Close Encounter with Comet Hartley 2
The first images show a peanut-shaped nucleus that is bumpy on each end but smooth in the middle. Scientists involved in the mission said they will be closely analyzing the photographs and spectroscopic data to learn more about the comet.
"We certainly have our hands full," said EPOXI Principal Investigator Michael A'Hearn of the University of Maryland. “The images are full of great cometary data, and that's what we hoped for."
EPOXI is an extended mission that uses the already in-flight Deep Impact spacecraft. In 2005, Deep Impact successfully released an impactor into the path of comet Tempel 1.
After the encounter with Tempel 1, scientists decided to turn the spacecraft toward comet Hartley 2 because it is so much smaller than the four other comets seen up-close: Tempel 1, Borrelly, Wild 2, and Halley. The comet Hartley 2 is 1.25 miles long (2 km), or, as Jessica Sunshine, deputy PI of EPOXI noted, roughly the distance from the US Capitol building to the Washington Monument. “Your average rally on the Mall there,” she said.
A’Hearn says the pressure of those jets is less than that of a fire hose. “Probably it would not be enough to lift you off the surface, but it might – it’s right at the borderline,” he said. “But you have to remember the gravity is almost zero.”
Spectroscopic data shows carbon dioxide makes up some of the comet’s emissions. A’Hearn explained that while mostly water is out-gassed from comets, they also typically emit 1 to 10 percent carbon monoxide and 5 to 10 percent carbon dioxide. Scientists will need to analyze the spectroscopic data sent from the spacecraft before they can determine the exact percentages of Hartley 2’s emissions.
Comets expel jets of gas as they are approach and are heated by the Sun. A’Hearn estimated that Hartley 2 probably loses a meter to a meter-and-a-half of material from its surface every time it passes near the Sun. “So it won’t be around very long,” he said.
The comet’s journey through our solar system is more of a tumble, with the nucleus spinning and rolling in a complex way. But A’Hearn said the comet is slowing down. If it were instead speeding up, he said, the centripetal force would probably cause the comet to break in two at its smooth middle junction, especially because comets are usually not very strongly bound together.
Scientists aren’t sure why the middle area of the comet is so smooth, but Sunshine said it’s most likely due to the re-distribution of material. She also noted that the same sort of smooth feature has been seen on numerous asteroids.
Scientists study comets like Hartley 2 because they hope to learn more about the early solar system. Comets are remnants from the period of planet-building that occurred 4.5 billion years ago.
“Comets are the cores of Jupiter, Saturn, Uranus and Neptune,” said A’Hearn. Studying comets like Hartley 2 up-close can help address the question of what parts of the comet are due to recent processing, and what parts are ancient remnants left over from the solar system’s earliest days. This information could indicate whether comets delivered materials that may have been necessary for the development of life on Earth.
The encounter with comet Hartley 2 is not the end of the journey for the spacecraft. Ed Weiler, Associate Administrator for NASA’s Science Mission Directorate, says NASA has already asked scientists to make suggestions for the spacecraft’s next task. While it does not have enough fuel to change its present course and head off in a new direction, it does have enough fuel to continue to operate. Using a star tracker and camera, the spacecraft will soon have a third and final target in its sights.