Io's Near-Field Alfvén Wings and Local Electron Beams Inferred From Juno/Waves

A. H. Sulaiman; W. S. Kurth; J. E.P. Connerney; S. S. Elliott; G. B. Hospodarsky; N. S. Kruegler; R. L. Lysak; J. D. Menietti; J. R. Szalay; F. Allegrini; S. J. Bolton

doi:10.1029/2024GL110206

Io's Near-Field Alfvén Wings and Local Electron Beams Inferred From Juno/Waves

A. H. Sulaiman, W. S. Kurth, J. E.P. Connerney, S. S. Elliott, G. B. Hospodarsky, N. S. Kruegler, R. L. Lysak, J. D. Menietti, J. R. Szalay, F. Allegrini, S. J. Bolton

Astrophysical Sciences

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

3 Scopus citations

Abstract

Juno conducted two close Io flybys on 30 December 2023 and 03 February 2024, both at a minimum altitude of 1,500 km. Filamentary structures in the electric and magnetic field spectra indicate Juno crossed the Alfvén wing, the magnetic structure connecting Io to Jupiter's polar ionosphere. We show that the first pass took Juno diametrically through the northern Alfvén wing, while the second pass had Juno graze the southern Alfvén wing boundary, enabling extended measurements of the transition region between Io's vicinity and the Jovian magnetosphere. Of note, evidence of local electron beams is inferred from whistler-mode emissions. We demonstrate that their energies are sub-keV, are sourced from Io's ionosphere or local torus, and are part of a distributed current system connecting Io to Jupiter. Finally, upper hybrid resonances indicate electron densities are significantly elevated in Io's polar region (∼28,000 cm⁻³) compared to the local Io torus (∼2,000 cm⁻³).

Original language	English (US)
Article number	e2024GL110206
Journal	Geophysical Research Letters
Volume	51
Issue number	15
DOIs	https://doi.org/10.1029/2024GL110206
State	Published - Aug 16 2024

All Science Journal Classification (ASJC) codes

Geophysics
General Earth and Planetary Sciences

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10.1029/2024GL110206

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@article{eecccef288f04a01865381821d5d49b0,

title = "Io's Near-Field Alfv{\'e}n Wings and Local Electron Beams Inferred From Juno/Waves",

abstract = "Juno conducted two close Io flybys on 30 December 2023 and 03 February 2024, both at a minimum altitude of 1,500 km. Filamentary structures in the electric and magnetic field spectra indicate Juno crossed the Alfv{\'e}n wing, the magnetic structure connecting Io to Jupiter's polar ionosphere. We show that the first pass took Juno diametrically through the northern Alfv{\'e}n wing, while the second pass had Juno graze the southern Alfv{\'e}n wing boundary, enabling extended measurements of the transition region between Io's vicinity and the Jovian magnetosphere. Of note, evidence of local electron beams is inferred from whistler-mode emissions. We demonstrate that their energies are sub-keV, are sourced from Io's ionosphere or local torus, and are part of a distributed current system connecting Io to Jupiter. Finally, upper hybrid resonances indicate electron densities are significantly elevated in Io's polar region (∼28,000 cm−3) compared to the local Io torus (∼2,000 cm−3).",

author = "Sulaiman, {A. H.} and Kurth, {W. S.} and Connerney, {J. E.P.} and Elliott, {S. S.} and Hospodarsky, {G. B.} and Kruegler, {N. S.} and Lysak, {R. L.} and Menietti, {J. D.} and Szalay, {J. R.} and F. Allegrini and Bolton, {S. J.}",

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year = "2024",

month = aug,

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doi = "10.1029/2024GL110206",

language = "English (US)",

volume = "51",

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T1 - Io's Near-Field Alfvén Wings and Local Electron Beams Inferred From Juno/Waves

AU - Sulaiman, A. H.

AU - Kurth, W. S.

AU - Connerney, J. E.P.

AU - Elliott, S. S.

AU - Hospodarsky, G. B.

AU - Kruegler, N. S.

AU - Lysak, R. L.

AU - Menietti, J. D.

AU - Szalay, J. R.

AU - Allegrini, F.

AU - Bolton, S. J.

PY - 2024/8/16

Y1 - 2024/8/16

N2 - Juno conducted two close Io flybys on 30 December 2023 and 03 February 2024, both at a minimum altitude of 1,500 km. Filamentary structures in the electric and magnetic field spectra indicate Juno crossed the Alfvén wing, the magnetic structure connecting Io to Jupiter's polar ionosphere. We show that the first pass took Juno diametrically through the northern Alfvén wing, while the second pass had Juno graze the southern Alfvén wing boundary, enabling extended measurements of the transition region between Io's vicinity and the Jovian magnetosphere. Of note, evidence of local electron beams is inferred from whistler-mode emissions. We demonstrate that their energies are sub-keV, are sourced from Io's ionosphere or local torus, and are part of a distributed current system connecting Io to Jupiter. Finally, upper hybrid resonances indicate electron densities are significantly elevated in Io's polar region (∼28,000 cm−3) compared to the local Io torus (∼2,000 cm−3).

AB - Juno conducted two close Io flybys on 30 December 2023 and 03 February 2024, both at a minimum altitude of 1,500 km. Filamentary structures in the electric and magnetic field spectra indicate Juno crossed the Alfvén wing, the magnetic structure connecting Io to Jupiter's polar ionosphere. We show that the first pass took Juno diametrically through the northern Alfvén wing, while the second pass had Juno graze the southern Alfvén wing boundary, enabling extended measurements of the transition region between Io's vicinity and the Jovian magnetosphere. Of note, evidence of local electron beams is inferred from whistler-mode emissions. We demonstrate that their energies are sub-keV, are sourced from Io's ionosphere or local torus, and are part of a distributed current system connecting Io to Jupiter. Finally, upper hybrid resonances indicate electron densities are significantly elevated in Io's polar region (∼28,000 cm−3) compared to the local Io torus (∼2,000 cm−3).

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ER -

Io's Near-Field Alfvén Wings and Local Electron Beams Inferred From Juno/Waves

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