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1 CETP - Centre d-étude des environnements terrestre et planétaires 2 LPCE - Laboratoire de physique et chimie de l-environnement 3 Mathematical Dept. 4 IWF - Space Research Institute of Austrian Academy of Sciences 5 IKI - Space Research Institute of the Russian Academy of Sciences 6 Space Research Centre 7 N. Copernicus Astronomical Centre

Abstract : The Interball-2 spacecraft travels at altitudes extending up to 20 000 km, and becomes positively charged due to the low-plasma densities encountered and the photoemission on its sunlit surface. Therefore, a knowledge of the spacecraft potential Fs is required for correcting accurately thermal ion measurements on Interball-2. The determination of Fs is based on the balance of currents between escaping photoelectrons and incoming plasma electrons. A three-dimensional model of the potential structure surrounding Interball-2, including a realistic geometry and neglecting the space-charge densities, is used to find, through particle simulations, current-voltage relations of impacting plasma electrons Ie Fs and escaping photoelectrons Iph Fs . The inferred relations are compared to analytic relationships in order to quantify the effects of the spacecraft geometry, the ambient magnetic field B0 and the electron temperature Te . We found that the complex geometry has a weak effect on the inferred currents, while the presence of B0 tends to decrease their values. Providing that the photoemission saturation current density Jph0 is known, a relation between Fs and the plasma density Ne can be derived by using the current balance. Since Jph0 is critical to this process, simultaneous measurements of Ne from Z-mode observations in the plasmapause, and data on the potential difference Fs - Fp between the spacecraft and an electric probe p are used in order to reverse the process. A value Jph0 ~ = 32 µAm-2 is estimated, close to laboratory tests, but less than typical measurements in space. Using this value, Ne and Fs can be derived systematically from electric field measurements without any additional calculation. These values are needed for correcting the distributions of low-energy ions measured by the Hyperboloid experiment on Interball-2. The effects of the potential structure on ion trajectories reaching Hyperboloid are discussed quantitatively in a companion paper.





Autor: M. Bouhram - N. Dubouloz - M. Hamelin - S. A. Grigoriev - M. Malingre - K. Torkar - M. V. Veselov - Y. Galperin - J. Hanasz - S.

Fuente: https://hal.archives-ouvertes.fr/



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