Parallel Electron Beams at Io: Numerical Simulations of the Dense Plasma Wake

Dols, V.; Paterson, W. R.; Bagenal, F.

doi:10.1029/2023ja031763

JGR Space Physics

2024

DOI: 10.1029/2023ja031763

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Parallel Electron Beams at Io: Numerical Simulations of the Dense Plasma Wake

V. Dols,

W. R. Paterson,

F. Bagenal

Abstract: In 1995, the Galileo spacecraft traversed the wake of Io at ∼900 km altitude. The instruments onboard detected intense bi‐directional field‐aligned electron beams (∼140 eV–150 keV), embedded in a dense, cold and slow plasma wake (Nel ∼ 35,000 cm−3, Ti < 10 eV, V < 3 km/s). Similar electron beams were also detected along subsequent Galileo flybys. Using numerical simulations, we show that these electron beams are responsible for the formation of Io's dense plasma wake. We prescribe the composition of Io's… Show more

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On the Implications of Ground‐Based High‐Definition Imaging of Io's Surface

Schmidt

2024

Geophysical Research Letters

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The capability to observe temporal changes on Io's surface at optical wavelengths has recently been demonstrated by Conrad et al. (2024, https://doi.org/10.1029/2024GL108609) using new instrumentation at the Large Binocular Telescope. Monitoring of Io's surface morphology would be impactful since preexisting metrics of the degree, location and composition of Io's plume activities are severely limited. Relationships with external data sets appear especially fruitful. Comparisons with spatially resolved data on gas distributions and thermal hots spots would better characterize composition and chemistry in Io's volcanic plumes. Comparisons with measurements remote from Io are posed to advance our understanding of atmospheric escape and how eruptions connect to transient enhancements at disparate size and time scales in the extended neutral clouds and plasma torus.

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On the Implications of Ground‐Based High‐Definition Imaging of Io's Surface

Schmidt

2024

Geophysical Research Letters

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Parallel Electron Beams at Io: Numerical Simulations of the Dense Plasma Wake

Cited by 1 publication

References 75 publications

On the Implications of Ground‐Based High‐Definition Imaging of Io's Surface

On the Implications of Ground‐Based High‐Definition Imaging of Io's Surface

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