DocumentCode
3611864
Title
Radiation-Induced Short Channel (RISCE) and Narrow Channel (RINCE) Effects in 65 and 130 nm MOSFETs
Author
Faccio, F. ; Michelis, S. ; Cornale, D. ; Paccagnella, A. ; Gerardin, S.
Author_Institution
PH Dept., CERN, Geneva, Switzerland
Volume
62
Issue
6
fYear
2015
Firstpage
2933
Lastpage
2940
Abstract
The behavior of transistors in commercial-grade complementary metal-oxide semiconductor technologies in the 65 and 130 nm nodes has been explored up to a total ionizing dose of 1 Grad. The large dose tolerance of the thin gate oxide is confirmed, but defects in the spacer and STI oxides have a strong effect on the performance of the transistors. A radiation-induced short channel effect is traced to charge trapping in the spacers used for drain engineering, while a radiation-induced narrow channel effect is due to defect generation in the lateral isolation oxide (STI). These strongly degrade the electrical characteristics of short and narrow channel transistors at high doses, and their magnitude depends on the applied bias and temperature during irradiation in a complex way.
Keywords
bipolar transistors; ionisation; protons; NPN; PNP; X-rays; bipolar junction transistors; displacement-damage sensitivity; displacement-related degradation; equivalent neutron displacement damage; ionization effects; ionization-related degradation; neutron-induced displacement damage; proton irradiation; protons; CMOS technology; MOSFET; Radiation effects; Transistors; Metal–oxide semiconductor (MOS) transistors; narrow channel effect; radiation-induced narrow channel effect (RINCE); radiation-induced short channel effect (RISCE); short channel effect; total ionizing dose;
fLanguage
English
Journal_Title
Nuclear Science, IEEE Transactions on
Publisher
ieee
ISSN
0018-9499
Type
jour
DOI
10.1109/TNS.2015.2492778
Filename
7348757
Link To Document