超薄soi CMOS表面光滑的高架源/漏工程

Extended Abstracts of the Third International Workshop on Junction Technology, 2002. IWJT. Pub Date : 1900-01-01 DOI:10.1109/IWJT.2002.1225202

K. Sugihara, T. Nakahata, T. Matsumoto, S. Maeda, S. Maegawa, K. Ota, H. Sayama, H. Oda, T. Eimori, Y. Abe, T. Ozeki, Y. Inoue

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引用次数: 1

摘要

实验证明了一种新型的选择性外延生长(SEG)技术，该技术将低温UHV-CVD和低损伤侧壁蚀刻与Cl/sub 2/-等离子体相结合，用于高S/D超薄SOI CMOS器件。研究发现，在高S/D -40 nm厚的SOI fet中，寄生S/D串联电阻的偏差几乎与体型fet一样低，因为优异的外延硅表面形貌使得CoSi/sub - 2/膜均匀。此外，门/漏桥接和任何其他泄漏现象都不明显。这些结果意味着SEG技术有望用于90纳米及以上技术节点的高S/D超薄SOI CMOS器件。

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Elevated source/drain engineering with smooth surface morphology for ultrathin-SOI CMOS

A novel selective epitaxial growth (SEG) technology which combines low-temperature UHV-CVD and low-damage sidewall etch-back with a Cl/sub 2/-plasma is experimentally demonstrated for elevated S/D ultra-thin SOI CMOS devices. It is found that the deviation of the parasitic S/D series resistance in elevated S/D sub-40-nm-thick SOI FETs can be nearly as low as that in bulk FETs because the excellent epi-Si surface morphology enables a uniform CoSi/sub 2/ film. Moreover, neither gate/drain bridging nor any other leakage phenomena are pronounced. These results mean that this SEG technology is promising for elevated S/D ultra-thin SOI CMOS devices for the 90-nm technology node and beyond.

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

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