Title :
First successful fabrication of high-performance all-refractory-metal (Ta-Au) GaAs FET using very highly doped N+-layers and nonalloyed ohmic contacts
Author :
Calviello, J.A. ; Bie, P.R. ; Hickman, Granger ; Pomian, P. ; Cappello, Angelo ; Costello, W.
Author_Institution :
Eaton Corporation, AIL Division, Deer Park, USA
Abstract :
An all-refractory-metal GaAs MESFET (ARFET) making use of a Ta Schottky barrier with a thick gold overlayer for the source, gate and drain, and very highly doped N+-layers (2x1019 cm-3) to achieve low-resistivity nonalloyed ohmic contacts, has been successfully fabricated. These have a 400 ¿m gate periphery and 0.6 ¿m gate length and measured an associated gain of 10.22 dB and a noise figure of 2.14 dB at 8 GHz. The ARFETs were fabricated on epitaxial layers grown by MBE. Only one mask was used to simultaneously define source, gate and drain regions via a plasma dry-etch technique.
Keywords :
III-V semiconductors; field effect transistors; heavily doped semiconductors; ohmic contacts; ARFET; GaAs FET; MBE; Ta Schottky barrier; Ta-Au; all-refractory-metal; gain; gate length; gate periphery; noise figure; nonalloyed ohmic contacts; plasma dry-etch; very highly doped N+-layers;
Journal_Title :
Electronics Letters
DOI :
10.1049/el:19860348
