Contributions of Primary Particles to Observed LET for the CRaTER Instrument on LRO

Porter, Jared M.; Townsend, Lawrence W.; Spence, H. E.; Golightly, M. J.; Schwadron, N. A.; Kasper, J. C.; Case, A. W.; Blake, J. B.; Mazur, J. E.; Zeitlin, C.

doi:10.2514/6.2013-3404

43rd International Conference on Environmental Systems 2013

DOI: 10.2514/6.2013-3404

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Contributions of Primary Particles to Observed LET for the CRaTER Instrument on LRO

Jared M. Porter

Lawrence W. Townsend

H. E. Spence

et al.

Abstract: The Cosmic Ray Telescope for the Effects of Radiation (CRATER) is an instrument on the LunarReconnaissance Orbiter (LRO) spacecraft in orbit around the Moon. CRaTER directly measures the energy depositions by space radiation in each of its six silicon wafer detectors as ionizing particles travel through them. These energy depositions are converted to linear energy transfer (LET). High LET particles are of particular importance because of their potential to cause significant biological damage to human tissue as… Show more

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Relative contributions of galactic cosmic rays and lunar proton “albedo” to dose and dose rates near the Moon

et al. 2013

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[1] We use validated radiation transport models of the Cosmic Ray Telescope for the Effects of Radiation instrument and its response to both primary galactic cosmic rays (GCR) and secondary radiation, including lunar protons released through nuclear evaporation, to estimate their relative contributions to total dose rate in silicon (372 μGy/d) and dose equivalent rate at the skin (2.88 mSv/d). Near the Moon, we show that GCR accounts for~91.4% of the total absorbed dose, with GCR protons accounting for~42.8%, GCR alpha particles for~18.5%, and GCR heavy ions for~30.1%. The remaining~8.6% of the dose at Lunar Reconnaissance Orbiter altitudes (~50 km) arises from secondary lunar species, primarily "albedo" protons (3.1%) and electrons (2.2%). Other lunar nuclear evaporation species contributing to the dose rate are positrons (1.5%), gammas (1.1%), and neutrons (0.7%). Relative contributions of these same species to the total dose equivalent rate in skin, a quantity of more direct biological relevance, favor those with comparatively high quality factors. Consequently, the primary GCR heavy ion components dominate the estimated effective skin dose. Finally, we note that when considering the lunar radiation environment, although the Moon blocks approximately half of the sky, thus essentially halving the absorbed dose rate near the Moon relative to deep space, the secondary radiation created by the presence of the Moon adds back a small, but measurable, absorbed dose (~8%) that can and should be now accounted for quantitatively in radiation risk assessments at the Moon and other similar exploration targets.

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Relative contributions of galactic cosmic rays and lunar proton “albedo” to dose and dose rates near the Moon

et al. 2013

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Contributions of Primary Particles to Observed LET for the CRaTER Instrument on LRO

Cited by 1 publication

References 19 publications

Relative contributions of galactic cosmic rays and lunar proton “albedo” to dose and dose rates near the Moon

Relative contributions of galactic cosmic rays and lunar proton “albedo” to dose and dose rates near the Moon

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