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- Title
Cassini‐Plasma Interaction Simulations Revealing the Cassini Ion Wake Characteristics: Implications for In‐Situ Data Analyses and Ion Temperature Estimates.
- Authors
Holmberg, M. K. G.; Cipriani, F.; Nilsson, T.; Hess, S.; Huybrighs, H. L. F.; Hadid, L. Z.; Déprez, G.; Wilson, R. J.; Morooka, M. W.; Felici, M.
- Abstract
We have used Spacecraft Plasma Interaction Software (SPIS) simulations to study the characteristics (i.e., dimensions, ion depletion, and evolution with the changing spacecraft attitude) of the Cassini ion wake. We focus on two regions, the plasma disk at 4.5–4.7 RS, where the most prominent wake structure will be formed, and at 7.6 RS, close to the maximum distance at which a wake structure can be detected in the Cassini Langmuir probe (LP) data. This study also reveals how the ion wake and the spacecraft plasma interaction have impacted the Cassini LP measurements in the studied environments, for example, with a strong decrease in the measured ion density but with minor interference from the photoelectrons and secondary electrons originating from the spacecraft. The simulated ion densities and spacecraft potentials are in very good agreement with the LP measurements. This shows that SPIS is an excellent tool to use for analyses of LP data, when spacecraft material properties and environmental parameters are known and used correctly. The simulation results are also used to put constraints on the ion temperature estimates in the inner magnetosphere of Saturn. The best agreement between the simulated and measured ion density is obtained using an ion temperature of 8 eV at ∼4.6 RS. This study also shows that SPIS simulations can be used in order to better constrain plasma parameters in regions where accurate measurements are not available. Key Points: The Cassini ion wake is characterized and it is demonstrated that the ion wake can have a substantial impact on the Cassini LP measurementsOur study indicates that earlier estimates of the ion temperature in the inner magnetosphere of Saturn are overestimatedThe software SPIS provides accurate simulation results for typical magnetospheric conditions
- Subjects
PLASMA interactions; CASSINI (Spacecraft); LANGMUIR probes; PHOTOELECTRONS; ELECTRONS
- Publication
Journal of Geophysical Research. Space Physics, 2021, Vol 126, Issue 8, p1
- ISSN
2169-9380
- Publication type
Article
- DOI
10.1029/2020JA029026