Microdosimetry code simulation of charge-deposition spectra, single-event upsets and multiple-bit upsets

Microdosimetry code simulation of charge-deposition spectra, single-event upsets and multiple-bit upsets

An ion microdosimetry extension to the Monte Carlo High Energy Transport Code (HETC) has been developed to allow tracking of all the reaction products and has been applied to model charge-deposition spectra in pin diodes caused by atmospheric neutron spectra, as well as upsets in DRAMs from ground a...

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Veröffentlicht in:IEEE transactions on nuclear science 1999-12, Vol.46 (6), p.1486-1493
Hauptverfasser: Dyer, C.S., Comber, C., Truscott, P.R., Sanderson, C., Underwood, C., Oldfield, M., Campbell, A., Buchner, S., Meehan, T.
Format: Artikel
Sprache:eng
Schlagworte:
Aerospace electronics
Computer simulation
Energy (nuclear)
ENERGY LOSSES
FAILURES
INSTRUMENTATION
JUNCTION DIODES
Laboratories
MICRODOSIMETRY
MONTE CARLO METHOD
Monte Carlo methods
Neutron spectra
Neutrons
PHYSICAL RADIATION EFFECTS
PIN diodes
PROTONS
Radiation effects
Random access memory
Reaction products
SEMICONDUCTOR STORAGE DEVICES
Single event upset
Space charge
Space technology
Spectra
Testing
Tracking
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Beschreibung
Zusammenfassung:An ion microdosimetry extension to the Monte Carlo High Energy Transport Code (HETC) has been developed to allow tracking of all the reaction products and has been applied to model charge-deposition spectra in pin diodes caused by atmospheric neutron spectra, as well as upsets in DRAMs from ground and space irradiation by protons. These cases cover sensitive zone sizes ranging from hundreds of microns to sub-micron. Angular distributions of both incident particles and reaction products are found to be important, particularly for the prediction of multiple-bit upsets in devices of small feature size.
ISSN:0018-9499
1558-1578
DOI:10.1109/23.819112