Sung-Kye Park, M. Suh, Jae-Young Kim, G. Yoon, S. Jang
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引用次数: 7
Abstract
In this paper, we intensively investigate CMOSFET characteristics induced by moisture diffusion from the ILD layer in 0.23 um DRAM with STI and COB (Capacitor Over Bit-line) structure. The representative phenomena are the anomalous short channel hump effect of the nMOSFET and the degradation of the short channel margin for CMOSFET. From our extensive experimental results, we obviously found that the origin of the short channel humps was due to the boron segregation at the Si/SiO/sub 2/ interface of the STI edge region by oxygen components in the moisture diffused from the ILD film combined with the capping SiN film, and short channel margin degradation due to the oxidation enhanced diffusion of boron. In order to explain the anomalous hump phenomena we propose a new quantitative hump model, and suggest the hump suppression method using the barrier SiN film before ILD. Additionally, we perform the evaluation of hot carrier lifetime for each sample.
在本文中,我们深入研究了具有STI和COB(电容过位线)结构的0.23 um DRAM中ILD层的水分扩散引起的CMOSFET特性。具有代表性的现象是nMOSFET的异常短沟道驼峰效应和CMOSFET的短沟道裕度退化。从我们广泛的实验结果中,我们明显地发现,短通道峰的起源是由于从ILD膜中扩散的水分中的氧成分与封盖的SiN膜结合在STI边缘区域的Si/SiO/sub 2/界面处产生的硼偏析,以及由于硼的氧化增强扩散而导致的短通道边缘降解。为了解释异常驼峰现象,我们提出了一种新的定量驼峰模型,并提出了在ILD前利用势垒SiN膜抑制驼峰的方法。此外,我们对每个样品的热载流子寿命进行了评估。
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