1. Physics-Based Simulation of the 2013 April 11 SEP Event
- Author
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Liu, Weihao, Sokolov, Igor V., Zhao, Lulu, Gombosi, Tamas I., Chen, Xiaohang, Sachdeva, Nishtha, Tóth, Gábor, Manchester IV, Ward B., Lario, David, Whitman, Kathryn, Bruno, Alessandro, Cohen, Christina M. S., Mays, M. Leila, and Bain, Hazel M. more...
- Subjects
Astrophysics - Solar and Stellar Astrophysics ,Physics - Space Physics - Abstract
Solar energetic particles (SEPs) can pose hazardous radiation risks to both humans in space and spacecraft electronics. Numerical modeling based on first principles offers valuable insights into SEPs, providing synthetic observables for SEPs at any time and location in space. In this work, we present a high-resolution scheme based on integral relations for Poisson brackets to solve the kinetic equation for particle acceleration and transport processes. We implement this scheme within the Space Weather Modeling Framework (SWMF), developed at the University of Michigan, to conduct a comprehensive study of solar energetic protons during the 2013 April 11 SEP event. In addition, a shock capturing tool is developed to study the coronal-mass-ejection-driven shock starting from the low solar corona. Multi-point spacecraft observations, including SOHO/ERNE, SDO/AIA, GOES and ACE at Earth, and STEREO-A/B, are used for model-data comparison and validation. New synthetic observables such as white-light images, shock geometry and properties, as well as SEP intensity-time profiles and spectra provide insights for SEP studies. The influences of the mean free path on SEP intensity-time profiles and spectra are also discussed. The results demonstrate: (1) the successful implementation of the Poisson bracket scheme with a self-consistent particle tracker within the SWMF, (2) the capability of capturing the time-evolving shock surface in the SWMF, and (3) the complexity of the mean free path impacts on SEPs. Overall, this study contributes to both scientific research and operational objectives by advancing our understanding of particle behaviors and showing the readiness for more accurate SEP predictions., Comment: 51 pages, 15 figures, 2 tables more...
- Published
- 2024