Undergraduate Honors Thesis
Solar Proton Flux Modeling using the Psyche-16 Neutron Spectrometer Public Deposited
- Abstract
Solar Proton Events (SPEs), triggered by solar eruptions such as flares or coronal mass ejections, play a significant role in space weather dynamics. Understanding the propagation of Solar Energetic Particle (SEP) flux beyond Earth’s magnetosphere is crucial for comprehending solar activity in the inner solar system. This thesis focuses on modeling solar proton flux using data from the Psyche-16 Neutron Spectrometer, originally designed for elemental composition analysis of the metal-rich Psyche-16 asteroid. Leveraging this instrument offers a unique opportunity to monitor SEP events beyond Earth’s orbit. This project integrates theoretical frameworks, computational models, and data from spacecraft missions like the Geostationary Operational Environmental Satellites (GOES) to analyze SEP propagation dynamics. By bridging the gap in monitoring SEP flux beyond Earth’s magnetosphere, this study contributes to advancing our understanding of space weather and its impacts on space missions and technology.
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- Date Awarded
- 2024-04-03
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- Last Modified
- 2024-04-11
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Solar_Proton_Flux_Modeling_with_the_Psyche_16_Neutron_Spectrometer.pdf | 2024-04-11 | Public | Download |