
Water ice is present on the surface of Comet Tempel 1, suggest observations from NASAās Deep Impact mission. This is the first direct detection of exposed water ice on a comet.
But the missionās science team says the water ice is present in surprisingly small amounts, covering less than 1% of Comet Tempel 1ās surface. The finding suggests the cometās surrounding cloud of gas and dust may largely be fed by underlying ices, rather than by gas streaming off its surface.
Old assumptions about comets are faltering as results emerge from data collected by the Deep Impact spacecraft in July 2005, when the probeās impactor detached from the mother ship and crashed into the comet at 37,000 kilometres (23,000 miles) per hour.
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Combining high resolution images and infrared spectra collected during the probeās approach, a team of nearly two dozen scientists pinpointed three patches of water ice on the surface of the cometās āupperā half.
The team also found the comet was much weaker structurally than previously believed; the soufflƩ-like comet is more empty space than rock and ice.
The consensus model of a comet leading up to the Deep Impact experiment is no longer valid, says Don Yeomans at NASAās Jet Propulsion Laboratory in Pasadena, California, US, a member of the mission science team. āItās certainly not a dirty iceball or an icy dirtball,ā he told New ŠÓ°ÉŌ““. āItās a very, very weak, dusty structure with interior ices.ā
What lies beneath
Deep Impact struck an ice-free surface area on Tempel 1, says Jessica Sunshine of Science Applications International Corporation in Chantilly, Virginia, US, who led the new study.
But in analysing the ejecta from the comet after impact, she says, āone of the first things we saw was water iceā. This indicates that while water ice is not at the cometās surface, it lies just beneath, within its upper metres.
The team says the surface deposits may be responsible for some of the cometās natural emissions. āBut what is perhaps even more interesting is that most of the [emission] jets are not due to surface ice, theyāre due to subsurface ices that somehow permeate that surface,ā says Yeomans.
Smaller and smaller
That observation may in turn answer another long-standing question about comets: why do some comets seem to be āturned offā, or dormant.
If sunlight must penetrate the dust covering a cometās water ice in order to warm it and produce jets, Sunshine says the Deep Impact findings suggest the ices on such dormant comets may not have run out but merely become sealed ā by layers of debris, for example.
One thing is clear, Sunshine says. āPeople used to think of comets as just a thing that simply sat there and got smaller and smaller [as its water ice evaporated]. But itās clearly more complex than that.ā
Journal Reference: Science (DOI: 10.1126/science.1123632)