作者
R. Asanovski,P. Rinaudo,A. Chasin,Zhao, Y., Gandhi, P., Knigge, C., Charles, P.A, Stern, D., Boorman P., Nuchvanichakul P., Dashwood Brown C., Buckley D.A.H.,H.F.W. Dekkers,M. J. Van Setten,D. Matsubayashi,N. Rassoul,A. Belmonte,G.S. Kar,B. Kaczer,J. Franco
摘要
investigate the origin of negative threshold voltage shifts in back-gated amorphous IGZO TFTs under positive bias and high temperature stress. Combined DC and 1/f noise measurements reveal that the stress does not generate new dielectric traps but instead broadens the IGZO conduction band tail states. A recovery experiment confirms that the associated threshold voltage, subthreshold swing, and noise degradation are reversible. Simulations using an in-house Poisson solver confirm the experimental observations that high-temperature stress increases hydrogen doping and the density of sub-gap states.