Title :
Mechanism of Electron Trapping and Characteristics of Traps in HfO2 Gate Stacks
Author :
Bersuker, Gennadi ; Sim, J.H. ; Park, Chang Seo ; Young, Chadwin D. ; Nadkarni, Suvid V. ; Choi, Rino ; Lee, Byoung Hun
Author_Institution :
SEMATECH, Austin
fDate :
3/1/2007 12:00:00 AM
Abstract :
Electron trapping in high- gate dielectrics under constant voltage stress is investigated. It is suggested that the electron trapping occurs through a two-step process: resonant tunneling of the injected electron into the preexisting defects (fast trapping) and thermally activated migration of trapped electrons to unoccupied traps (slow trapping). Characteristics of the electron traps extracted based on the proposed model are in good agreement with the calculated properties of the negatively charged oxygen vacancies. The model successfully describes low-temperature threshold voltage instability in NMOS transistors with /TiN gate stacks.
Keywords :
electron traps; hafnium compounds; high-k dielectric thin films; titanium compounds; HfO2 - Binary; NMOS transistors; TiN - Binary; electron trapping; gate stacks; high-k gate dielectrics; negatively charged oxygen vacancies; resonant tunneling; thermally activated migration; threshold voltage instability; Annealing; Current measurement; Dielectrics; Distortion measurement; Electron traps; Hafnium oxide; MOSFETs; Stress; Threshold voltage; Tin; Electron trapping; high-$kappa$ dielectrics; threshold voltage instability;
Journal_Title :
Device and Materials Reliability, IEEE Transactions on
DOI :
10.1109/TDMR.2007.897532
