I walked in the door and I found a tremendously functional team.” I did not come to a whole bunch of broken glass. Zurbuchen also noted that the search for the fundamentals of the universe, including dark energy and dark matter, is another of NASA’s most important science goals. Obtaining deeper insights into Earth includes tracking severe weather through instruments such as NASA’s upcoming Cyclone Global Navigation Satellite System ( CYGNSS), monitoring potential disruptions from space weather, and better understanding climate change. Zurbuchen “is good at not only listening to everybody to find out what those big-ticket items should be but honing those big-picture visions into tangible goals for an organization to head towards.” Top PrioritiesĪlong with the search for extraterrestrial life, Zurbuchen spoke of understanding and protecting life on Earth as a top NASA science priority. “We can all get buried in the small details of our work lives, and it’s good for somebody in a leadership position to be able to occasionally call everybody to attention and remind them of the big vision and the place that you’re aiming at,” said Liemohn, editor in chief of the American Geophysical Union’s Journal of Geophysical Research: Space Physics. Michael Liemohn, a professor of climate and space sciences and engineering at the University of Michigan and a former colleague of Zurbuchen, also spoke highly of him. Under Zurbuchen’s leadership, “we reached consensus while not getting bogged down in arguments that ultimately could have led to gridlock,” Swartz said. According to Swartz, Zurbuchen helped ensure that all views were heard as the committee deliberated about achieving science goals with miniature satellites known as CubeSats (a keen interest of Zurbuchen). National Research Council committee chaired by Zurbuchen. The new associate administrator has demonstrated leadership skills that should serve him well in this new job, said William Swartz, a principal research scientist at the Johns Hopkins University Applied Physics Laboratory in Laurel, Md. Most recently, Zurbuchen was a professor of space science and aerospace engineering at the University of Michigan in Ann Arbor. So far in his career, his research has spanned solar and heliospheric physics, experimental space research, space systems, and involvement with NASA missions, including the Mercury Surface, Space Environment, Geochemistry, and Ranging (MESSENGER) spacecraft to Mercury and the Ulysses heliosphere mission. in physics from the University of Bern in Switzerland in 1996. Thomas Zurbuchen, NASA’s new associate administrator for the agency’s science mission directorate, discussed his priorities during a 31 October briefing. Zurbuchen noted that a National Academy of Sciences workshop in December on searching for life across space and time also could provide valuable insights. “What we’re after in planetary exploration in many ways is a part of the puzzle of finding extraterrestrial life,” he said. You can make a list of 10 things of that kind,” he told reporters at a get-to-know-you briefing with them Monday at NASA headquarters in Washington, D. “Look how many planets we have right now, look where we found water, where we found organics. “What we’re after in planetary exploration in many ways is a part of the puzzle of finding extraterrestrial life.” The newly appointed associate administrator for NASA’s science mission directorate pointed to significant discoveries and advances in the search for extraterrestrial life since 1995 when astronomers discovered 51 Pegasi b, the first known planet orbiting a Sun-like star outside our solar system. With the search for extraterrestrial life being one of the highest NASA science priorities, “major breakthroughs in this problem” could occur over the next 1–2 decades, space scientist Thomas Zurbuchen said this week.
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