posted on 2014-04-07, 14:30authored byH. J. Opgenoorth, D. J. Andrews, M. Fraenz, Mark Lester, N. J. T. Edberg, D. Morgan, F. Duru, O. Witasse, A. O. Williams
At planets with induced magnetospheres, the coupling between the ionosphere, the
weak draped magnetosphere, and the solar wind is very direct in comparison to Earth. The
weak induced magnetosphere itself is created by the prevailing Solar wind conditions and
therefore in its shape and strength dynamically depending on it. In early 2010, Mars was
located behind Earth in the Solar wind; thus, we can use coordinated data from multiple
near-Earth spacecraft (Stereo, Wind) to evaluate what kind of Solar wind disturbances have
passed by Earth and might consecutively hit Mars, and when. We employ plasma data from
the ESA Mars-Express mission, the ASPERA-3 particle instrument, and the MARSIS
Active Ionospheric Sounder (AIS) to investigate, for a number of isolated events in March
and April 2010, how the ionosphere and the induced magnetosphere at Mars develop and
decay in response to Solar wind variability in the magnetic field, density, and velocity. In a
dedicated campaign mode, we use frequent long-duration MARSIS AIS operations for
several consecutive orbits, to monitor for the first time the long-term development of the
Martian plasma environment during solar wind disturbances. We find that the
magnetosphere and ionosphere of Mars can become considerably compressed by solar wind
dynamic pressure variations, which usually are also associated with changes in the magnetic
draping of the interplanetary magneticfield around the planet. These are typically associated
with corotating interaction regions and coronal mass ejections, and can last for several days.
During such episodes of compression, we see signatures of increased plasma transport over
the terminator and enhanced ion outflow from the upper atmosphere.
History
Citation
Journal of Geophysical Research: Space Physics, 2013, 118 (10), pp. 6558-6587
Author affiliation
/Organisation/COLLEGE OF SCIENCE AND ENGINEERING/Department of Physics and Astronomy