氧化物击穿温度加速及其对超薄栅极氧化物可靠性的影响

1999 Symposium on VLSI Technology. Digest of Technical Papers (IEEE Cat. No.99CH36325) Pub Date : 1999-06-14 DOI:10.1109/VLSIT.1999.799339

R. Degraeve, N. Pangon, B. Kaczer, T. Nigam, G. Groeseneken, A. Naem

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引用次数: 61

摘要

在厚度13.8 ~ 2.8 nm范围内，系统地研究了氧化物的可靠性。结果表明:(1)对于小于5 nm的氧化物，击穿时间应作为栅极电压的函数进行外推;(2)击穿时间的温度加速度随着厚度的减小而急剧增加;(3)温度加速度的增加、面积缩放和低故障率的结合导致超薄氧化物的边际内在可靠性，严重限制了氧化物厚度的进一步缩小。

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Temperature acceleration of oxide breakdown and its impact on ultra-thin gate oxide reliability

A systematic study of oxide reliability is presented in the thickness range 13.8 nm to 2.8 nm. It is demonstrated that (i) the time-to-breakdown should be extrapolated as a function of gate voltage for sub-5 nm oxides, (ii) the temperature acceleration of time-to-breakdown increases drastically with decreasing thickness, and (iii) the combination of increased temperature acceleration, area scaling and low percentage failure rates leads to marginal intrinsic reliability for ultra-thin oxides, severely limiting further downscaling of oxide thickness.

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

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