Title :
Electrical analysis of high-mobility poly-Si TFTs made from laser-irradiated sputtered Si Films
Author :
Shirai, Seiiti ; Serikawa, Tadashi
Author_Institution :
NTT Interdisciplinary Res. Lab., Tokyo, Japan
fDate :
2/1/1992 12:00:00 AM
Abstract :
Polysilicon thin-film transistors (TFTs) fabricated from laser-irradiated sputtered Si films are electrically analyzed for carrier trap state density Nst, temperature dependence of drain current, Hall effect, and potential profile in the channel. The field-effect mobility of the poly-Si TFTs increases 390 cm 2/V-s with decreasing Nst. With Nst decreasing, the activation energy obtained from the temperature dependence of drain current changes from a positive to a negative value which is almost equal to the value for single-crystal MOSFETs. Carrier velocity increases as Nst is decreased, but carrier concentration is nearly independent of N st. Plateau regions of zero electric field were observed in poly-Si TFTs with high Nst. Therefore, it is concluded that high mobility occurs as a result of increasing carrier velocity, and electric field and of lowering the potential barrier by reducing Nst
Keywords :
carrier mobility; laser beam annealing; semiconductor thin films; sputtered coatings; thin film transistors; Hall effect; activation energy; carrier concentration; carrier trap state density; carrier velocity; field-effect mobility; laser-irradiated sputtered Si films; polycrystalline Si; polysilicon TFTs; potential profile; temperature dependence of drain current; Current measurement; Electrodes; Hall effect; Optical device fabrication; Semiconductor films; Silicon; Temperature dependence; Thin film transistors; Three dimensional displays; Voltage;
Journal_Title :
Electron Devices, IEEE Transactions on
