For the last year, NASA's OSIRIS-REx spacecraft has been circling a large asteroid named Bennu that regularly passes uncomfortably close to Earth. The spacecraft has been painstakingly mapping the asteroid's rocky surface using a suite of cameras and other instruments that will help it determine where to land next year. Once NASA selects a final landing site, OSIRIS-REx will kiss Bennu just long enough to scoop up a sample to bring back to Earth in 2023.
Many scientists expect the Bennu sample to revolutionize our understanding of asteroids, especially those that are near Earth and pose the greatest threat from space to life as we know it. But as detailed in a paper published this week in Science, NASA has already started making surprising discoveries around this alien world. Earlier this year, the OSIRIS-REx team witnessed particles exploding from the asteroid's surface—and the team's not sure why.
"No one has ever seen an active asteroid up close like this," says Carl Hergenrother, an astronomer at the University of Arizona and the scientist who proposed Bennu as the target for OSIRIS-REx. "It wasn't that long ago that the conventional wisdom was that asteroids are these dead bodies that didn't change very much."
In January, the navigation cameras on OSIRIS-REx captured three ejection events that each spewed about 100 centimeter-sized asteroid particles into space. The spacecraft also detected a significant number of particles orbiting Bennu like a cloud of gnats. Their diverse orbits suggest that particle ejections are a common event on the asteroid and occur all across its surface, rather than in a few select spots. Indeed, in the year since the three ejection events that are reported today in Science, Hergenrother says OSIRIS-REx has detected several other smaller ejections.
Asteroid Bennu isn't really "alive" because it doesn't have a heated core necessary for geological activity, but as Hergenrother and his colleagues discovered, it's not exactly dead either. It's a space zombie roaming the solar system, sneezing out small rocks. Some quickly return to the surface like a cannonball, while others escape into the vast emptiness of deep space. But what's really intriguing, says Hergenrother, are the rocks that end up in orbit around Bennu and become miniature moons for a few days before returning to the surface.
"What we're seeing is something we would have never been able to see from the ground," Hergenrother adds. "So the question that is still on our minds is, 'Are we seeing a lower-intensity process that is similar to what happens on other active asteroids, or is this something entirely different?'"
Scientists have seen massive ejections from about two dozen asteroids as they pass by Earth, but the mechanisms invoked to explain why these asteroids are ejecting material don't work for Bennu. The centrifugaRead More – Source