采用TED抑制的高性能0.18 um nMOSFET

ICVC '99. 6th International Conference on VLSI and CAD (Cat. No.99EX361) Pub Date : 1999-10-26 DOI:10.1109/ICVC.1999.820851

Hyun-Sik Kim, Jong-Hyon Ahn, Duk-Min Lee, Soo-Cheol Lee, K. Suh

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摘要

在深亚四分之一微米，栅极通道(Lgate)区域的瞬态增强扩散(TED)由于间隙硅原子的增加而严重地引起器件特性的变化。与栅极长度或栅极氧化物厚度的变化相比，由这种TED引起的沟道杂质变化成为导致阈值电压剧烈波动的更主要因素。本文介绍了利用局部植入工艺抑制选择性植入通道过程中严重表现出的反向短通道效应(RSCE)的结果。以硼为n通道掺杂剂，通过快速热退火(RTA)处理抑制TED，实现了RSCE提高10%，Vth波动降低35%。我们不仅证明了电流驱动增加了15%，而且通过实现铟的超陡逆行(Super-Steep Retrograded, SSR)通道掺杂谱，明显地消除了RSCE。

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High performance 0.18 um nMOSFET by TED suppression

In deep sub-quarter micron, Transient Enhanced Diffusion (TED) of gate channel (Lgate) region seriously gives rise to the variation of device characteristics due to the increase of interstitial silicon atoms. Channel impurity variation by this TED becomes more dominant factor to bring about the severe fluctuation of threshold voltage than the gate length or the gate oxide thickness variation does. This work presents the results of suppressing Reverse Short Channel Effect (RSCE) which severely is showed in the selectively implanted channel process using local implant process. In case of using boron as the n-channel dopant, the 10% improvement of RSCE and the 35% reduction of Vth fluctuation are achieved through TED suppression by Rapid Thermal Anneal (RTA) treatment. We not only demonstrated the 15% increase of current drive but also removed RSCE clearly by realizing of Super-Steep Retrograded (SSR) channel doping profile with indium.

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ICVC '99. 6th International Conference on VLSI and CAD (Cat. No.99EX361)

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