CICLOPS: Cassini Imaging Central Laboratory for OPerationS
Revelations In Saturn's Rings Continue As Equinox Approaches

Joe Mason (720)974-5859
CICLOPS/Space Science Institute, Boulder, Colo.

Image Advisory: August 7, 2009


Thanks to a special play of sunlight and shadow as Saturn continues its march towards its August 11 equinox, recent images captured by NASA's Cassini spacecraft are revealing new three-dimensional objects and structures in the planet's otherwise flat rings.

Through the detections of shadows cast upon the rings, a moonlet has been spotted for the first time in Saturn's dense B ring and narrow vertical structures are seen soaring upward from Saturn's intricate F ring.

The new images can be found at, and

The search for three-dimensional structures in Saturn's rings has been a major goal of the imaging team during Cassini's "Equinox Mission," the 27-month-long period containing exact equinox -- that moment when the sun is seen directly overhead at noon at the planet's equator. This novel illumination geometry, which occurs every half-Saturn-year, or about 15 Earth years, lowers the sun's angle to the ring plane and causes out-of-plane structures to cast long shadows across the rings' broad expanse, making them easy to detect.

Saturn's rings are hundreds of thousands of miles or kilometers wide, but the main rings -- D, C, B and A rings (working outward from the planet) -- are only about 30 feet, or 10 meters, thick. These main rings lie inside the relatively narrow F ring. The thinness of the rings -- well below the resolving power of the spacecraft's cameras -- makes the determination of vertical deviations from them difficult through routine imaging. Solid evidence of these newly seen structures and others like them becomes available only during the period of equinox when features protruding above and below the rings can cast shadows.

The new moonlet in the B ring, situated about 300 miles, or 480 kilometers, inward from the outer edge of the B ring, was found because of a shadow 25 miles, or 41 kilometers, long that it throws on the rings. The shadow length implies the moonlet is protruding about 660 feet, or 200 meters, above the ring plane. If the moonlet is orbiting in the same plane as the ring material surrounding it, which is likely, it must be about 1,300 feet, or 400 meters, across. Unlike the band of moonlets discovered in Saturn's A ring earlier by Cassini, this object is not attended by a propeller feature. The A ring moonlets, which were not imaged directly, were found because of the propeller-like narrow gaps on either side of them that they create as they orbit within the rings. The absence of a propeller feature surrounding the new moonlet is likely because the B ring is denser and the ring material in a dense ring would be expected to fill in any gaps more quickly than in a less dense region like the mid-A ring. