基于砷化镓二维薄膜的记忆电阻器:平衡中与平衡外

Christian Marty, Zijin Lei, Saverio Silletta, Christian Reichl, Werner Dietsche, Werner Wegscheider
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引用次数: 0

摘要

紧密间隔的二维电子气之间的共振隧穿是一种单粒子现象,几十年来一直备受关注。只要两个量子阱的费米级对齐,就能观察到电子密度相等时的高隧道电导。当器件以电流驱动模式运行时,负差分电阻会导致滞后现象,从而使双层系统发挥易失性记忆电阻器的功能。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Memory resistor based in GaAs 2D-bilayers: In and out of equilibrium
Resonant tunneling between closely spaced two dimensional electron gases is a single particle phenomenon that has sparked interest for decades. High tunneling conductances at equal electron densities are observed whenever the Fermi levels of the two quantum wells align. Detuning the Fermi levels out of the resonant 2D-2D tunneling regime causes a negative differential resistance. The negative differential resistance leads to a hysteresis when operating the device in a current driven mode, allowing a bilayer system to function as a volatile memory resistor.
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