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Study
Confirms First-Known Belt Of Moonlets In Saturn Rings
Wednesday, October 24, 2007
A
team led by the University of Colorado at Boulder has
detected an unseen belt of moonlets in Saturn's outermost
"A" ring (top image, outer purple band). The
moonlets in the belt were detected by gravity "wakes"
10 miles to 20 miles across (boxed in bottom image) by the
narrow-angle camera aboard the NASA Cassini spacecraft.
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Credit:
NASA/JPL/Space Science Institute/ University of Colorado.
A narrow belt harboring
moonlets as large as football stadiums discovered in Saturn's
outermost ring probably resulted when a larger moon was shattered
by a wayward asteroid or comet eons ago, according to a
University of Colorado at Boulder study.
Images taken by
a camera onboard the NASA Cassini spacecraft revealed a series of
eight propeller-shaped "wakes" in a thin belt of the
outermost "A" ring, indicating the presence of
corresponding moonlets, said CU-Boulder Research Associate
Miodrag Sremcevic, lead author of the study published in the Oct.
25 issue of Nature. The propeller wakes highlight tiny areas of
the belt where ring material has been perturbed by the
gravitational forces caused by individual moonlets, Sremcevic
said.
The team calculated that there likely are thousands
of moonlets ranging in size from semi-trailers to sports arenas
embedded in the "A" ring's thin moonlet belt that
circles the planet. At about 2,000 miles across, the belt of
moonlets is only about 1/80th the diameter of Saturn's total ring
system, which at roughly 155,000 miles across would stretch about
two-thirds of the way from Earth to the moon.
"This
is the first evidence of a moonlet belt in any of Saturn's
rings," said Sremcevic of CU-Boulder's Laboratory for
Atmospheric and Space Physics. "We have firmly established
these moonlets exist in a relatively narrow region of the "A"
ring, and the evidence indicates they are remnants of a larger
moon that was shattered by a meteoroid or comet."
Co-authors of the Nature study include Juergen Schmidt,
Martin Seiss and Frank Spahn of the University of Potsdam in
Germany, Heikko Salo of the University of Oulu in Finland, and
Nicole Albers of CU-Boulder's LASP. The images were taken by the
Narrow Angle Camera onboard the NASA Cassini spacecraft, which
was launched in 1997 and has been orbiting the Saturn system
since July 2004.
Each propeller feature is about 10 miles
long, said Sremcevic, who with Spahn first predicted the
existence of such propellers in Saturn's rings as an
undergraduate at the University of Belgrade in 2000. While four
propellers were discovered in the "A" ring in 2006 by a
team led by Cornell University, Sremcevic and his colleagues
looked at a much larger image sequence, allowing them to
extrapolate statistically and confirm the presence of thousands
of small objects in the "A" ring's moonlet belt.
The
moonlets may be the result of the break-up of a ring-moon similar
to Pan -- Saturn's innermost 20-mile diameter moon -- that was
smashed by a comet or meteor, the team concluded. The team
calculated the mass of the unseen moonlets in the belt greater
than 50 feet in diameter to arrive at the estimated size of the
moon involved in the collision creating the belt.
The
finding supports the theory that Saturn's rings initially were
created in a "collisional cascade" of ring debris begun
by a catastrophic break-up of an even larger moon in the Saturn
system first proposed by CU-Boulder planetary scientists Larry
Esposito and Joshua Colwell in 1987. The moonlets in the newly
discovered belt may have formed after Saturn's rings already were
in place, which planetary scientists speculate could have been
hundreds of millions or even billions of years ago.
"It
seems unlikely that moonlets are remainders of a single
catastrophic event that created the whole ring system, because in
this case a uniform distribution would emerge," the
researchers wrote in Nature. "Instead, the moonlet belt is
compatible with a more recent body orbiting in the A ring."
Esposito, who was not involved in the study, said the
propellers "show a striking demonstration of the lingering
effects of the gravity from these small, embedded moonlets."
Esposito is the chief scientist on the NASA Cassini mission's
$12.5 million Ultra-Violet Imaging Spectrograph designed and
built at LASP.
Sremcevic said the discovery of the
moonlet belt is another piece in the puzzle regarding the
formation and evolution of Saturn's rings. "We believe
future studies of ring evolution will need to incorporate the
findings and implications from this study."
The NASA
Cassini mission, formerly called the Cassini-Huygens mission, is
a cooperative project of NASA, the European Space Agency and the
Italian Space Agency. The Jet Propulsion Laboratory, a division
of the California Institute of Technology in Pasadena, manages
the NASA Cassini mission for NASA's Science Mission Directorate
in Washington, D.C.
Source:
University of Colorado, Boulder
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