Electron density estimations derived from spacecraft potential measurements on Cluster in tenuous plasma regions

Spacecraft potential measurements by the EFW electric field experiment on the Cluster satellites can be used to obtain plasma density estimates in regions barely accessible to other type of plasma experiments. Direct calibrations of the plasma density as a function of the measured potential differen...

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Bibliographic Details
Published in:Journal of Geophysical Research 2008-07, Vol.113 (A7), p.7-n/a
Main Authors: Pedersen, A., Lybekk, B., André, M., Eriksson, A., Masson, A., Mozer, F. S., Lindqvist, P.-A., Décréau, P. M. E., Dandouras, I., Sauvaud, J.-A., Fazakerley, A., Taylor, M., Paschmann, G., Svenes, K. R., Torkar, K., Whipple, E.
Format: Article
Language:English
Subjects:
charging
Earth Sciences
earths magnetosphere
field measurements
Fysik
Geophysics
instruments and techniques
magnetospheric physics
magnetotail
mission
NATURAL SCIENCES
NATURVETENSKAP
peace
Physics
probe
Sciences of the Universe
Space Physics
spacecraft sheaths
wakes
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Summary:Spacecraft potential measurements by the EFW electric field experiment on the Cluster satellites can be used to obtain plasma density estimates in regions barely accessible to other type of plasma experiments. Direct calibrations of the plasma density as a function of the measured potential difference between the spacecraft and the probes can be carried out in the solar wind, the magnetosheath, and the plasmashere by the use of CIS ion density and WHISPER electron density measurements. The spacecraft photoelectron characteristic (photoelectrons escaping to the plasma in current balance with collected ambient electrons) can be calculated from knowledge of the electron current to the spacecraft based on plasma density and electron temperature data from the above mentioned experiments and can be extended to more positive spacecraft potentials by CIS ion and the PEACE electron experiments in the plasma sheet. This characteristic enables determination of the electron density as a function of spacecraft potential over the polar caps and in the lobes of the magnetosphere, regions where other experiments on Cluster have intrinsic limitations. Data from 2001 to 2006 reveal that the photoelectron characteristics of the Cluster spacecraft as well as the electric field probes vary with the solar cycle and solar activity. The consequences for plasma density measurements are addressed. Typical examples are presented to demonstrate the use of this technique in a polar cap/lobe plasma.
ISSN:0148-0227
2169-9380
2156-2202
2156-2202
2169-9402
DOI:10.1029/2007JA012636