Title :
Method of LTPS TFT with fin-like structure and its channel self-selective enhanced crystallization
Author :
Yin, Huaxiang ; Wenxu, Xianyu ; Jung, Jisim ; Cho, Hang ; Kim, Doyoung ; Park, Kyungbae ; Kwon, Jangyeon ; Noguchi, T.
Author_Institution :
N-Team, Samsung Adv. Inst. of Technol., Gyeonggi-Do, South Korea
Abstract :
Forming high-quality Si film on glass with low cost has become one of key challenges in making high performance low temperature poly-Si TFT (LTPS) for future SOG applications. A new method of applying a finlike channel structure into the LTPS TFT is proposed. During the simple ELC process, the geometry size difference between the source/drain (S/D) and the channel region produces a new effect of self-selective enhanced crystallization on the fin-like channel. Via this effect, a high quality poly-Si with larger grain, smoother surface and more compact grain arrangement is achieved. Meanwhile, just like its precursor the SOI FinFET, the fin-like LTPS TFT structure demonstrates a sharp subthreshold slope, and higher transconductance and short channel effect immunity than the conventional thin film device. This was confirmed by ISE simulation.
Keywords :
crystallisation; elemental semiconductors; laser materials processing; silicon; silicon-on-insulator; thin film transistors; LTPS; SOG; Si; channel self-selective enhanced crystallization; compact grain arrangement; excimer laser crystallization; fin-like channel structure TFT; low temperature poly-Si TFT; short channel effect immunity; silicon film on glass; source/drain-channel region geometry size difference; subthreshold slope; surface smoothness; transconductance; Costs; Crystallization; FinFETs; Geometry; Glass; Semiconductor films; Temperature; Thin film devices; Thin film transistors; Transconductance;
Conference_Titel :
Solid-State and Integrated Circuits Technology, 2004. Proceedings. 7th International Conference on
Print_ISBN :
0-7803-8511-X
DOI :
10.1109/ICSICT.2004.1435230
