• 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