Ruqiang Bao, Huimei Zhou, et al.
IEDM 2018
An ultrafast (10-μs delay) measurement technique is used to characterize the negative bias temperature instability-induced threshold voltage shift (Δ VT) in replacement metal gate-based high-K metal gate Si and SiGe p-FinFETs. The dc stress-recovery Δ VT time kinetics, voltage acceleration factor (VAF), and temperature activation energy (EA) are compared for different germanium percentages (Ge%) in the channel and nitrogen percentages (N%) in the gate-stack. A comprehensive physical model framework based on uncorrelated contributions from the generation of interface (Δ VIT) and bulk oxide (Δ VOT) traps and hole trapping in preexisting defects (Δ VHT) is used to explain the measured data. The impact of Ge% and N% on Δ VT, VAF, EA, temperature (T) dependence of VAF, and stress bias (VGSTR) dependence of EA are quantified. The interface trap generation component is independently verified by direct-current I-V (DCIV) measurements.
Ruqiang Bao, Huimei Zhou, et al.
IEDM 2018
Choonghyun Lee, Shogo Mochizuki, et al.
IEDM 2017
Ruqiang Bao, Steven Hung, et al.
IEDM 2018
Huimei Zhou, Miaomiao Wang, et al.
IRPS 2021