用于瞬时非易失性电子器件的自旋电子学

COMMAD 2012 Pub Date : 2012-12-01 DOI:10.1109/COMMAD.2012.6472388

K. Wang, P. Amiri

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引用次数: 1

摘要

使用集体自旋或纳米磁体提供了构建高速非易失性电子器件的可能性，导致器件级的能量耗散可能接近基本平衡麦克斯韦-香农-朗道尔极限。本文将介绍用于高速自旋-传递-转矩磁阻随机存取存储器(STT-MRAM)的高效mgo型磁隧道结(MTJ)位的研究进展。此外，还讨论了磁电RAM (MeRAM)作为超低功耗的有希望的候选器件的可能性。利用电场对磁易轴的磁化和重定向进行电压感应开关的原理和实验证明，在高速下大大降低了开关能量。后者可能使高速非易失性电子的新范式成为可能。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Spintronics for instant-on nonvolatile electronics

Using collective spins or nanomagnets offers the possibility of constructing high speed nonvolatile electronics, resulting in the energy dissipation at the device level possibly approaching the fundamental equilibrium Maxwell-Shannon-Landaur limit. This paper will describe the progress in energy-efficient MgO-based magnetic tunnel junction (MTJ) bits for high-speed spin-transfer-torque magnetoresistive random access memory (STT-MRAM). Furthermore, the possibility of a Magnetoelectric RAM (MeRAM) as a promising candidate for ultralow power is discussed. Demonstrated principles and experiments of voltage-induced switching of the magnetization and reorientation of the magnetic easy axis by electric field offer much reduced switching energy at high speed. The latter may enable a new paradigm of high speed nonvolatile electronics.

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COMMAD 2012

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