Maximum Energies of Trapped Particles Around Magnetized Planets and Small Bodies

Oran, Rona; Weiss, Benjamin P.; De Soria Santacruz‐Pich, Maria; Jun, Insoo; Lawrence, David J.; Polanskey, Carol A.; Ratliff, J. Martin; Raymond, Carol A.; Ream, Jodie B.; Russell, Christopher T.; SHPRITS, YURI; Zuber, Maria T.; Elkins‐Tanton, Linda T.

doi:10.1029/2021GL097014

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Maximum Energies of Trapped Particles Around Magnetized Planets and Small Bodies

Oran, R., Weiss, B. P., De Soria Santacruz‐Pich, M., Jun, I., Lawrence, D. J., Polanskey, C. A., Ratliff, J. M., Raymond, C. A., Ream, J. B., Russell, C. T., SHPRITS, Y., Zuber, M. T., Elkins‐Tanton, L. T. (2022): Maximum Energies of Trapped Particles Around Magnetized Planets and Small Bodies. - Geophysical Research Letters, 49, 13, e2021GL097014.
https://doi.org/10.1029/2021GL097014

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Creators:
Oran, Rona¹, Author
Weiss, Benjamin P.¹, Author
De Soria Santacruz‐Pich, Maria¹, Author
Jun, Insoo¹, Author
Lawrence, David J.¹, Author
Polanskey, Carol A.¹, Author
Ratliff, J. Martin¹, Author
Raymond, Carol A.¹, Author
Ream, Jodie B.¹, Author
Russell, Christopher T.¹, Author
SHPRITS, YURI², Author
Zuber, Maria T.¹, Author
Elkins‐Tanton, Linda T.¹, Author

Affiliations:
1External Organizations, ou_persistent22
22.7 Space Physics and Space Weather, 2.0 Geophysics, Departments, GFZ Publication Database, Deutsches GeoForschungsZentrum, ou_2239888

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Abstract: Energetic charged particles trapped in planetary radiation belts are hazardous to spacecraft. Planned missions to iron-rich asteroids with possible strong remanent magnetic fields require an assessment of trapped particles energies. Using laboratory measurements of iron meteorites, we estimate the largest possible asteroid magnetic moment. Although weak compared to moments of planetary dynamos, the small body size may yield strong surface fields. We use hybrid simulations to confirm the formation of a magnetosphere with an extended quasi-dipolar region. However, the short length scale of the field implies that energetic particle motion would be nonadiabatic, making existing radiation belt theories not applicable. Our idealized particle simulations demonstrate that chaotic motions lead to particle loss at lower energies than those predicted by adiabatic theory, which may explain the energies of transiently trapped particles observed at Mercury, Ganymede, and Earth. However, even the most magnetized asteroids are unlikely to stably trap hazardous particles.

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Language(s): eng - English

Dates: Published Online: 2022-07-12Finally published : 2022

Publication Status: Finally published

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Identifiers: DOI: 10.1029/2021GL097014
GFZPOF: p4 T3 Restless Earth
OATYPE: Hybrid Open Access

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Title: Geophysical Research Letters

Source Genre: Journal, SCI, Scopus, ab 2023 oa

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Pages: - Volume / Issue: 49 (13) Sequence Number: e2021GL097014 Start / End Page: - Identifier: ISSN: 1944-8007
ISSN: 0094-8276
CoNE: https://gfzpublic.gfz-potsdam.de/cone/journals/resource/journals182
Publisher: American Geophysical Union (AGU)
Publisher: Wiley