Evidence of an Extended Alfvén Wing System at Enceladus: Cassini's Multi-Instrument Observations

L. Z. Hadid; T. Chust; J. E. Wahlund; M. W. Morooka; E. Roussos; O. Witasse; J. Rabia; D. Pisa; K. Kim; N. J.T. Edberg; A. M. Rymer; L. Lamy; S. Kotsiaros; S. Aizawa; A. Jeandet; R. Modolo; N. André; P. Canu; C. F. Bowers; X. Jia; A. J. Coates; G. H. Jones; A. Parsec-Wallis; O. Agiwal; M. K.G. Holmberg; Q. Nénon; H. Cao; W. S. Kurth; M. K. Dougherty

doi:10.1029/2025JA034657

Evidence of an Extended Alfvén Wing System at Enceladus: Cassini's Multi-Instrument Observations

L. Z. Hadid
, T. Chust
, J. E. Wahlund
, M. W. Morooka
, E. Roussos
, O. Witasse
, J. Rabia
, D. Pisa
, K. Kim
, N. J.T. Edberg
, A. M. Rymer
, L. Lamy
, S. Kotsiaros
, S. Aizawa
, A. Jeandet
, R. Modolo
, N. André
, P. Canu
, C. F. Bowers
, X. Jia

A. J. Coates, G. H. Jones, A. Parsec-Wallis, O. Agiwal, M. K.G. Holmberg, Q. Nénon, H. Cao, W. S. Kurth, M. K. Dougherty

Sorbonne Université
Swedish Institute of Space Physics
Max-Planck-Institut für Sonnensystemforschung
ESTEC - European Space Research and Technology Centre
Centre National d'études Spatiales
Institute of Atmospheric Physics of the Academy of Sciences of the Czech Republic
Uppsala University
Johns Hopkins University Applied Physics Laboratory
LAM
Sorbonne Univ.
ESAC campus
Université de Toulouse
University of Michigan
UCL Mullard Space Science Laboratory
Centre for Planetary Sciences at UCL/Birkbeck
Boston University
Dublin Institute for Advanced Studies
Institute of Geophysics and Planetary Physics, University of California
University of Iowa
Imperial College London

Research output: Contribution to journal › Article › peer-review

Abstract

We report in situ evidence for Enceladus' Alfvén wing system and its coupling with Saturn's ionosphere, based on multi-instrument observations from the Cassini spacecraft. Analysis of 36 events, including 13 from non-flyby paths, confirms the existence of a Main Alfvén Wing (MAW) current system generated at Enceladus, and associated Reflected Alfvén Wings (RAWs) occurring both at Saturn's ionosphere and on the density gradient of Enceladus' plasma torus, extending longitudinally to at least (Formula presented.) ((Formula presented.) 2,000 moon radii) downstream of the moon. Additionally, the observations reveal the systematic existence of a filamentation process of these large-scale Alfvénic perturbations (MAW and RAWs) during their propagation at any distance from their source. These findings demonstrate a more extensive electrodynamic coupling than previously reported for Enceladus and more generally for any moon-magnetosphere interaction. Moreover, the observation of energetic electron depletions and water-group ion signatures at longitudes even further from the moon supports the interpretation of an extended and persistent interaction region. These results highlight Enceladus' role in shaping Saturn's magnetospheric environment and underscore the importance of future missions to exhaustively analyze this type of complex interaction between a moon and a planet.

