ANGEO

Annales Geophysicae

ANGEO

Ann. Geophys.

1432-0576

Springer Verlag

Göttingen, Germany

10.1007/s00585-998-1086-6

An experiment to study and control the Langmuir sheath around INTERBALL-2

Torkar

¹ Veselov

M. V.

² Afonin

V. V.

² Arends

³ Fehringer

⁴ Fremuth

¹ Fritzenwallner

¹ Galperin

Y. I.

² Kozlov

A. I.

⁵ Pedersen

⁶ ¹⁰ Perraut

⁷ Riedler

¹ Rüdenauer

⁴ Schmidt

³ Smit

³ Valavanoglou

⁸ Zinin

L. V.

⁹

SpaceResearch Institute, Austrian Academy of Sciences, Inffeldgasse 12, A-8010 Graz, Austria E-mail: torkar@fiwf01.tu-graz.ac.at

Space Research Institute, Russian Academy of Sciences, Moscow, Russia

Space Science Division, ESA/ESTEC, NL-2200 AG Noordwijk, The Netherlands

Austrian Research Centre Seibersdorf, A-2444 Seibersdorf, Austria

NPO KVANT, Moscow, Russia

Space Science Division, ESA/ESTEC, NL-2200 AG Noordwijk, The Netherlands

CETP/IPSL, Orleans, France

Department of Communications and Wave Propagation, Technical University Graz, Graz, Austria

Kaliningrad State University, Kaliningrad, Russia

Present address: Department of Physics, University of Oslo, Oslo, Norway

30 09 1998

16 9 1086 1096

1998

This article is available from https://angeo.copernicus.org/articles/16/1086/1998/angeo-16-1086-1998.html

The full text article is available as a PDF file from https://angeo.copernicus.org/articles/16/1086/1998/angeo-16-1086-1998.pdf

The satellite INTERBALL-2 has an orbit with high inclination (62.8°), covering the altitude range between a few hundred and about 20000 km. The ambient plasma conditions along this orbit are highly variable, and the interactions of this plasma with the spacecraft body as well as the photo-electron sheath around it are considered to be interesting topics for detailed studies. The electric potential of the spacecraft with respect to the ambient plasma that develops as a result of the current equilibrium reacts sensitively to variations of the boundary conditions. The measurement and eventual control of this potential is a prerequisite for accurate measurements of the thermal plasma. We describe the purpose and technical implementation of an ion emitter instrument on-board INTERBALL-2 utilising ion beams at energies of several thousand electron volts in order to reduce and stabilise the positive spacecraft potential. First results of the active ion beam experiments, and other measures taken on INTERBALL-2 to reduce charging are presented. Furthermore, the approach and initial steps of modelling efforts of the sheath in the vicinity of the INTERBALL-2 spacecraft are described together with some estimates on the resulting spacecraft potential, and effects on thermal ion measurements. It is concluded that even moderate spacecraft potentials as are commonly observed on-board INTERBALL-2 can significantly distort the measurements of ion distribution functions, especially in the presence of strongly anisotropic distributions. Key words. Space plasma physics (active perturbation experiments; spacecraft sheaths · wakes · charging; instruments and techniques).