通过扰动测量研究氧化层厚度和复位条件对提取HfO2基ReRAM活化能的影响

2013 IEEE International Integrated Reliability Workshop Final Report Pub Date : 2013-10-01 DOI:10.1109/IIRW.2013.6804170

T. Diokh, E. Le-Roux, S. Jeannot, P. Candelier, L. Perniola, J. Nodin, V. Jousseaume, T. Cabout, H. Grampei, E. Jalaguier, B. De Salvo

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引用次数: 2

摘要

本文研究了HfO2基ReRAM在恒电压和高温应力作用下的加速失效行为。我们从不同介质的高阻态扰动测量中提取了活化能。研究了各种复位条件，并将其与失效机理联系起来。薄介质氧化物的活化能较低。基于活化能与氧化膜中氧空位(即残余导电丝)的数量有关的假设，我们证明了最佳复位条件(就电压停止而言)可以降低薄HfO2中的活化能。另一方面，在厚的介质薄膜中，活化能更高，并且由于先前的复位操作的电压停止，活化能也是可调的。

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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On the impact of the oxide thickness and reset conditions on activation energy of HfO2 based ReRAM extracted through disturb measurements

In this paper, the failure acceleration behavior of HfO2 based ReRAM under constant voltage and high temperature stresses is studied. We extract the activation energy from disturb measurements in the High Resistance State (HRS) for different dielectrics. Various Reset conditions are studied and correlated to the failure mechanism. Low activation energy is obtained in thin dielectric oxides. Based on the hypothesis that the activation energy is linked to the number of oxygen vacancies (i.e. residual conductive filament) in the oxide film, we show that an optimal Reset condition (in terms of voltage stop) can reduce the activation energy in thin HfO2. On the other hand, the activation energy is higher in thick dielectrics films and it is also tunable thanks to the voltage stop of previous Reset operation.

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2013 IEEE International Integrated Reliability Workshop Final Report

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