Deep Impact spacecraft eyes comet target
The mission will use all three of the spacecraft's instruments to scrutinize Comet Hartley 2 for more than 2 months.
September 9, 2010
Provided by the University of Maryland, College Park
September 9, 2010
Exactly 60 days before its flyby, a NASA spacecraft takes a picture of its quarry — Comet Hartley 2.
Photo by NASA/JPL/UM
Some 5 years after its July 4th 2005 "comet shot" was seen around the world, the Deep Impact spacecraft has begun regular imaging of a second comet target, Hartley 2. The spacecraft will continue imaging Hartley 2 during and after its closest approach November 4, providing an extended look at the comet. However, there won't be any fireworks this time as the Deep Impact's secondary probe craft was destroyed in its deliberate 2005 collision with comet Tempel 1.
The flyby of Comet Hartley 2 is the second leg of the Deep Impact spacecraft's two-part extended mission known as EPOXI. During the flyby of Hartley 2, the University of Maryland-led science team will study the comet using all three of the spacecraft's instruments — two telescopes with digital color cameras and an infrared spectrometer.
"These first images mark the beginning of the EPOXI mission's encounter campaign and the beginning of the Deep Impact spacecraft's stretch run toward Hartley 2," said University of Maryland astronomer Michael A'Hearn, principal investigator for the EPOXI mission and its predecessor mission, Deep Impact. "From here on, we expect to get better and better observations of the comet, culminating in images and data taken in the days just before and just after the November 4 flyby."
The imaging campaign, together with spectra and other data obtained from the spacecraft, will afford the mission's science team with the best extended view of a comet during its pass through the inner solar system in history. With the exception of one 6-day break to calibrate instruments and perform a trajectory correction maneuver, the spacecraft will continuously monitor Hartley 2's gas and dust output for the next 79 days.
"Previous missions to comets, including Deep Impact, have shown us comets that seem to be very different," said A'Hearn. "However, we hope data from the Deep Impact spacecraft's flyby of Hartley 2, which has a much smaller nucleus than the previously visited comets, will help us to understand why they appear so different."
"The next cometary missions, Stardust NExT and ESA's Rosetta mission, will lead to additional breakthroughs in understanding what comets can tell us about the formation of the solar system," continued A'Hearn.