The impact of gamma irradiation on SiGe HBTs operating at cryogenic temperatures

Authors :: Akil K. Sutton
John D. Cressler
J.F. Krieg
R. Krithivasan
S.D. Clark
J.E. Seiler
Alvin J. Joseph
Source :: IEEE Transactions on Nuclear Science. 50:1805-1810
Publication Year :: 2003
Publisher :: Institute of Electrical and Electronics Engineers (IEEE), 2003.
Abstract: We show that silicon-germanium (SiGe) heterojunction bipolar transistors (HBTs) are naturally suited for space applications requiring operation of electronics at cryogenic temperatures, and present the first comprehensive investigation of the effects of gamma irradiation on the characteristics of SiGe HBTs operating at liquid nitrogen temperature (77 K). We find that exposure to 1 Mrad total dose at 77 K produces significantly less base current degradation than exposure at 300 K, and hence the total dose tolerance of SiGe HBTs, which is already excellent at room temperature without intentional hardening, improves with cooling. We compare 77 and 300 K radiation results in order to better understand the damage mechanisms.

Subjects :: Nuclear and High Energy Physics
Materials science
business.industry
Bipolar junction transistor
Heterojunction
Radiation
Liquid nitrogen
Nuclear Energy and Engineering
Total dose
Hardening (metallurgy)
Optoelectronics
Electronics
Electrical and Electronic Engineering
business
Gamma irradiation

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