NMOS silicon gate transistors in large-area laser-crystallised silicon layers

Author

B????sch, M.A. ; Chin, G.M. ; Herbst, D. ; Grogan, J.K. ; Lemons, R.A. ; Tennat, D.M. ; Tewksbury, S.K.

Author_Institution

Bell Laboratories, Holmdel, USA

Volume

131

Issue

4

fYear

1984

fDate

8/1/1984 12:00:00 AM

Firstpage

121

Lastpage

124

Abstract

The properties of NMOS polycrystalline silicon gate transistors, fabricated in large-area laser-crystallised silicon layers on an insulating substrate, are described. The transistor characteristics reveal the influence of parasitic side transistors. The influence of the side-channel transistors becomes more pronounced with decreasing channel width, and has to be considered in the mobility calculations. The electron mobility is channel-length dependent, and varies from 780 cm2 VÂ¿1 sÂ¿1 at L = 5 Â¿m to 200 cm2 VÂ¿1 sÂ¿1 at L = 100 Â¿m. Leakage currents at VD = 4.9 V are typically 15 pA/Â¿m, although 20% of transistors with channel length less than 10 Â¿m show leakage currents in excess of 1 Â¿A. The threshold voltage depends on the drain voltage, as is typical for silicon-on-insulator structures.

Keywords

carrier mobility; insulated gate field effect transistors; laser beam annealing; NMOS si gate transistors; SOI structures; channel width; electron mobility; insulating substrate; large area laser crystallised Si layers; leakage currents; parasitic side transistors; side-channel transistors; threshold voltage;

fLanguage

English

Journal_Title

Solid-State and Electron Devices, IEE Proceedings I

Publisher

iet

Conference_Location

8/1/1984 12:00:00 AM

ISSN

0143-7100

Type

jour

DOI

10.1049/ip-i-1.1984.0033

Filename

4642763