Cumulative ionizing effect from solar-terrestrial charged particles and cosmic rays for CubeSats as simulated with GEANT4

Computational results for the cumulative effect of ionizing radiation are presented for CubeSats taking into account the presence of trapped charged particles in the Earth's magnetosphere, protons and heavy ions from the Sun, and the cosmic rays. In contrast to relatively larger satellites, Cub...

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Veröffentlicht in:Current applied physics 2012, 12(6), , pp.1541-1547
Hauptverfasser: Seo, Y.M., Kim, Y.H., Park, S.H., Seon, J.
Format: Artikel
Sprache:eng
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Zusammenfassung:Computational results for the cumulative effect of ionizing radiation are presented for CubeSats taking into account the presence of trapped charged particles in the Earth's magnetosphere, protons and heavy ions from the Sun, and the cosmic rays. In contrast to relatively larger satellites, CubeSats are often launched with minimal shielding structures. Therefore, detailed modeling of a CubeSat is performed based on currently available standard platforms. The geometrical modeling is then used for an estimation of the ionizing doses for various locations within the CubeSat spacecraft operating at low altitudes. The calculation is reiterated and extended for more exotic orbits, such as geostationary Earth orbits and lunar orbits, for the potential application of CubeSats in challenging space missions. ► Computational results for the total ionizing dose is presented for cubeSats. ► The calculation is made with a combination of existing calculation routines. ► The geometrical modeling is used for estimation of the ionizing doses. ► The calculation is reiterated for various mission orbits. ► TID results are expected to be referred to the other following cubeSat missions.
ISSN:1567-1739
1878-1675
DOI:10.1016/j.cap.2012.04.033