采用自由基氧化氮化的低泄漏、高可靠的1.5 nm离子栅介电介质，用于低于0.1 /spl μ m的CMOS

2000 Symposium on VLSI Technology. Digest of Technical Papers (Cat. No.00CH37104) Pub Date : 2000-06-13 DOI:10.1109/VLSIT.2000.852792

M. Togo, K. Watanabe, T. Yamamoto, N. Ikarashi, K. Shiba, T. Tatsumi, H. Ono, T. Mogami

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引用次数: 11

摘要

采用自由基氧化氮化技术，研制了一种低泄漏、高可靠性的1.5 nm离子栅电介质。本文介绍了一种基于阈值电压对mosfet衬底偏置依赖性来确定超薄SiON栅极介电厚度的新方法。研究发现，先进行自由基氧化再进行自由基氮化可得到1.5 nm厚的SiO/sub /，泄漏电流比1.5 nm厚SiO/sub /小两个数量级，且不影响器件性能。还发现1.5 nm厚的SiO/sub /比1.5 nm厚的SiO/sub /可靠10倍。

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Low-leakage and highly-reliable 1.5 nm SiON gate-dielectric using radical oxynitridation for sub-0.1 /spl mu/m CMOS

We have developed a low-leakage and highly-reliable 1.5 nm SiON gate-dielectric by using radical oxynitridation. In this development, we introduce a new method for determining ultra-thin SiON gate-dielectric thickness based on the threshold voltage dependence on the substrate bias in MOSFETs. It was found that radical oxidation followed by radical nitridation provides 1.5 nm thick SiON in which leakage current is two orders of magnitude less than that of 1.5 nm thick SiO/sub 2/ without degrading device performance. The 1.5 nm thick SiON was also found to be ten times more reliable than 1.5 nm thick SiO/sub 2/.

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2000 Symposium on VLSI Technology. Digest of Technical Papers (Cat. No.00CH37104)

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