Ionospheric Conductances at the Giant Planets of the Solar System: A Comparative Study of Ionization Sources and the Impact of Meteoric Ions - Département de physique
Article Dans Une Revue Journal of Geophysical Research Space Physics Année : 2025

Ionospheric Conductances at the Giant Planets of the Solar System: A Comparative Study of Ionization Sources and the Impact of Meteoric Ions

Yuki Nakamura
Yuxian Wang
Sariah Al Saati

Résumé

The dynamics of giant planet magnetospheres is controlled by a complex interplay between their fast rotation, their interaction with the solar wind, and their diverse internal plasma and momentum sources. In the ionosphere, the Hall and Pedersen conductances are two key parameters that regulate the intensity of currents coupling the magnetosphere and the ionosphere, and the rate of angular momentum transfer and power carried by these currents. We perform a comparative study of Hall and Pedersen conductivities and conductances in the four giant planets of our Solar System -Jupiter, Saturn, Uranus and Neptune. We use a generic ionospheric model (restraining the studied ions to H + 3 , CH + 5 , and meteoric ions) to study the dependence of conductances on the structure and composition of these planets' upper atmospheres and on the main ionization sources (photoionization, ionization by precipitating electrons, and meteoroid ablation). After checking that our model reproduces the conclusions of Nakamura et al. ( 2022), https://doi.org/10.1029/2022ja030312 at Jupiter, that is, the contribution of meteoric ions to the height-integrated conductances is non-negligible, we show that this contribution could also be non-negligible at Saturn, Uranus and Neptune, compared with ionization processes caused by precipitating electrons of energies lower than a few keV (typical energies on these planets). However, because of their weaker magnetic field, the conductive layer of these planets is higher than the layer where meteoric ions are mainly produced, limiting their role in magnetosphere-ionosphere coupling.
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Dates et versions

hal-04884772 , version 1 (13-01-2025)

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Noé Clément, Yuki Nakamura, Michel Blanc, Yuxian Wang, Sariah Al Saati. Ionospheric Conductances at the Giant Planets of the Solar System: A Comparative Study of Ionization Sources and the Impact of Meteoric Ions. Journal of Geophysical Research Space Physics, 2025, 130 (1), pp.e2024JA033061. ⟨10.1029/2024ja033061⟩. ⟨hal-04884772⟩
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