Nowcasting Solar Energetic Particle Events for Mars Missions

Nowcasting Solar Energetic Particle Events for Mars Missions

Abstract In addition to the omnipresent Galactic Cosmic Rays, sudden Solar Energetic Particle (SEP) events present considerable health hazards for manned space missions. These events not only contribute to an increased long‐term cancer risk, but can, in extreme cases, cause acute radiation syndromes...

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Bibliographic Details
Main Authors: Jan Leo Löwe, Salman Khaksarighiri, Robert F. Wimmer‐Schweingruber, Donald M. Hassler, Bent Ehresmann, Jingnan Guo, Günther Reitz, Thomas Berger, Daniel Matthiä, Cary Zeitlin, Sven Löffler
Format: Article
Language:English
Published: Wiley 2025-04-01
Series:Space Weather
Subjects:
solar energetic particle events
nowcasting
Mars Science Laboratory
Mars mission
forecasting
Radiation Assessment Detector
Online Access:https://doi.org/10.1029/2025SW004372
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Summary:Abstract In addition to the omnipresent Galactic Cosmic Rays, sudden Solar Energetic Particle (SEP) events present considerable health hazards for manned space missions. These events not only contribute to an increased long‐term cancer risk, but can, in extreme cases, cause acute radiation syndromes. Forecasting their imminent occurrence could significantly reduce radiation exposure by warning astronauts to move to shelter. However, all currently available tools are primarily designed for the Earth or Earth‐Moon system, which limits their applicability to future Mars missions. To address this, we developed a nowcasting system for SEP events applicable in deep space and on the Martian surface, which serves as a reliable last‐resort backup when forecasts fail. The methodology of this system is based on dose rates measured by the Radiation Assessment Detector onboard the Mars Science Laboratory, which recorded 5 SEP events during the 7‐month flight to Mars and 17 since its landing on Mars on 6 August 2012. An SEP event is triggered, and an astronaut is warned as soon as dose rates exceed the omnipresent background level by at least 25%. This approach suggests that our system can provide astronauts with at least 30 min to avoid both peak radiation exposure and the majority of the cumulative dose from SEP events. Our nowcasting system is robust, easily implementable in real‐life scenarios, and achieves a near‐zero false alarm rate both in deep space and on the Martian surface.
ISSN:1542-7390

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