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Cometary ion drift energy and temperature at comet 67P/Churyumov–Gerasimeko

Authors :
Williamson, Hayley N.
Johansson, Annie
Canu Blot, Romain
Stenberg Wieser, Gabriella
Nilsson, Hans
Johansson, Fredrik L.
Möslinger, Anja
Williamson, Hayley N.
Johansson, Annie
Canu Blot, Romain
Stenberg Wieser, Gabriella
Nilsson, Hans
Johansson, Fredrik L.
Möslinger, Anja
Publication Year :
2024

Abstract

The Ion Composition Analyzer (ICA) on the Rosetta spacecraft observed both the solar wind and the cometary ionosphere around comet 67P/Churyumov–Gerasimenko for nearly two years. However, observations of low energy cometary ions were affected by a highly negative spacecraft potential, and the ICA ion density estimates were often much lower than plasma densities found by other instruments. Since the low energy cometary ions are often the highest density population in the plasma environment, it is nonetheless desirable to understand their properties. To do so, we select ICA data with densities comparable to those of Rosetta’s Langmuir Probe (LAP)/Mutual Impedance Probe (MIP) throughout the mission. We then correct the cometary ion energy distribution of each energy-angle scan for spacecraft potential and fit a drifting Maxwell–Boltzmann distribution, which gives an estimate of the drift energy and temperature for 3521 scans. The resulting drift energy is generally between 11–18 eV and the temperature between 0.5–1 eV. The drift energy shows good agreement with published ion flow speeds from LAP/MIP during the same time period and is much higher than the cometary neutral speed. We see additional higher energy cometary ions in the spectra closest to perihelion that would be well described by a second Maxwellian-like distribution. The energy and temperature are negatively correlated with heliocentric distance, with a stronger dependence on heliocentric distance for temperature. It cannot be quantitatively determined whether this trend is primarily due to heliocentric distance or spacecraft distance to the comet, which increased with decreasing heliocentric distance.

Details

Database :
OAIster
Notes :
application/pdf, English
Publication Type :
Electronic Resource
Accession number :
edsoai.on1457592062
Document Type :
Electronic Resource
Full Text :
https://doi.org/10.1093.mnras.stae1883