DocumentCode
1455405
Title
Dose rate and total dose dependence of low frequency noise performance, I-V curves and sidegating for GaAs MESFETs
Author
Hiemstra, David M. ; Kizeevi, Alexandr A. ; Hou, Li Z. ; Salama, C. Andre T
Author_Institution
SPAR Space Syst., Brampton, Ont., Canada
Volume
45
Issue
6
fYear
1998
fDate
12/1/1998 12:00:00 AM
Firstpage
2616
Lastpage
2623
Abstract
Total dose and dose rate performance of GaAs MESFET devices of various geometries and sidegating structures at various distances and orientations are presented. Parameters measured include low frequency noise, I-V curves and sidegating. The GaAs MESFET devices tested are shown to be useful to a total dose greater than 500 Mrad(GaAs). The observed reduction in drain current for a given bias point versus total dose is believed to be due to the sinking gate effect. The post irradiation degradation of 1/f noise performance shows a Lorentzian component which grows continuously with total dose to 1 Grad(GaAs). The during irradiation noise performance exhibits a dose rate dependent Lorentzian component. This component has been named selfgating dose rate noise. The sidegating effect exhibits a dose rate dependent degradation which decreases with increasing distance at low dose rates and saturates at a dose rate of approximately 150 krad(GaAs)/hour. The dose rate dependent sidegating effect is reduced with accumulated total dose
Keywords
1/f noise; III-V semiconductors; Schottky gate field effect transistors; gallium arsenide; radiation effects; semiconductor device noise; 1/f noise performance; 500 to 1000 Mrad; GaAs; GaAs MESFETs; I-V curves; LF noise performance; Lorentzian component; dose rate dependent degradation; dose rate performance; low frequency noise; post irradiation degradation; selfgating dose rate noise; sidegating; sinking gate effect; total dose dependence; Degradation; Fusion reactors; Gallium arsenide; Inductors; Inspection; Ionizing radiation; Low-frequency noise; MESFETs; Neutrons; Operational amplifiers;
fLanguage
English
Journal_Title
Nuclear Science, IEEE Transactions on
Publisher
ieee
ISSN
0018-9499
Type
jour
DOI
10.1109/23.736505
Filename
736505
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