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The First Gradual Solar Energetic Particle Event With an Enhanced He-3 Abundance on Solar OrbiterThe origin of 3He abundance enhancements in gradual solar energetic particle (SEP) events remains largely unexplained. Two mechanisms have been suggested: the reacceleration of remnant flare material by coronal mass ejection (CME)-driven shocks in interplanetary space, and concomitant activity in the corona. We explore the first gradual SEP event with enhanced 3He abundance that was observed by Solar Orbiter. The event started on 2020 November 24 and was associated with a relatively fast halo CME. During the event, the spacecraft was at 0.9 au from the Sun. The event-averaged 3He/4He abundance ratio is 24 times higher than the coronal or solar wind value, and the timing of the 3He intensity was similar to that of other species. We inspected available imaging, radio observations, and the spacecraft magnetic connection to the CME source. The most probable cause of the enhanced 3He abundance apparently are residual 3He ions remaining from a preceding long period of 3He-rich SEPs on 2020 November 17–23.
Document ID
20230015219
Acquisition Source
Goddard Space Flight Center
Document Type
Reprint (Version printed in journal)
Authors
R Bučík ORCID(Southwest Research Institute San Antonio, United States)
G M Mason ORCID(Johns Hopkins University Applied Physics Laboratory North Laurel, United States)
R Gómez-Herrero ORCID(University of Alcalá Alcalá de Henares, Spain)
V Krupar (University of Maryland, Baltimore County Baltimore, Maryland, United States)
D Lario ORCID(Goddard Space Flight Center Greenbelt, Maryland, United States)
M J Starkey ORCID(Southwest Research Institute San Antonio, Texas, United States)
G C Ho (Johns Hopkins University Applied Physics Laboratory North Laurel, United States)
J Rodríguez-Pacheco ORCID(University of Alcalá Alcalá de Henares, Spain)
R F Wimmer-Schweingruber (Kiel University Kiel, Germany)
F Espinosa Lara ORCID(University of Alcalá Alcalá de Henares, Spain)
T Tadesse (KBR (United States) Houston, Texas, United States)
L Balmaceda (George Mason University Fairfax, Virginia, United States)
C M S Cohen ORCID(California Institute of Technology Pasadena, United States)
M A Dayeh ORCID(Southwest Research Institute San Antonio, United States)
M I Desai ORCID(Southwest Research Institute San Antonio, Texas, United States)
M I Desai (Southwest Research Institute San Antonio, Texas, United States)
P Kühl ORCID(Kiel University Kiel, Germany)
N V Nitta ORCID(Lockheed Martin (United States) Bethesda, United States)
M E Wiedenbeck (Jet Propulsion Lab La Cañada Flintridge, California, United States)
Z G Xu ORCID(Kiel University Kiel, Germany)
Date Acquired
October 20, 2023
Publication Date
December 21, 2022
Publication Information
Publication: Astronomy & Astrophysics
Publisher: EDP Sciences
Volume: 669
Issue Publication Date: January 1, 2023
ISSN: 0004-6361
e-ISSN: 1432-0746
DOI: 10.1051/0004-6361/202245037
Subject Category
Solar Physics
Funding Number(s)
CONTRACT_GRANT: 18-2HSWO2182-0010
CONTRACT_GRANT: 80NSSC21K1316
CONTRACT_GRANT: 80NSSC22K0757
CONTRACT_GRANT: 80NSSC21M0180
CONTRACT_GRANT: 80NM0018D0004
CONTRACT_GRANT: NNN06AA01C
CONTRACT_GRANT: 19-HSR-192-0143
CONTRACT_GRANT: 50OT0901
CONTRACT_GRANT: 50OT1202
CONTRACT_GRANT: 50OT1702
CONTRACT_GRANT: 50OT2002
Distribution Limits
Public
Copyright
Portions of document may include copyright protected material.
Technical Review
Professional Review
Keywords
Solar particle emission
Solar abundances
Solar flares
Coronal mass ejections (CMEs)
Acceleration of particles

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