http://arxiv.org/abs/2205.13786
The surface of Mars is bombarded by energetic charged particles of solar and galactic origin with little shielding offered by a thin atmosphere and lack of a global magnetic field. As space agencies around the globe are planning for crewed missions to the planet, one has to account for a number of factors, a major one being the impact of ionizing radiation on astronaut health. Keeping optimal exposure below acceptable radiation dose levels is crucial for good health and survival of the crew. In this study, our goal is to understand the radiation environment of Mars and describe the main strategies to be adopted to protect astronauts from the harmful impacts of cosmic radiation. Specifically, we investigate the shielding properties of various materials in the Martian radiation field (Solar Energetic Particles and Galactic Cosmic Rays) using the GEANT4 numerical model. Our results indicate that H-rich materials show a similar response against cosmic rays and are the best shields, whereas regolith has an intermediate behavior and therefore could be used as an additional option, considering its practicability. Additionally, we show that although aluminum is not as effective as other materials, it could nonetheless be helpful when combined with other materials.
D. Gakis and D. Atri
Mon, 30 May 22
23/47
Comments: Submitted
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