纳米界面物理的新发现及其与纳米cmos技术的关系

2006 International Workshop on Nano CMOS Pub Date : 1900-01-01 DOI:10.1109/IWNC.2006.4570992

K. Shiraishi, Y. Akasaka, K. Torii, T. Nakayama, S. Miyazaki, T. Nakaoka, H. Watanabe, K. Ohmori, P. Ahmet, T. Chikyow, Y. Nara, K. Yamada

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摘要

我们展示了在纳米级界面物理和栅极介电材料缺陷的原子行为方面的新发现。本文首先讨论了缺陷行为与晶体管特性之间的关系。接下来，我们介绍了我们新提出的界面反应控制的费米能级钉住机制。此外，我们证明了传统的电荷中性能级概念并不适用于金属/高k介电界面，并提出了一个包括纳米级界面结构和金属能带结构的广义电荷中性能级概念。最后，我们讨论了常规Si/SiO2纳米界面特性的原子性研究。

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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New findings in nano-scale interface physics and their relations to nano-CMOS technologies

We show the new findings in nano-scale interface physics and atomistic behaviors of defects in gate dielectric materials. In this paper, we first discuss the relation between defect behaviors and transistor characteristics. Next, we introduce our newly prosed mechanism of Fermi level pinning governed by the interface reaction. Further, we show that conventional charge neutrality level concept does not applicable to metal/high-k dielectric interfaces, and we propose a generalized charge neutrality level concept that includes both nano-scale interface structures and metal band structures. Finally, we discuss the atomistic investigation on the characteristics of conventional Si/SiO2 nano interfaces.

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2006 International Workshop on Nano CMOS

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