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Scientific paper
Jul 2005
adsabs.harvard.edu/cgi-bin/nph-data_query?bibcode=2005hst..prop10506g&link_type=abstract
HST Proposal ID #10506
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Hst Proposal Id #10506 Solar System
Scientific paper
Planetary FUV aurora is the most spectacular signature of the electrodynamical coupling between the solar wind, the planet's magnetic field, and its atmosphere. Saturn's magnetosphere has similarities both with the Earth's magnetosphere, which is 'open' to solar wind interaction and Jupiter's relatively 'closed' case with its large internal sources of plasma. HST observations of Saturn's aurora have shown a much more complex and dynamic morphology than anticipated: a frequent 'spiral' structure, a changing size of the oval in response to variations of the solar wind dynamics pressure, and large brightness changes in a few ten of minutes following compression of the magnetosphere by the solar wind. In addition, the global morphology and some spots move at 70% of the planetary co-rotation, while some other features appear nearly fixed in local time. Recently, ideas have emerged to account for Saturn's aurora specificities, although many aspects are still not understood due to the paucity of observational data. Electric current models suggest that the main oval is located at the limit between closed and open magnetic field lines, near the magnetopause. The availability of Cassini in Saturn's magnetic environment now offers a unique opportunity for collaborative science. We thus propose to test the relationship between the aurora and conditions at Saturn's magnetopause {MP} boundary. We plan to image the FUV aurora with ACS at times of inbound Cassini crossing of the MP from the upstream solar wind/magnetosheath region into the middle magnetosphere during an inbound segment of a Cassini's orbit. FUV images will also reveal whether the main oval changes its size over the interval, possibly indicating evidence for changes in the amount of open flux in the system. These HST images of the aurora simultaneous with in situ measurements of the plasma characteristics and electrodynamics inside the magnetosphere are critical to obtain key observational tests and constraints to future ideas and models of Saturn's auroral precipitation and magnetospheric processes involved.
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