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W2116275715 startingPage "522" @default.
W2116275715 abstract "Silicon-on-insulator (SOI) technologies have been developed for radiation-hardened applications for many years and are rapidly becoming a main-stream commercial technology. The authors review the total dose, single-event effects, and dose rate hardness of SOI devices. The total dose response of SOI devices is more complex than for bulk-silicon devices due to the buried oxide. Radiation-induced trapped charge in the buried oxide can increase the leakage current of partially depleted transistors and decrease the threshold voltage and increase the leakage current of fully depleted transistors. Process techniques that reduce the net amount of radiation-induced positive charge trapped in the buried oxide and device design techniques that mitigate the effects of trapped charge in the buried oxide have been developed to harden SOI devices to bulk-silicon device levels. The sensitive volume for charge collection in SOI technologies is much smaller than for bulk-silicon devices potentially making SOI devices much harder to single-event upset (SEU). However, bipolar amplification caused by floating body effects can significantly reduce the SEU hardness of SOI devices. Body ties are used to reduce floating body effects and improve SEU hardness. SOI ICs are completely immune to classic four-layer p-n-p-n single-event latchup; however, floating body effects make SOI ICs susceptible to single-event snapback (single transistor latch). The sensitive volume for dose rate effects is typically two orders of magnitude lower for SOI devices than for bulk-silicon devices. By using body ties to reduce bipolar amplification, much higher dose rate upset levels can be achieved for SOI devices than for bulk-silicon devices." @default.
W2116275715 created "2016-06-24" @default.
W2116275715 creator A5010472455 @default.
W2116275715 creator A5011631892 @default.
W2116275715 creator A5012951397 @default.
W2116275715 creator A5053646900 @default.
W2116275715 creator A5058365097 @default.
W2116275715 date "2003-06-01" @default.
W2116275715 modified "2023-09-30" @default.
W2116275715 title "Radiation effects in SOI technologies" @default.
W2116275715 cites W1528549966 @default.
W2116275715 cites W1556929538 @default.
W2116275715 cites W1964069668 @default.
W2116275715 cites W1964421685 @default.
W2116275715 cites W1968298325 @default.
W2116275715 cites W1970614522 @default.
W2116275715 cites W1973671776 @default.
W2116275715 cites W1977543060 @default.
W2116275715 cites W1978167817 @default.
W2116275715 cites W1982222030 @default.
W2116275715 cites W1990339872 @default.
W2116275715 cites W1998008563 @default.
W2116275715 cites W2000092077 @default.
W2116275715 cites W2003185095 @default.
W2116275715 cites W2010324505 @default.
W2116275715 cites W2014495521 @default.
W2116275715 cites W2015545785 @default.
W2116275715 cites W2022752363 @default.
W2116275715 cites W2025191459 @default.
W2116275715 cites W2027477504 @default.
W2116275715 cites W2029234572 @default.
W2116275715 cites W2035202768 @default.
W2116275715 cites W2041755910 @default.
W2116275715 cites W2043246803 @default.
W2116275715 cites W2043439851 @default.
W2116275715 cites W2043483139 @default.
W2116275715 cites W2043724597 @default.
W2116275715 cites W2054503534 @default.
W2116275715 cites W2060594189 @default.
W2116275715 cites W2063590814 @default.
W2116275715 cites W2066218600 @default.
W2116275715 cites W2081149315 @default.
W2116275715 cites W2082350687 @default.
W2116275715 cites W2082570117 @default.
W2116275715 cites W2082821306 @default.
W2116275715 cites W2083268674 @default.
W2116275715 cites W2095908314 @default.
W2116275715 cites W2095969016 @default.
W2116275715 cites W2096439130 @default.
W2116275715 cites W2098057709 @default.
W2116275715 cites W2099611082 @default.
W2116275715 cites W2100586811 @default.
W2116275715 cites W2100855482 @default.
W2116275715 cites W2102390307 @default.
W2116275715 cites W2102894065 @default.
W2116275715 cites W2104533132 @default.
W2116275715 cites W2105180128 @default.
W2116275715 cites W2108894926 @default.
W2116275715 cites W2109761953 @default.
W2116275715 cites W2111991265 @default.
W2116275715 cites W2114386695 @default.
W2116275715 cites W2115751730 @default.
W2116275715 cites W2117909627 @default.
W2116275715 cites W2118913894 @default.
W2116275715 cites W2119143252 @default.
W2116275715 cites W2120806756 @default.
W2116275715 cites W2122322008 @default.
W2116275715 cites W2123422372 @default.
W2116275715 cites W2124708900 @default.
W2116275715 cites W2125674773 @default.
W2116275715 cites W2130426981 @default.
W2116275715 cites W2134718348 @default.
W2116275715 cites W2134803734 @default.
W2116275715 cites W2138813491 @default.
W2116275715 cites W2140898368 @default.
W2116275715 cites W2142191240 @default.
W2116275715 cites W2142900883 @default.
W2116275715 cites W2146817148 @default.
W2116275715 cites W2148368172 @default.
W2116275715 cites W2149540524 @default.
W2116275715 cites W2151017630 @default.
W2116275715 cites W2152009050 @default.
W2116275715 cites W2156900949 @default.
W2116275715 cites W2160709239 @default.
W2116275715 cites W2161251808 @default.
W2116275715 cites W2161890495 @default.
W2116275715 cites W2165524590 @default.
W2116275715 cites W2167574882 @default.
W2116275715 cites W2169278899 @default.
W2116275715 cites W2171507225 @default.
W2116275715 cites W2322247829 @default.
W2116275715 cites W2330658775 @default.
W2116275715 doi "https://doi.org/10.1109/tns.2003.812930" @default.
W2116275715 hasPublicationYear "2003" @default.
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