Transient and stress effects in amorphous silicon thin-film transistors

Abstract In this paper we present experimental and simulation results of the transient response of amorphous silicon (a-Si) thin-film transistors (TFTs) over many orders of magnitude in time after the application of a voltage pulse to the gate. In general, three regimes are observed by plotting drain current against the logarithm of time. At times longer than the carrier transit time and extending up to 1–100 ms, the current rapidly decreases because of trap filling, after which it then slowly decays until defects are created in the silicon channel when it then finally decays more rapidly again. Our simulation results are in good agreement with the data for the short-time trap-filling regime, both as a function of gate bias and stress condition. Measurements at elevated temperatures show that the middle slow-decay regime is caused by charge injection into interface states or the gate dielectric. Finally we also demonstrate that this slow-decay regime does not occur in n-i-n diodes, confirming that it is n...