忆阻器的建模及稳定性问题分析

Ayesha Zaman, Weisong Wang, G. Subramanyam
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引用次数: 1

摘要

建立了一个稳健的物理模型,用于控制中等厚度电介质(<100nm)的忆阻器器件的导电区陷阱辅助非弹性隧穿机制。该模型考虑了氧空位和氧化物内部缺陷的贡献,通过这种非易失性存储器件,载流子数量显著增加。本文设计了一个一维仿真器,实际得到的数值与仿真得到的数值具有较好的相容性。在这里,电子在器件内不同层材料的可变能态之间的隧穿,主导了涉及电场依赖的强非线性的开关机制。
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Modeling of memristor device & analysis of stability issues
A robust physical model governing trap assisted inelastic tunneling mechanism for the conducting area of a memristor device with an intermediate thickness dielectric (<100nm) has been developed. This model takes into account, the contribution of both the oxygen vacancies and the defects within the oxide responsible for the significant increase of charge carriers through this non-volatile memory device. A one dimensional simulator has been designed here that shows reasonable compatibility between the practically obtained values with that of the simulated ones. Here tunneling of electrons between variable energy states of the different layer materials within the device, dominates the switching mechanism that involves a strong non-linearity of the electric field dependence.
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