Title :
Impacts of gate electrode materials on threshold voltage (Vth) instability in nMOS HfO2 gate stacks under DC and AC stressing
Author :
Wang, Xuguang ; Peterson, Jeff ; Majhi, Prashant ; Gardner, Mark I. ; Kwong, Dim-Lee
Author_Institution :
Dept. of Electr. & Comput. Eng., Univ. of Texas, Austin, TX, USA
Abstract :
Ultrathin nMOSFET hafnium oxide (HfO2) gate stacks with TiN metal gate and poly-Si gate electrodes are compared to study the impact of the gate electrode on long term threshold instability reliability for both dc and ac stress conditions. The poly-Si/high-κ interface exhibits more traps due to interfacial reaction than the TiN/high-κ interface, resulting in significantly worse dc Vth instability. However, the Vth instability difference between these two stacks decreases and eventually diminishes as ac stress frequency increases, which suggests the top interface plays a minor role in charge trapping at high operating frequency. In addition, ac stress induced interface states (Nit) can be effectively recovered, resulting in negligible Gm degradation.
Keywords :
MOSFET; dielectric thin films; electron traps; hafnium compounds; interface states; semiconductor device reliability; silicon; titanium compounds; AC stress induced interface states; AC stressing; DC stressing; TiN-HfO2-Si; charge trapping; gate electrode materials; high-K interface; interfacial reaction; long term threshold instability reliability; nMOS gate stacks; threshold voltage instability; ultrathin nMOSFET hafnium oxide gate stacks; Degradation; Electrodes; Frequency; Hafnium oxide; Interface states; MOS devices; MOSFET circuits; Stress; Threshold voltage; Tin; Charge trapping; HfO; TiN metal gate; dynamic stress measurement; interface state passivation;
Journal_Title :
Electron Device Letters, IEEE
DOI :
10.1109/LED.2005.851819
