| Literature DB >> 28887939 |
Daniel Matthiä1, Donald M Hassler2, Wouter de Wet3, Bent Ehresmann4, Ana Firan5, John Flores-McLaughlin6, Jingnan Guo7, Lawrence H Heilbronn3, Kerry Lee8, Hunter Ratliff3, Ryan R Rios5, Tony C Slaba9, Michael Smith3, Nicholas N Stoffle10, Lawrence W Townsend3, Thomas Berger11, Günther Reitz11, Robert F Wimmer-Schweingruber7, Cary Zeitlin12.
Abstract
The radiation environment at the Martian surface is, apart from occasional solar energetic particle events, dominated by galactic cosmic radiation, secondary particles produced in their interaction with the Martian atmosphere and albedo particles from the Martian regolith. The highly energetic primary cosmic radiation consists mainly of fully ionized nuclei creating a complex radiation field at the Martian surface. This complex field, its formation and its potential health risk posed to astronauts on future manned missions to Mars can only be fully understood using a combination of measurements and model calculations. In this work the outcome of a workshop held in June 2016 in Boulder, CO, USA is presented: experimental results from the Radiation Assessment Detector of the Mars Science Laboratory are compared to model results from GEANT4, HETC-HEDS, HZETRN, MCNP6, and PHITS. Charged and neutral particle spectra and dose rates measured between 15 November 2015 and 15 January 2016 and model results calculated for this time period are investigated.Entities:
Keywords: Galactic cosmic radiation; Mars; Modeling; Particle flux; Radiation exposure
Mesh:
Year: 2017 PMID: 28887939 DOI: 10.1016/j.lssr.2017.06.003
Source DB: PubMed Journal: Life Sci Space Res (Amst) ISSN: 2214-5524