Title :
Enhanced degradation in polycrystalline silicon thin-film transistors under dynamic hot-carrier stress
Author :
Chang, Kow Ming ; Chung, Yuan Hung ; Lin, Gin Ming ; Deng, Chi Gun ; Lin, Jian Hong
Author_Institution :
Dept. of Electron. Eng., Nat. Chiao Tung Univ., Hsinchu, Taiwan
Abstract :
We address the mechanisms responsible for the enhanced degradation in the polysilicon thin-film transistors under dynamic hot-carrier stress. Unlike the monotonic decrease of maximum transconductance (G/sub m max/) in static stress, G/sub m max/ in dynamic stress is initially increased due to the channel shortening effect by holes injected into the gate oxide near the drain region and then decreased due to tail states generation at the gate oxide/channel interface and grain boundaries. The threshold voltage variations are dominated by two degradation mechanisms: (1) breaking of weak bonds and (2) breaking of strong bonds to obey the power-time dependence law with a slope of 0.4. The degradation of the sub-threshold slope is attributed to intra-grain bulk states generation.
Keywords :
MOSFET; elemental semiconductors; grain boundaries; hot carriers; interface states; semiconductor device reliability; semiconductor-insulator boundaries; silicon; thin film transistors; Si-SiO/sub 2/; channel shortening effect; degradation enhancement; dynamic hot-carrier stress; enhanced degradation mechanisms; gate oxide/channel interface; grain boundaries; intra-grain bulk states generation; maximum transconductance; poly-Si thin-film transistors; polycrystalline Si; polysilicon TFTs; power-time dependence law; strong bond breaking; subthreshold slope; tail states generation; threshold voltage variations; weak bond breaking; Degradation; Grain boundaries; Hot carriers; Semiconductor thin films; Silicon; Stress; Tail; Thin film transistors; Threshold voltage; Transconductance;
Journal_Title :
Electron Device Letters, IEEE
