On the effect of interface traps on the carrier distribution function during hot-carrier degradation

2016 IEEE International Integrated Reliability Workshop (IIRW) Pub Date : 1900-01-01 DOI:10.1109/IIRW.2016.7904911

S. Tyaginov, A. Makarov, M. Jech, J. Franco, P. Sharma, B. Kaczer, T. Grasser

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引用次数: 2

Abstract

We study the effect of interface states, generated during hot-carrier stress, on the carrier energy distribution functions (DFs) and check whether this effect perturbs the results of our hot-carrier degradation model. These studies are performed using SiON nMOSFETs with a gate length of 65 nm as exemplary devices. We carry out simulations with different values of the spatially uniform interface state density (Nit) as well as with a coordinate dependent Nit evaluated for real stress conditions. In both cases, the effect of Nit on carrier distribution functions appears to be strong. As for the degradation characteristics, we show that Nit profiles computed with perturbed distribution functions can be substantially different from those obtained with non-perturbed DFs, especially at long stress times. The same trend is visible also for changes in the linear drain current. Additional simulations performed for operating conditions with and without the effect of Nit show that if this effect is not taken into account, this leads to severe underestimation of the device life-time.

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热载流子降解过程中界面陷阱对载流子分布函数的影响

我们研究了热载子应力过程中产生的界面状态对载流子能量分布函数(DFs)的影响，并检查了这种影响是否会干扰我们的热载子退化模型的结果。这些研究是使用栅极长度为65 nm的sionmosfet作为示例性器件进行的。我们使用不同的空间均匀界面态密度(Nit)值以及根据实际应力条件评估的坐标相关的Nit值进行了模拟。在这两种情况下，Nit对载波分布函数的影响似乎都很强。对于退化特性，我们表明，用扰动分布函数计算的Nit曲线与用非扰动分布函数计算的Nit曲线有很大的不同，特别是在长应力时间下。线性漏极电流的变化也有同样的趋势。对有和没有Nit影响的操作条件进行的额外模拟表明，如果不考虑这种影响，将导致对设备寿命的严重低估。

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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2016 IEEE International Integrated Reliability Workshop (IIRW)

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