I. Introduction

Thin-Film transistors (TFTs) with better performance will be essential to the next generation of mobile displays, since not only the pixel array but functional circuits, such as controllers, drivers, and so on, will be integrated on the same glass substrate. The displays will require TFTs that have low power consumption and thus low threshold voltage, a steep subthreshold slope (S-value), high field-effect mobility, and little deviation in any of these values. The poly-Si TFT has the higher mobility than any kind of TFT (for instance, amorphous Si TFTs or organic TFTs) and is thus the most promising device in terms of achieving these goals. In general, a poly-Si TFT is fabricated by excimer laser crystallization (ELC) [1]. However, the performance of the conventional ELC TFT is not sufficient for the integration of functional circuits. ELC leads to a poly-Si layer with lots of grain boundaries, which constitute defects and lead to poor performance for TFTs thus fabricated.