Calculating Spacecraft Single Event Environments with FLUKA: Investigating the Effects of Spacecraft Material Atomic Number on Secondary Particle Showers, Nuclear Reactions, and Linear Energy Transfer (LET) Spectra, Internal to Spacecraft Avionics Materials, at High Shielding Mass

Calculating Spacecraft Single Event Environments with FLUKA: Investigating the Effects of Spacecraft Material Atomic Number on Secondary Particle Showers, Nuclear Reactions, and Linear Energy Transfer (LET) Spectra, Internal to Spacecraft Avionics Materials, at High Shielding Mass

The contribution, to spacecraft avionics single event effect (SEE), nuclear reaction (NR), and total ionizing dose (TID) environments, of space radiation induced nuclear reactions and secondary particle showers in spacecraft materials is explored using the FLUKA Monte Carlo energetic particle transp...

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Bibliographische Detailangaben
Hauptverfasser: Koontz, Steve, Reddell, Brandon, Boeder, Paul
Format: Tagungsbericht
Sprache:eng
Schlagworte:
Aerospace materials
Aircraft manufacture
Detectors
Lead
Metallization
Silicon
Space vehicles
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Beschreibung
Zusammenfassung:The contribution, to spacecraft avionics single event effect (SEE), nuclear reaction (NR), and total ionizing dose (TID) environments, of space radiation induced nuclear reactions and secondary particle showers in spacecraft materials is explored using the FLUKA Monte Carlo energetic particle transport code. Estimates of spacecraft single event upset rates produced using FLUKA based methods are compared to flight data. The elemental composition of avionics devices is shown to affect device SEE, NR, and TID environments as does the composition of the spacecraft structural shielding mass.
ISSN:2154-0519
2154-0535
DOI:10.1109/REDW.2010.6062528