University of Alaska Fairbanks scientist Don Hampton was a key member of the mission to Hartley 2; he's an optics expert that helped create the highly sensitive telescope, camera and infrared spectrometer that flew on the spacecraft. Hampton, the optical science manager at Poker Flat Research Range, is now analyzing data from the mission.
The bowling-pin-shaped Hartley 2 is more than one mile long and is a mass of ice and dust. The comet is dynamic, with ice, water vapor and carbon dioxide emitting from the comet's nucleus through cracks and fissures on the surface. Analysis of the nucleus and its likely composition is the crux of an article published this week in the journal Science. Hampton is a co-author.
"We basically had no data about what comet nuclei were like before space missions," Hampton said. "When you look at the comet nucleus very closely, you can see what features on the surface correspond with these jets of gases. The reason why we're focusing on the nucleus of Hartley 2 is that it is a very active comet and you can really look at this correlation in detail."
The cameras aboard the spacecraft repurposed for the EPOXI mission, short for Extrasolar Planet Observation and Deep Impact Extended Investigation, collected more than 70,000 images of Hartley 2 as it traveled to and from the comet in the fall of 2010. With the amount of data now available to scientists, Hampton is confidant colleagues will continue to examine these images for telltale clues about Hartley 2's make-up and unique behavior.
"Comets are the detritus, or the crumbs, from the formation of the solar system," Hampton explained. "They give us a snapshot into the history of our solar system."
As for the EPOXI spacecraft, it is still floating in space and operational. Hampton believes the spacecraft will be repurposed and used again for another mission in the near future. The on-board telescope may still be positioned to look at far-off features in the galaxy.