This map-projected view of Ceres was created from images taken by NASA’s Dawn spacecraft during its high-altitude mapping orbit, in August and September, 2015. Credit: NASA/JPL-Caltech/UCLA/MPS/DLR/IDA
Mysteries and insights about Ceres are being discussed this week at the European Planetary Science Conference in Nantes, France. NASA’s Dawn spacecraft is providing scientists with tantalizing views and other data about the intriguing dwarf planet that they continue to analyze. “Ceres continues to amaze, yet puzzle us, as we examine our multitude of images, spectra and now energetic particle bursts,” said Chris Russell, Dawn principal investigator at the University of California, Los Angeles.
A new color-coded topographic map shows more than a dozen recently approved names for features on Ceres, all eponymous for agricultural spirits, deities and festivals from cultures around the world. These include Jaja, after the Abkhazian harvest goddess, and Ernutet, after the cobra-headed Egyptian harvest goddess. A 12-mile diameter mountain near Ceres’ north pole is now called Ysolo Mons, for an Albanian festival that marks the first day of the eggplant harvest.
Another new Ceres map, in false color, enhances compositional differences present on the surface. Color-coded topographic images of Occator crater, home of Ceres’ brightest spots, and a puzzling, cone-shaped 6-mi-high mountain, are also available. Scientists are still trying to identify processes that could produce these and other unique Cerean phenomena. “The irregular shapes of craters on Ceres are especially interesting, resembling craters we see on Saturn’s icy moon Rhea,” said Carol Raymond. “They are very different from the bowl-shaped craters on Vesta.”
A surprising bonus observation came from Dawn’s gamma ray and neutron spectrometer. The instrument detected 3 bursts of energetic electrons that may result from the interaction between Ceres and radiation from the sun. The observation isn’t yet fully understood, but may be important in forming a complete picture of Ceres. Dawn is currently orbiting Ceres at an altitude of 915 miles, and the spacecraft will image the entire surface of the dwarf planet up to six times in this phase of the mission. Each imaging cycle takes 11 days.
Starting in October and continuing into December, Dawn will descend to its lowest and final orbit, an altitude of 230 miles. The spacecraft will continue imaging Ceres and taking other data at higher resolutions than ever before at this last orbit. It will remain operational at least through mid-2016. Dawn made history as the first mission to reach a dwarf planet, and the first to orbit two distinct extraterrestrial targets, when it arrived at Ceres on March 6, 2015. It conducted extensive observations of Vesta in 2011 and 2012.
http://www.jpl.nasa.gov/news/news.php?release=2015-305
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