Mercury’s plasma environment after BepiColombo’s third flyby

Lina Z. Hadid; Dominique Delcourt; Yuki Harada; Mathias Rojo; Sae Aizawa; Yoshifumi Saito; Nicolas André; Austin N. Glass; Jim M. Raines; Shoichiro Yokota; Markus Fränz; Bruno Katra; Christophe Verdeil; Björn Fiethe; Francois Leblanc; Ronan Modolo; Dominique Fontaine; Norbert Krupp; Harald Krüger; Frédéric Leblanc; Henning Fischer; Jean Jacques Berthelier; Jean André Sauvaud; Go Murakami; Shoya Matsuda

doi:10.1038/s42005-024-01766-8

Mercury’s plasma environment after BepiColombo’s third flyby

Lina Z. Hadid
, Dominique Delcourt
, Yuki Harada
, Mathias Rojo
, Sae Aizawa
, Yoshifumi Saito
, Nicolas André
, Austin N. Glass
, Jim M. Raines
, Shoichiro Yokota
, Markus Fränz
, Bruno Katra
, Christophe Verdeil
, Björn Fiethe
, Francois Leblanc
, Ronan Modolo
, Dominique Fontaine
, Norbert Krupp
, Harald Krüger
, Frédéric Leblanc

Henning Fischer, Jean Jacques Berthelier, Jean André Sauvaud, Go Murakami, Shoya Matsuda

Sorbonne Université
conventionnée avec l'Université d'Orléans
Department of Astronomy, Graduate School of Science, Kyoto University
IRAP/CNRS
ISAS/JAXA
University of Pisa
Université Paul Sabatier
University of Michigan
Osaka University
Max-Planck-Institut für Sonnensystemforschung
IDA
CNRS
Kanazawa University

Résultats de recherche: Contribution à un journal › Article › Revue par des pairs

Résumé

Understanding Mercury’s magnetosphere is crucial for advancing our comprehension of how the solar wind interacts with the planetary magnetospheres. Despite previous missions, several gaps remain in our knowledge of Mercury’s plasma environment. Here, we present findings from BepiColombo’s third flyby, offering a synoptic view of the large scale structure and composition of Mercury’s magnetosphere. The Mass Spectrum Analyzer (MSA), Mass Ion Analyzer (MIA), and Mass Electron Analyzer (MEA) on the magnetospheric orbiter reveal insights, including the identification of trapped energetic hydrogen (H⁺) with energies around 20 keV e⁻¹ evidencing a ring current, and a cold ion plasma with energies below 50 eV e⁻¹. Additionally, we observe a Low-Latitude Boundary Layer (LLBL), which is a region of turbulent plasma at the edge of the magnetosphere, characterized by bursty ion enhancements, indicating an ongoing injection process in the duskside magnetosphere flank. These observations during cruise phase provide a tantalizing glimpse of future discoveries expected from the Mercury Plasma Particle Experiment (MPPE) instruments after orbit insertion, promising broader impacts on our understanding of planetary magnetospheres.

langue originale	Anglais
Numéro d'article	316
journal	Communications Physics
Volume	7
Numéro de publication	1
Les DOIs	https://doi.org/10.1038/s42005-024-01766-8
état	Publié - 1 déc. 2024

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Hadid, L. Z., Delcourt, D., Harada, Y., Rojo, M., Aizawa, S., Saito, Y., André, N., Glass, A. N., Raines, J. M., Yokota, S., Fränz, M., Katra, B., Verdeil, C., Fiethe, B., Leblanc, F., Modolo, R., Fontaine, D., Krupp, N., Krüger, H., ... Matsuda, S. (2024). Mercury’s plasma environment after BepiColombo’s third flyby. Communications Physics, 7(1), Article 316. https://doi.org/10.1038/s42005-024-01766-8

@article{e0cf0c7098094f3796982a0ae349bba7,

title = "Mercury{\textquoteright}s plasma environment after BepiColombo{\textquoteright}s third flyby",

abstract = "Understanding Mercury{\textquoteright}s magnetosphere is crucial for advancing our comprehension of how the solar wind interacts with the planetary magnetospheres. Despite previous missions, several gaps remain in our knowledge of Mercury{\textquoteright}s plasma environment. Here, we present findings from BepiColombo{\textquoteright}s third flyby, offering a synoptic view of the large scale structure and composition of Mercury{\textquoteright}s magnetosphere. The Mass Spectrum Analyzer (MSA), Mass Ion Analyzer (MIA), and Mass Electron Analyzer (MEA) on the magnetospheric orbiter reveal insights, including the identification of trapped energetic hydrogen (H+) with energies around 20 keV e−1 evidencing a ring current, and a cold ion plasma with energies below 50 eV e−1. Additionally, we observe a Low-Latitude Boundary Layer (LLBL), which is a region of turbulent plasma at the edge of the magnetosphere, characterized by bursty ion enhancements, indicating an ongoing injection process in the duskside magnetosphere flank. These observations during cruise phase provide a tantalizing glimpse of future discoveries expected from the Mercury Plasma Particle Experiment (MPPE) instruments after orbit insertion, promising broader impacts on our understanding of planetary magnetospheres.",