Original language	English
Article number	e2025JA034657
Journal	Journal of Geophysical Research: Space Physics
Volume	131
Issue number	2
DOIs	https://doi.org/10.1029/2025JA034657
Publication status	Published - 1 Feb 2026

Keywords

AlfvÃ©n-wing
Enceladus
Saturn
electrodynamic coupling
icy moons
outer planets

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10.1029/2025JA034657

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Hadid, L. Z., Chust, T., Wahlund, J. E., Morooka, M. W., Roussos, E., Witasse, O., Rabia, J., Pisa, D., Kim, K., Edberg, N. J. T., Rymer, A. M., Lamy, L., Kotsiaros, S., Aizawa, S., Jeandet, A., Modolo, R., André, N., Canu, P., Bowers, C. F., ... Dougherty, M. K. (2026). Evidence of an Extended Alfvén Wing System at Enceladus: Cassini's Multi-Instrument Observations. Journal of Geophysical Research: Space Physics, 131(2), Article e2025JA034657. https://doi.org/10.1029/2025JA034657

@article{36a326663db241f59333bcbe6828bd48,

title = "Evidence of an Extended Alfv{\'e}n Wing System at Enceladus: Cassini's Multi-Instrument Observations",

abstract = "We report in situ evidence for Enceladus' Alfv{\'e}n wing system and its coupling with Saturn's ionosphere, based on multi-instrument observations from the Cassini spacecraft. Analysis of 36 events, including 13 from non-flyby paths, confirms the existence of a Main Alfv{\'e}n Wing (MAW) current system generated at Enceladus, and associated Reflected Alfv{\'e}n Wings (RAWs) occurring both at Saturn's ionosphere and on the density gradient of Enceladus' plasma torus, extending longitudinally to at least (Formula presented.) ((Formula presented.) 2,000 moon radii) downstream of the moon. Additionally, the observations reveal the systematic existence of a filamentation process of these large-scale Alfv{\'e}nic perturbations (MAW and RAWs) during their propagation at any distance from their source. These findings demonstrate a more extensive electrodynamic coupling than previously reported for Enceladus and more generally for any moon-magnetosphere interaction. Moreover, the observation of energetic electron depletions and water-group ion signatures at longitudes even further from the moon supports the interpretation of an extended and persistent interaction region. These results highlight Enceladus' role in shaping Saturn's magnetospheric environment and underscore the importance of future missions to exhaustively analyze this type of complex interaction between a moon and a planet.",

keywords = "Alfv{\~A}{\textcopyright}n-wing, Enceladus, Saturn, electrodynamic coupling, icy moons, outer planets",

author = "Hadid, \{L. Z.\} and T. Chust and Wahlund, \{J. E.\} and Morooka, \{M. W.\} and E. Roussos and O. Witasse and J. Rabia and D. Pisa and K. Kim and Edberg, \{N. J.T.\} and Rymer, \{A. M.\} and L. Lamy and S. Kotsiaros and S. Aizawa and A. Jeandet and R. Modolo and N. Andr{\'e} and P. Canu and Bowers, \{C. F.\} and X. Jia and Coates, \{A. J.\} and Jones, \{G. H.\} and A. Parsec-Wallis and O. Agiwal and Holmberg, \{M. K.G.\} and Q. N{\'e}non and H. Cao and Kurth, \{W. S.\} and Dougherty, \{M. K.\}",

note = "Publisher Copyright: {\textcopyright} 2026. The Author(s).",

year = "2026",

month = feb,

day = "1",

doi = "10.1029/2025JA034657",

language = "English",

volume = "131",

journal = "Journal of Geophysical Research: Space Physics",

issn = "2169-9402",

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Hadid, LZ, Chust, T, Wahlund, JE, Morooka, MW, Roussos, E, Witasse, O, Rabia, J, Pisa, D, Kim, K, Edberg, NJT, Rymer, AM, Lamy, L, Kotsiaros, S, Aizawa, S, Jeandet, A, Modolo, R, André, N, Canu, P, Bowers, CF, Jia, X, Coates, AJ, Jones, GH, Parsec-Wallis, A, Agiwal, O, Holmberg, MKG, Nénon, Q, Cao, H, Kurth, WS & Dougherty, MK 2026, 'Evidence of an Extended Alfvén Wing System at Enceladus: Cassini's Multi-Instrument Observations', Journal of Geophysical Research: Space Physics, vol. 131, no. 2, e2025JA034657. https://doi.org/10.1029/2025JA034657

TY - JOUR

T1 - Evidence of an Extended Alfvén Wing System at Enceladus

T2 - Cassini's Multi-Instrument Observations

AU - Hadid, L. Z.

