由于硅表面覆盖、多晶硅侵入和角应力，亚3nm栅极氧化物的厚度发生了严重变化

1999 Symposium on VLSI Technology. Digest of Technical Papers (IEEE Cat. No.99CH36325) Pub Date : 1999-06-14 DOI:10.1109/VLSIT.1999.799347

C. Liu, F. Baumann, A. Ghetti, H. Vuong, C. Chang, K. Cheung, J. Colonell, W. Lai, E. J. Lloyd, J. Miner, C. Pai, H. Vaidya, R. Liu, J. Clemens

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引用次数: 12

摘要

在用亚3nm栅极氧化物制备CMOS器件时，我们观察到氧化物厚度(t/sub ox/)的剧烈变化。对于通道中心的t/sub ox/为2.5 nm的器件，不同通道位置的物理t/sub ox/范围为1.8 nm至4.2 nm。这是由于局部硅表面的取向和应力条件决定了不同的氧化物生长速率，特别是在浅沟隔离(STI)的圆角处。此外，多晶硅从栅电极侵入也导致局部t/sub /变薄。这种t/sub -ox /的剧烈变化成为STI工程、栅氧化垢和鉴定的挑战。

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Severe thickness variation of sub-3 nm gate oxide due to Si surface faceting, poly-Si intrusion, and corner stress

In the fabrication of CMOS devices with sub-3 nm gate oxides, we have observed severe variation of the oxide thickness (t/sub ox/). For devices with 2.5 nm t/sub ox/ at the center of the channel, the physical t/sub ox/ ranges from 1.8 nm to 4.2 nm at various channel positions. This is caused by different oxide growth rates determined by the orientation and stress conditions of the local Si surface, especially at the rounded corners of the shallow-trench isolation (STI). In addition, poly-Si intrusion from the gate electrode also causes local t/sub ox/ thinning. Such severe variation of t/sub ox/ becomes the challenge of STI engineering, gate-oxide scaling and qualification.

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1999 Symposium on VLSI Technology. Digest of Technical Papers (IEEE Cat. No.99CH36325)

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