Dataset
Auroral Ionospheric Erosion at Jupiter
Zenodo
05/2025
DOI: 10.5281/zenodo.14713894
Abstract
Provided here are the data that appear in the figure of the subject paper, which is under review for publication by the American Geophysical Union’s Journal of Geophysical Research: Space Physics.
Abstract
The generation of Jupiter’s main auroral oval is dominated by broadband-energy electron beams, in contrast with the dominance of peaked electron energy spectra at Earth. Wave-particle interactions involving Alfvén waves have been theorized to be the main mechanism driving the broadband acceleration of electrons. Alfvénic interactions are favored in the presence of density depletions and steep density gradients across adjacent magnetic field lines. Here we present electron densities above the diffuse and main auroras inferred from frequency cutoffs in plasma wave spectra measured by the Juno/Waves instrument during the first 62 perijoves. We find that the electron densities above the auroras consistently decrease towards poleward latitudes and can be depleted down to the order of 10-4 cm-3. Moreover, we show that the spatial gradient of the density depletion varies with altitude, and the peak in the density gradient occurs above 1 RJ, suggesting altitudes at which Alfvénic acceleration is most likely. Finally, we find that these auroral density gradients are much steeper than are found in the non-auroral ionosphere, indicating an active cavitation process connected with the aurora likely driven by the action of Alfvén waves.
Key Points
We present electron densities at low altitudes (0.3-2.8 RJ) above Jupiter's aurora that are persistently depleted towards poleward latitudes
Steep spatial gradients of the depletions above 1 RJ suggest a more preferential plasma environment for Alfvenic acceleration
Significantly steeper gradients than in the non-auroral ionosphere indicate ionospheric erosion by Alfven waves connected with the auroras
Details
- Title: Subtitle
- Auroral Ionospheric Erosion at Jupiter
- Creators
- Nicholas Kruegler - University of MinnesotaAli Sulaiman - University of MinnesotaSadie Elliott - University of MinnesotaWilliam Kurth - Unversity of IowaRobert Lysak - University of MinnesotaScott Bolton - Southwest Research Institute
- Resource Type
- Dataset
- DOI
- 10.5281/zenodo.14713894
- Publisher
- Zenodo
- Language
- English
- Date published
- 05/2025
- Academic Unit
- Physics and Astronomy
- Record Identifier
- 9984824302002771
Metrics
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