AU - Chust, T.

AU - Wahlund, J. E.

AU - Morooka, M. W.

AU - Roussos, E.

AU - Witasse, O.

AU - Rabia, J.

AU - Pisa, D.

AU - Kim, K.

AU - Edberg, N. J.T.

AU - Rymer, A. M.

AU - Lamy, L.

AU - Kotsiaros, S.

AU - Aizawa, S.

AU - Jeandet, A.

AU - Modolo, R.

AU - André, N.

AU - Canu, P.

AU - Bowers, C. F.

AU - Jia, X.

AU - Coates, A. J.

AU - Jones, G. H.

AU - Parsec-Wallis, A.

AU - Agiwal, O.

AU - Holmberg, M. K.G.

AU - Nénon, Q.

AU - Cao, H.

AU - Kurth, W. S.

AU - Dougherty, M. K.

PY - 2026/2/1

Y1 - 2026/2/1

N2 - We report in situ evidence for Enceladus' Alfvén wing system and its coupling with Saturn's ionosphere, based on multi-instrument observations from the Cassini spacecraft. Analysis of 36 events, including 13 from non-flyby paths, confirms the existence of a Main Alfvén Wing (MAW) current system generated at Enceladus, and associated Reflected Alfvén Wings (RAWs) occurring both at Saturn's ionosphere and on the density gradient of Enceladus' plasma torus, extending longitudinally to at least (Formula presented.) ((Formula presented.) 2,000 moon radii) downstream of the moon. Additionally, the observations reveal the systematic existence of a filamentation process of these large-scale Alfvénic perturbations (MAW and RAWs) during their propagation at any distance from their source. These findings demonstrate a more extensive electrodynamic coupling than previously reported for Enceladus and more generally for any moon-magnetosphere interaction. Moreover, the observation of energetic electron depletions and water-group ion signatures at longitudes even further from the moon supports the interpretation of an extended and persistent interaction region. These results highlight Enceladus' role in shaping Saturn's magnetospheric environment and underscore the importance of future missions to exhaustively analyze this type of complex interaction between a moon and a planet.

AB - We report in situ evidence for Enceladus' Alfvén wing system and its coupling with Saturn's ionosphere, based on multi-instrument observations from the Cassini spacecraft. Analysis of 36 events, including 13 from non-flyby paths, confirms the existence of a Main Alfvén Wing (MAW) current system generated at Enceladus, and associated Reflected Alfvén Wings (RAWs) occurring both at Saturn's ionosphere and on the density gradient of Enceladus' plasma torus, extending longitudinally to at least (Formula presented.) ((Formula presented.) 2,000 moon radii) downstream of the moon. Additionally, the observations reveal the systematic existence of a filamentation process of these large-scale Alfvénic perturbations (MAW and RAWs) during their propagation at any distance from their source. These findings demonstrate a more extensive electrodynamic coupling than previously reported for Enceladus and more generally for any moon-magnetosphere interaction. Moreover, the observation of energetic electron depletions and water-group ion signatures at longitudes even further from the moon supports the interpretation of an extended and persistent interaction region. These results highlight Enceladus' role in shaping Saturn's magnetospheric environment and underscore the importance of future missions to exhaustively analyze this type of complex interaction between a moon and a planet.

KW - Enceladus

KW - Saturn

KW - electrodynamic coupling

KW - icy moons

KW - outer planets

UR - https://www.scopus.com/pages/publications/105029626747

U2 - 10.1029/2025JA034657

DO - 10.1029/2025JA034657

M3 - Article

AN - SCOPUS:105029626747

SN - 2169-9402

VL - 131

JO - Journal of Geophysical Research: Space Physics

JF - Journal of Geophysical Research: Space Physics

IS - 2

M1 - e2025JA034657

ER -

Evidence of an Extended Alfvén Wing System at Enceladus: Cassini's Multi-Instrument Observations

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Keywords

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