High-mobility poly-Si TFT´s fabricated by a novel excimer laser crystallization method

Author

Shimizu, Kazuo ; Sugiura, O. ; Matsumura, Mieko

Author_Institution

Tokyo Inst. of Technol.

Volume

39

Issue

11

fYear

1992

fDate

11/1/1992 12:00:00 AM

Firstpage

2664

Lastpage

2665

Abstract

Summary form only given. High-mobility poly-Si TFTs (thin-film transistors) were fabricated by a novel excimer-laser crystallization method using dual-beam irradiation. The field effect mobility of the TFT was as high as 380 cm²/V-s. The origin of high mobility was the large grain size (2 μm) of poly-Si film obtained by the method used. Si(50 nm)/SiO₂(80 nm)/Si(100 nm) structure was deposited over a quartz substrate and irradiated by an ArF excimer laser at 300 mJ/cm² on both front and back surfaces at the same time. Bottom-gate TFTs were fabricated using the top Si layers as active layer; SiO₂ and bottom Si layers were used as gate insulator and gate electrode, respectively; aluminum as source/drain electrodes were directly deposited over the active layer

Keywords

argon compounds; carrier mobility; crystallisation; elemental semiconductors; excimer lasers; grain size; insulated gate field effect transistors; laser beam applications; semiconductor technology; silicon; thin film transistors; Al electrodes; ArF excimer laser; Si-SiO₂; SiO₂; dual-beam irradiation; excimer laser crystallization; field effect mobility; grain size; high mobility; poly-Si TFTs; polycrystalline semiconductor film; polysilicon; thin-film transistors; Circuits; Crystallization; Current measurement; Displays; Laser modes; Length measurement; Life estimation; Optical waveguides; Threshold voltage; Waveguide lasers;

fLanguage

English

Journal_Title

Electron Devices, IEEE Transactions on

Publisher

ieee

ISSN

0018-9383

Type

jour

DOI

10.1109/16.163532

Filename

163532