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NEWS BLOG by Shweta Krishnan
First Science Results from Dawn
The mission’s principle investigator, Christopher Russell (University of California in Los Angeles) said he has begun to think of Vesta as “the smallest terrestrial planet” because of its many features indicating past active geology, including lava flows, giant ridges, valleys, and mountains. The asteroid shows clear evidence of having differentiated quite early into a crust, mantle, and — surprisingly — a small iron core that’s been detected by Dawn’s gravity-field measurements.
Russell said that the team has recalculated the rotational axis of the asteroid since Dawn’s arrival. Establishing a reliable coordinate system is essential for mapping Vesta’s many features, but the old coordinate system was 10° off.
Carol Raymond (Jet Propulsion Laboratory), Dawn’s deputy principle investigator, unveiled a color-coded topography map that emphasizes the highest peaks and steep slopes in the Rheasilvia basin. The large, broad mountain in its center (perhaps related to the basin’s formation) is thought to be the second tallest in the solar system, after Olympus Mons on Mars.
Raymond also discussed the geologic dichotomy between Vesta’s heavily cratered northern hemisphere and smoother areas in the south, the two halves separated by a set of grooves that gird the equator. A crater count shows that the southern hemisphere seems at least one billion years younger, almost certainly influenced (if not caused outright) by the formation of Rheasilvia. Raymond notes that further studies should reveal the reasons for these evolutionary gaps.
Andreas Nathues (Max Planck Institute, Germany) displayed images that had been generated using the seven color filters in the framing camera aboard Dawn. One of these reveals a large impact crater about 25 miles (40 km) in diameter. In a false-color image, a bright red zone borders the crater’s southern lip, which Nathues suggests might be loosely packed material excavated during a low-angle impact.
More generally, Dawn’s Visible and Infrared Mapping Spectrometer (VIR data) shows that Vesta has a varied mineral composition at its equatorial regions. Maria Cristina De Sanctis (National Institute of Astrophysics, Italy) says that combining thermal and other measurements will in time help unravel the nature and evolution of the asteroid’s surface.
The mineral composition of the asteroid will also help solve the origin of three rare meteorite types, classified as howardites, eucrites, and diogenites, whose igneous nature and spectra are a close match to Vesta’s. De Sanctis thinks that there is already enough spectroscopic evidence to suggest that howardites originated on Vesta, but closer observations will be necessary to make that claim for the other two types.
The Dawn team will not have to wait long for even-better peeks at Vesta. The spacecraft reached a new, closer vantage, called the High Altitude Mapping Orbit (HAMO), last Thursday. The craft now orbits Vesta every 12 hours and returns data every time it faces Earth. Dawn will remain in this orbit for 30 days, charting the surface topography, studying the asteroid’s composition, and refining measurements of its gravity.
Posted by Shweta Krishnan, October 5, 2011