Hybrid Active-Passive Galactic Cosmic Ray Simulator: in-silico design and optimization
Abstract
High-energy heavy-ion particle accelerators have long served as a proxy for the harsh space radiation environment, enabling both fundamental life-science research and applied testing of flight components. Typically, monoenergetic high-energy heavy-ion beams are used to mimic the complex mixed radiation field encountered in low Earth orbit and beyond. However, synergistic effects arising from the spatial or temporal proximity of interactions of different radiation qualities in a mixed field cannot be fully assessed with such beams. Therefore, spearheaded by developments at the NASA Space Radiation Laboratory, the GSI Helmholtzzentrum fuer Schwerionenforschung, supported by ESA, has developed advanced space radiation simulation capabilities to support space radiation studies in Europe. Here, we report the design, optimization, and in-silico benchmarking of GSI's hybrid active-passive GCR simulator. Additionally, a computationally optimized phase-space particle source for Geant4 is presented, which will be made available to external users to support their own in-silico studies and experimental planning.