Detrimental impact of hydrogen on negative bias temperature instabilities in HfO/sub 2/-based pMOSFETs

Digest of Technical Papers. 2004 Symposium on VLSI Technology, 2004. Pub Date : 2004-06-15 DOI:10.1109/VLSIT.2004.1345485

M. Houssa, S. Gendt, J. Autran, Guido Groeseneken, M. Heyns

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引用次数: 12

Abstract

The impact of hydrogen on negative bias temperature instabilities (NBTI) in atomic layer deposited (ALD) HfO/sub 2/-based pMOSFETs is reported for the first time. After forming gas anneal (FGA) at high temperature (580/spl deg/C), the saturated threshold voltage (V/sub th/) shift of the devices is about 100 mV at 125/spl deg/C and V/sub G/ = -1.5 V. The V/sub th/ instability is reduced to about 50 mV for devices annealed in forming gas at 520/spl deg/C. Detailed analysis of the experimental results indicates that the defects responsible for NBTI are hydrogen-induced overcoordinated oxygen centers, induced by the transport and trapping of H/sup +/ in the gate stack. The V/sub th/ shift can be further reduced to less than 5 mV after subjecting the transistors to a higher thermal budget during the dopant activation anneal, which allows to release the strain at the Si/dielectric interface as well as to drive hydrogen out of the high-k gate stack. This finding is very important with respect to the thermal budget requirements for scaled CMOS processes.

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氢对HfO/ sub2 /基pmosfet负偏置温度不稳定性的不利影响

首次报道了氢对原子层沉积(ALD) HfO/sub - 2/基pmosfet负偏置温度不稳定性(NBTI)的影响。在高温(580/spl℃)下形成气体退火(FGA)后，器件在125/spl℃和V/sub G/ = -1.5 V时的饱和阈值电压(V/sub /)位移约为100 mV。在520/spl℃的成形气体中退火的器件，其V/sub /不稳定性降至50 mV左右。对实验结果的详细分析表明，导致NBTI的缺陷是氢诱导的过配位氧中心，这是由栅极堆中H/sup +/的输运和捕获引起的。在掺杂剂活化退火过程中，使晶体管承受更高的热负荷后，V/sub /位移可以进一步降低到小于5 mV，这允许在Si/介电界面释放应变，并将氢从高k栅极堆栈中驱动出来。这一发现对于CMOS工艺的热预算要求是非常重要的。

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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Digest of Technical Papers. 2004 Symposium on VLSI Technology, 2004.

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