2017 Asia-Pacific Workshop on Fundamentals and Applications of Advanced Semiconductor Devices (AWAD2017)
Abstract
We propose a novel optimized design strategy by considering the correlated effects of high- gate oxide and spacer dielectric on GIDL and DIBL for high performance nanoscale CMOS with III-V/Ge channel tri-gate FinFET structure. By investigating the transition of GIDL mechanism from vertical to lateral direction in 14-nm InAs n-FinFET and Ge p-FinFET with abrupt and high drain doping, the lateral GIDL is suppressed as 1/100 by high- spacer (e.g. TiO2) with high drive current of 1 mA/um and lower leakage current than 100 nA/um which works on lower operation voltage (VDD= 0.63V). DIBL is also suppressed below 100 mV/V by taking relatively lower- gate oxide (e.g. HfO2) than the high- spacer.
Publisher
Electronics Society, The Institute of Electronics, Information and Communication Engineers of Japan (IEICE-ES)