Saturn's Rings as Old as Solar System, Study Says

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"Because the rings have more mass than was previously thought, they can still be bright and icy even after four billion years," he said yesterday at a meeting of the American Geophysical Union in San Francisco.

Rather than being a temporary feature that we just happen to live during the right time to see, he added, the rings might be like a long-standing city, with individual people coming and going while the overall structure remains.

Building Moonlets

Another recent study, led by planetary scientist Carolyn Porco of the Space Science Institute in Boulder, Colorado, may lend additional support to Esposito's theory.

Porco and her team found that it's possible for even fairly large moons—tens of miles across—to take shape around small, relatively dense ice kernels that have enough gravity to overcome the forces that would otherwise rip them apart.

(Read the full story: "Saturn's 'Flying Saucer' Moons Made Mainly of Ring Dust" [December 6, 2007].)

But Porco isn't so sure that her work supports Esposito's, even though some of the ring features may well be recent.

"The idea that maybe the ring particles exchange contents with one another has been around a long time," she said.

But the problem with indefinite recycling of ring-building materials, she pointed out, is that not all of the dust will remain in the rings.

"Some of that [dust] gets charged and gets zipped out of the system [by magnetic forces]," she said. "Eventually all the particles are going to be eroded down to nothing."

But she noted that some of the existing moons within the Saturn system are big enough to create a lot of debris if hit by an asteroid.

"If you smashed up [the moonlet] Prometheus tomorrow, you'd get a ring," she said. "So of course these kinds of things might be going on."

Her theory of moonlet growth suggests that a mantle of softer, fluffy material surrounds the hard, dense "seed" at the center of the moon. The core could be a shard from the original collision, while the mantle would absorb the energy of incoming meteorites like a soft, thick bank of snow.

"That may help protect the core," she said. "Maybe the cores could have survived multiple break-ups and accreted [new] material."

But for billions of years? "I'm on the fence," she said. "Maybe the central, thickest part of the B ring [one of the brightest] might be very old, but I doubt that the other parts of the ring are ancient."

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