60纳米等离子体掺杂CMOS晶体管的制备

Ion Implantation Technology. 2002. Proceedings of the 14th International Conference on Pub Date : 1900-01-01 DOI:10.1109/IIT.2002.1257932

D. Lenoble, A. Grouillet, F. Boeuf, T. Skotnicki, D. Hacker, J. Scheuer, S. Walther

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引用次数: 2

摘要

随着脉冲等离子体掺杂继续成为超浅结制造中束线离子注入的可行替代方案，高度先进的pMOS和nMOS晶体管(60nm栅极长度)的源极-漏极延伸部分使用源自三氟化硼和砷的脉冲等离子体掺杂起始材料进行掺杂。将器件性能与束线离子注入的性能直接进行了比较。60纳米晶体管的功能只有在使用等离子体掺杂工艺时才能实现，因为短通道效应得到显著改善，并清楚地表明其优于标准离子注入。

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Fabrication of 60-nm plasma doped CMOS transistors

As pulsed plasma doping continues to emerge as a viable alternative to beamline ion implantation for ultra-shallow junction fabrication, the source-drain extensions of highly advanced pMOS and nMOS transistors (60nm gate length) are doped using pulsed plasma doping derived from boron trifluoride and arsine starting materials. The device performance is compared directly to that of beamline ion implantation. The functionality of 60nm transistors is only achieved when using the plasma doping processes as short-channel effect is significantly improved and clearly demonstrates its benefits over standard ion implantation.

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Ion Implantation Technology. 2002. Proceedings of the 14th International Conference on

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