Add to ORKGIn this paper, we report a novel reliability issue, coined single-event-induced barrier lowering (SEBL), which deals with barrier lowering along the channel and the source-substrate junction during a single event high energy particle strike on MOS devices. We have comprehensively studied SEBL for different channel lengths and our results suggest that it can cause significant charge enhancement, and therefore can bring down the critical energy to low values. Thus SEBL can be a strong deterrent to further reduction of the stored charge on a node and can have serious scaling implications.© IEE
International audienceDesigning integrated circuits in radiation environments such as the High Lumin...
CMOS scaling has a beneficial impact on the radiation hardness of the technologies and often only re...
As the development of a technology, semiconductor needs to be smaller and more advance. According to...
Radiation from terrestrial and space environments is a great danger to integrated circuits (ICs). A ...
The effect of technology scaling $(0.5-0.09\mu{m})$ on single event upset (SEU) phenomena is investi...
A systematic evaluation of the single-event-upset (SEU) reliability of the advanced technologies-hig...
Eight commercially available n-channel power MOSFETs were exposed to high energy spallation neutrons...
Static random access memory cells (SRAM) are high-speed semiconductor memory that uses flip-flop to...
Power MOSFETs are more and more used in atmospheric and space applications. Thus, it is essential to...
A radiation strike on semiconductor device may lead to charge collection, which may manifest as a wr...
The characteristics Of ion-induced charge collection and single-event upset are studied in SOI trans...
Microelectronic devices and systems have been extensively utilized in a variety of radiation environ...
International audiencePower MOSFETs are more and more used in atmospheric and space applications. Th...
Heavy ion-induced single-event burnout (SEB) is investigated in high-voltage silicon carbide power M...
We have investigated the radiation effect on MOSFET performances due to the incidence of a few ions ...
International audienceDesigning integrated circuits in radiation environments such as the High Lumin...
CMOS scaling has a beneficial impact on the radiation hardness of the technologies and often only re...
As the development of a technology, semiconductor needs to be smaller and more advance. According to...
Radiation from terrestrial and space environments is a great danger to integrated circuits (ICs). A ...
The effect of technology scaling $(0.5-0.09\mu{m})$ on single event upset (SEU) phenomena is investi...
A systematic evaluation of the single-event-upset (SEU) reliability of the advanced technologies-hig...
Eight commercially available n-channel power MOSFETs were exposed to high energy spallation neutrons...
Static random access memory cells (SRAM) are high-speed semiconductor memory that uses flip-flop to...
Power MOSFETs are more and more used in atmospheric and space applications. Thus, it is essential to...
A radiation strike on semiconductor device may lead to charge collection, which may manifest as a wr...
The characteristics Of ion-induced charge collection and single-event upset are studied in SOI trans...
Microelectronic devices and systems have been extensively utilized in a variety of radiation environ...
International audiencePower MOSFETs are more and more used in atmospheric and space applications. Th...
Heavy ion-induced single-event burnout (SEB) is investigated in high-voltage silicon carbide power M...
We have investigated the radiation effect on MOSFET performances due to the incidence of a few ions ...
International audienceDesigning integrated circuits in radiation environments such as the High Lumin...
CMOS scaling has a beneficial impact on the radiation hardness of the technologies and often only re...
As the development of a technology, semiconductor needs to be smaller and more advance. According to...