Is strain engineering scalable in FinFET era?: Teaching the old dog some new tricks

2012 International Electron Devices Meeting Pub Date : 2012-12-01 DOI:10.1109/IEDM.2012.6479065
A. Nainani, S. Gupta, V. Moroz, Munkang Choi, Y. Kim, Y. Cho, J. Gelatos, T. Mandekar, A. Brand, E. Ping, M. Abraham, K. Schuegraf
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引用次数: 31

Abstract

S/D epitaxy remains an effective source of strain engineering for both aggressively and conservatively scaled FinFETs. Not merging the S/D epitaxy between adjacent fins and recess etch into the fin before S/D epitaxy is recommended for maximizing the gain. With high active P concentration Si:C becomes an effective stressor for NMOS. Contact and gate metal fills provide new knobs for engineering strain in FinFET devices for the 22nm node and remain effective with conservative scaling of contact / gate CD only.
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应变工程在FinFET时代可扩展吗?教这只老狗一些新把戏
S/D外延仍然是积极和保守缩放finfet应变工程的有效来源。建议在S/D外延实现增益最大化之前,不要将相邻翅片和凹槽蚀刻之间的S/D外延合并到翅片中。Si:C具有较高的活性P浓度,成为NMOS的有效应激源。触点和栅极金属填充物为22nm节点的FinFET器件的工程应变提供了新的调节,并且仅在触点/栅极CD的保守缩放下保持有效。
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2012 International Electron Devices Meeting
2012 International Electron Devices Meeting
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