Physics – Condensed Matter – Mesoscale and Nanoscale Physics
Scientific paper
2010-08-14
IEEE Trans. on Device and Materials Reliability, Vol.6, pp.315-325, June 2006
Physics
Condensed Matter
Mesoscale and Nanoscale Physics
Journal paper
Scientific paper
This paper critically examines the leakage current reduction techniques for improving the performance of poly-Si TFTs used in active matrix liquid crystal displays. This is a first comprehensive study in literature on this topic. The review assesses important proposals to circumvent the leakage current problem in poly-Si TFTs and a short evaluation of strengths and weaknesses specific to each method is presented. Also, a new device structure called the Triple Gate poly-Si TFT (TG-TFT) is discussed. The key idea in the operation of this device is to make the dominant conduction mechanism in the channel to be controlled by the accumulation charge density modulation by the gate (ACMG) and not by the gate-induced grain barrier lowering (GIGBL). Using twodimensional and two-carrier device simulation, it is demonstrated that the TG-TFT exhibits a significantly diminished pseudo-subthreshold conduction leading to several orders of magnitude reduction in the OFF state leakage current when compared to a conventional poly-Si TFT. The reasons for the improved performance are explained.
Kumar Jagadesh M.
Orouji Ali A.
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