源/漏寄生的详细建模及其对mosfet缩放的影响

Extended Abstracts of the Third International Workshop on Junction Technology, 2002. IWJT. Pub Date : 1900-01-01 DOI:10.1109/IWJT.2002.1225186

Seong-Dong Kim, J. Woo

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引用次数: 0

摘要

通过对50 nm栅极长MOSFET设计和缩放的高级建模，研究了影响源/漏(S/D)寄生电阻的电阻分量和关键器件/工艺参数。硅扩散接触电阻元件有望成为高尺度纳米MOS晶体管的主要元件。基于53 nm栅极长度技术，定量分析了影响MOSFET缩放的关键因素，并讨论了S/D工程克服S/D寄生相关缩放障碍的策略。

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Detailed modeling of source/drain parasitics and their impact on MOSFETs scaling

The resistance components and key device/process parameters contributing of source/drain (S/D) parasitic resistance are investigated through advanced modeling for 50 nm gate-length MOSFET design and scaling. The silicide-diffusion contact resistance component is expected to be a major component in highly scaled nanometer MOS transistors. The key factors impact on MOSFET scaling are quantitatively examined based on 53 nm gate-length technology and the strategies for S/D engineering surmounting the scaling barriers associated with S/D parasitics are discussed.

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Extended Abstracts of the Third International Workshop on Junction Technology, 2002. IWJT.

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