Advantages of B/sub 18/H/sub 22/ ion implantation and influence on PMOS reliability

Extended Abstracts of the Fifth International Workshop on Junction Technology Pub Date : 2005-06-07 DOI:10.1109/IWJT.2005.203872

M. Ishibashi, Y. Kawasaki, K. Horita, T. Kuroi, T. Yamashita, K. Shiga, T. Hayashi, M. Togawa, T. Eimori, Y. Ohji

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Abstract

In this paper, the impact of cluster ion (B/sub 18/H/sub x//sup +/) implantation on SDE formation are investigated in detail. It has been shown that B/sub 18/H/sub x//sup +/ ion implantation not only can make ultra-shallow junction for 45 nm node and beyond and but also has self-amorphization property and can reduce the channeling tail in the boron distribution without pre-amorphization implantation. In addition, B/sub 18/H/sub x//sup +/ ion implantation can be expected to reduce a fluctuation of MOSFETs, compared with B/sup +/ implantation. Cluster implantation is the reliability issue by hydrogen atom, because a large amount of hydrogen atoms are simultaneously introduced with boron into the silicon substrate. Moreover, neither the increase of junction leakage current nor influences of hydrogen which is introduced during B/sub 18/H/sub x//sup +/ implantation on PMOS reliability does not occur. The amorphization effect are evaluated by TEM observation and boron and hydrogen profiles by SIMS analysis.

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B/sub - 18/H/sub - 22离子注入的优点及对PMOS可靠性的影响

本文详细研究了簇离子(B/sub 18/H/sub x//sup +/)注入对SDE形成的影响。结果表明，B/sub - 18/H/sub - x/ sup +/离子注入不仅可以形成45 nm及以上节点的超浅结，而且具有自非晶化性能，可以减少硼分布中的通道尾，而无需进行预非晶化注入。此外，与B/sup +/注入相比，B/sub 18/H/sub x//sup +/离子注入可以减少mosfet的波动。由于大量的氢原子与硼同时被引入硅衬底，因此簇植入是一个可靠性问题。在B/sub - 18/H/sub - x//sup +/注入过程中引入的氢气对PMOS可靠性没有影响。通过TEM观察和SIMS分析硼、氢剖面评价了非晶化效果。

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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Extended Abstracts of the Fifth International Workshop on Junction Technology

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