Proton Dominance of Sub-LET Threshold GCR SEE Rate

Proton Dominance of Sub-LET Threshold GCR SEE Rate

We apply a Monte Carlo based integral rectangular parallel-piped (IRRP) approach to evaluate the impact of heavy ion reaction products on the Galactic Cosmic Ray (GCR) Single Event Effect (SEE) rate, concluding that owing to their similar high-energy (>100 MeV/n) SEE cross section and much larger...

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Veröffentlicht in:IEEE transactions on nuclear science 2017-01, Vol.64 (1), p.388-397
Hauptverfasser: Alia, Ruben Garcia, Brugger, Markus, Ferlet-Cavrois, Veronique, Brandenburg, Sytze, Calcutt, Jordan, Cerutti, Francesco, Daly, Eamonn, Ferrari, Alfredo, Muschitiello, Michele, Santin, Giovanni, Uznanski, Slawosz, Van Goethem, Marc-Jan, Zadeh, Ali
Format: Artikel
Sprache:eng
Schlagworte:
Abundance
Cosmic rays
Energy
FLUKA
Galactic cosmic rays
Heavy ions
indirect ionization
Ionization
Monte Carlo methods
MOSFET
nuclear reactions
Protons
radiation hardness assurance
Random access memory
Reaction products
Single Event Effects
single-event burnout (SEB)
single-event latchup (SEL)
single-event upset (SEU)
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Zusammenfassung:We apply a Monte Carlo based integral rectangular parallel-piped (IRRP) approach to evaluate the impact of heavy ion reaction products on the Galactic Cosmic Ray (GCR) Single Event Effect (SEE) rate, concluding that owing to their similar high-energy (>100 MeV/n) SEE cross section and much larger abundance, protons are expected to be the dominating contributor. In addition, a broad set of components, ions and energies is used to explore the sub-LET threshold experimental region for standard ground-level heavy ion test energies, identifying an overall decreasing trend in the 10-80 MeV/n range due to the decreased contribution of complete and break-up fusion, and pointing out the limitations associated to the application of Monte Carlo SEE models in this energy interval.
ISSN:0018-9499
1558-1578
DOI:10.1109/TNS.2016.2628363