铁性逻辑中实现快速、低功耗、可靠的开关

K. Munira, S. Nadri, M. Forgues, A. Ghosh
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引用次数: 0

摘要

在这项工作中,我们将重点放在有效传播NM2只是书面上的信息NM1扭矩与电流自旋极化的硬层(图Ib,时期)。为了传播逻辑单向地将一些从敝中断NM2和开关的磁化后者,一个当地的小电压(~ 10 mV)应用于压电元件强调NM2切换到其困难的磁化轴(图1 b, b)时期。在释放压力,NM2的磁化向易轴放松,其最终方向由与NMI的偶极耦合决定(NM3仍然处于应力状态并保持不工作),从而实现了快速和低功耗的Bennett时钟计算(图1b,周期C)。在这项工作中,我们将通过改变应力分布来评估应力和偶极耦合之间的相互作用(图lc)。具体来说,我们将探索能量耗散、开关速度和可靠性之间的权衡,通过对NMs复杂3D自旋动力学的热力学研究,在随机Landau-Lifshitz-Gilbert形式中捕获。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Balancing stress & dipolar interactions for fast, low power, reliable switching in multiferroic logic
In this work, we will focus on efficient transmission to NM2 of information just written onto NM1 with torque from a current spin polarized by the hard layer (Fig. Ib, period A). In order to propagate the logic bit unidirectionally from NMI to NM2 and switch the magnetization of the latter, a small local voltage (~10 mV) applied to the piezoelectric element stresses the magnetization of NM2 to switch to its hard axis (Fig. 1 b, period B). Upon releasing the stress, the magnetization of the NM2 relaxes to the easy axis, with its final orientation determined by the dipolar coupling with the NMI (NM3 still stressed and kept out of operation), thus achieving a fast and low power Bennett clocked computation (Fig. 1 b, period C). In this work, we will assess the interplay between stress and dipolar coupling by varying the stressing profiles (Fig. lc). Specifically we will explore the trade-off between energy dissipated, switching speed and reliability, through a thermodynamic study of the complex 3D spin dynamics of the NMs, captured within a stochastic Landau-Lifshitz-Gilbert formalism.
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