author = "Hadid, \{Lina Z.\} and Dominique Delcourt and Yuki Harada and Mathias Rojo and Sae Aizawa and Yoshifumi Saito and Nicolas Andr{\'e} and Glass, \{Austin N.\} and Raines, \{Jim M.\} and Shoichiro Yokota and Markus Fr{\"a}nz and Bruno Katra and Christophe Verdeil and Bj{\"o}rn Fiethe and Francois Leblanc and Ronan Modolo and Dominique Fontaine and Norbert Krupp and Harald Kr{\"u}ger and Fr{\'e}d{\'e}ric Leblanc and Henning Fischer and Berthelier, \{Jean Jacques\} and Sauvaud, \{Jean Andr{\'e}\} and Go Murakami and Shoya Matsuda",

note = "Publisher Copyright: {\textcopyright} The Author(s) 2024.",

year = "2024",

month = dec,

day = "1",

doi = "10.1038/s42005-024-01766-8",

language = "English",

volume = "7",

journal = "Communications Physics",

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Hadid, LZ, Delcourt, D, Harada, Y, Rojo, M, Aizawa, S, Saito, Y, André, N, Glass, AN, Raines, JM, Yokota, S, Fränz, M, Katra, B, Verdeil, C, Fiethe, B, Leblanc, F, Modolo, R, Fontaine, D, Krupp, N, Krüger, H, Leblanc, F, Fischer, H, Berthelier, JJ, Sauvaud, JA, Murakami, G & Matsuda, S 2024, 'Mercury’s plasma environment after BepiColombo’s third flyby', Communications Physics, VOL. 7, Numéro 1, 316. https://doi.org/10.1038/s42005-024-01766-8

TY - JOUR

T1 - Mercury’s plasma environment after BepiColombo’s third flyby

AU - Hadid, Lina Z.

AU - Delcourt, Dominique

AU - Harada, Yuki

AU - Rojo, Mathias

AU - Aizawa, Sae

AU - Saito, Yoshifumi

AU - André, Nicolas

AU - Glass, Austin N.

AU - Raines, Jim M.

AU - Yokota, Shoichiro

AU - Fränz, Markus

AU - Katra, Bruno

AU - Verdeil, Christophe

AU - Fiethe, Björn

AU - Leblanc, Francois

AU - Modolo, Ronan

AU - Fontaine, Dominique

AU - Krupp, Norbert

AU - Krüger, Harald

AU - Leblanc, Frédéric

AU - Fischer, Henning

AU - Berthelier, Jean Jacques

AU - Sauvaud, Jean André

AU - Murakami, Go

AU - Matsuda, Shoya

PY - 2024/12/1

Y1 - 2024/12/1

N2 - Understanding Mercury’s magnetosphere is crucial for advancing our comprehension of how the solar wind interacts with the planetary magnetospheres. Despite previous missions, several gaps remain in our knowledge of Mercury’s plasma environment. Here, we present findings from BepiColombo’s third flyby, offering a synoptic view of the large scale structure and composition of Mercury’s magnetosphere. The Mass Spectrum Analyzer (MSA), Mass Ion Analyzer (MIA), and Mass Electron Analyzer (MEA) on the magnetospheric orbiter reveal insights, including the identification of trapped energetic hydrogen (H+) with energies around 20 keV e−1 evidencing a ring current, and a cold ion plasma with energies below 50 eV e−1. Additionally, we observe a Low-Latitude Boundary Layer (LLBL), which is a region of turbulent plasma at the edge of the magnetosphere, characterized by bursty ion enhancements, indicating an ongoing injection process in the duskside magnetosphere flank. These observations during cruise phase provide a tantalizing glimpse of future discoveries expected from the Mercury Plasma Particle Experiment (MPPE) instruments after orbit insertion, promising broader impacts on our understanding of planetary magnetospheres.

AB - Understanding Mercury’s magnetosphere is crucial for advancing our comprehension of how the solar wind interacts with the planetary magnetospheres. Despite previous missions, several gaps remain in our knowledge of Mercury’s plasma environment. Here, we present findings from BepiColombo’s third flyby, offering a synoptic view of the large scale structure and composition of Mercury’s magnetosphere. The Mass Spectrum Analyzer (MSA), Mass Ion Analyzer (MIA), and Mass Electron Analyzer (MEA) on the magnetospheric orbiter reveal insights, including the identification of trapped energetic hydrogen (H+) with energies around 20 keV e−1 evidencing a ring current, and a cold ion plasma with energies below 50 eV e−1. Additionally, we observe a Low-Latitude Boundary Layer (LLBL), which is a region of turbulent plasma at the edge of the magnetosphere, characterized by bursty ion enhancements, indicating an ongoing injection process in the duskside magnetosphere flank. These observations during cruise phase provide a tantalizing glimpse of future discoveries expected from the Mercury Plasma Particle Experiment (MPPE) instruments after orbit insertion, promising broader impacts on our understanding of planetary magnetospheres.

UR - https://www.scopus.com/pages/publications/85205957359

U2 - 10.1038/s42005-024-01766-8

DO - 10.1038/s42005-024-01766-8

M3 - Article

AN - SCOPUS:85205957359

SN - 2399-3650

VL - 7

JO - Communications Physics

JF - Communications Physics

IS - 1

M1 - 316

ER -

Mercury’s plasma environment after BepiColombo’s third flyby

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