Improvements in low temperature (<625°C) FDSOI devices down to 30nm gate length

Proceedings of Technical Program of 2012 VLSI Technology, System and Application Pub Date : 2012-04-23 DOI:10.1109/VLSI-TSA.2012.6210171

C. Xu, P. Batude, M. Vinet, M. Mouis, M. Cassé, B. Sklénard, B. Colombeau, Q. Rafhay, C. Tabone, J. Berthoz, B. Previtali, J. Mazurier, L. Brunet, L. Brevard, F. Khaja, J. Hartmann, F. Allain, A. Toffoli, R. Kies, C. Le Royer, S. Morvan, A. Pouydebasque, X. Garros, A. Pakfar, C. Tavernier, O. Faynot, T. Poiroux

引用次数: 7

Abstract

For the first time, low temperature (LT) anneal at 625°C has been demonstrated for dopants activation enabling similar ION/IOFF trade-off as standard spike anneal (>;1000°C), down to 30nm gate length (LG) for both n&p FETs. Similar short channel effect control has been achieved in LT n&p FETs as its high temperature (HT) counterparts. Influence of dopant implant tilt on LT device performance is analyzed and guidelines for device performance optimization are proposed. This demonstration paves the way to 3D sequential integration with equal performance for stacked transistors and for bottom transistors.

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改进低温(<625°C) FDSOI器件至30nm栅极长度

首次在625°C的低温(LT)退火下证明了掺杂剂的激活，实现了与标准峰峰退火(>;1000°C)相似的离子/IOFF权衡，对于n&p场效应管来说，栅极长度(LG)降至30nm。类似的短沟道效应控制已经在低温n&p场效应管中实现。分析了掺杂种植体倾角对LT器件性能的影响，并提出了器件性能优化的指导方针。该演示为具有相同性能的堆叠晶体管和底部晶体管的3D顺序集成铺平了道路。

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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来源期刊

Proceedings of Technical Program of 2012 VLSI Technology, System and Application

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