Geospace imaging using Thomson scattering

We evaluate the potential of imaging for the first time, the near-earth space plasma environment seamlessly from the ionosphere through the magnetosphere by remotely sensing Thomson scattering of solar visible light by geospace electrons. Using state of the art first principles models of the magneto...

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Bibliographic Details
Published in:Journal of atmospheric and solar-terrestrial physics 2009, Vol.71 (1), p.132-142
Main Authors: Meier, R.R., Englert, C., Chua, D., Socker, D., Picone, J.M., Carter, T., Huba, J., Slinker, S., Krall, J., Vincent, W.
Format: Article
Language:English
Subjects:
Earth, ocean, space
Exact sciences and technology
External geophysics
Geospace imaging
Ionosphere
Magnetosphere
Physics of the ionosphere
Physics of the magnetosphere
Plasmasphere
Thomson scattering
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Summary:We evaluate the potential of imaging for the first time, the near-earth space plasma environment seamlessly from the ionosphere through the magnetosphere by remotely sensing Thomson scattering of solar visible light by geospace electrons. Using state of the art first principles models of the magnetosphere/ionosphere system, we show that the column emission rates are weak, generally less than 10 Rayleighs, but detectable with currently available instrument technology recently deployed for heliospheric imaging. We demonstrate that distinct features such as the bow shock, magnetosheath and magnetopause are detectable in synthetic images simulated using modified solar coronagraphs and white light imagers, providing that the large background signals are properly quantified. The availability of global geospace images of the electron concentration will enable major advances in our understanding of how Earth's near-space environment responds as a coupled system to changing solar forcings. Such images are expected to play a central role in space weather assessment and forecasting, from which significant capabilities will accrue, much as the imaging of the Earth's surface and lower atmosphere has advanced understanding and forecasting of tropospheric weather.
ISSN:1364-6826
1879-1824
DOI:10.1016/j.jastp.2008.10.007