Solar Energetic Particle Events with Extremely High 3He Content Observed by Solar Orbiter

Solar Energetic Particle Events with Extremely High 3He Content Observed by Solar Orbiter

We performed a survey of ^3 He-rich events using observations from the Suprathermal Ion Spectrograph on the Solar Orbiter mission from 2020 to 2024. We identified 57 ^3 He-rich events, each showing clear ^3 He enhancements above the background and ^3 He/ ^4 He abundance ratios greater than 1 in at l...

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Bibliographic Details
Main Authors: A. Kouloumvakos, G. M. Mason, G. C. Ho, R. C. Allen, J. Rodriguez-Pacheco, R. F. Wimmer-Schweingruber
Format: Article
Language:English
Published: IOP Publishing 2025-01-01
Series:The Astrophysical Journal
Subjects:
Solar physics
Solar particle emission
Solar abundances
Online Access:https://doi.org/10.3847/1538-4357/adbae7
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Summary:We performed a survey of ^3 He-rich events using observations from the Suprathermal Ion Spectrograph on the Solar Orbiter mission from 2020 to 2024. We identified 57 ^3 He-rich events, each showing clear ^3 He enhancements above the background and ^3 He/ ^4 He abundance ratios greater than 1 in at least one energy channel in the range from 193.2 keV nucleon ^−1 to 8.74 MeV nucleon ^−1 . The analysis of the events’ abundance ratios shows characteristics of impulsive solar energetic particle events with ^3 He/ ^4 He ∼ 3.1 and Fe/O ∼ 1.3. We observe an energy dependence in the ^3 He/ ^4 He ratio, which increases with energy, while the Fe/O ratios are almost constant with energy. We also found that six events in our list have extremely high ^3 He content (e.g., ^3 He/C–Fe ratios in the range 25–62). These events show curved ^3 He and heavy nuclei spectra that roll over at higher energies and flatten toward low energy. Their spectral forms can be reasonably fit with simple exponentials with a ^3 He rollover energy in the range of a few hundred keV per nucleon and a C–Fe rollover energy ∼2–3 times lower. The differences in spectral rollover energy lead to a strong energy dependence of the ratio ^3 He/C–Fe, rising sharply with energy. We conclude that the features of these events with extremely high ^3 He content have a reasonable likelihood of depicting the initial acceleration process, which is driven by magnetic reconnection in flaring loops near the solar surface.
ISSN:1538-4357

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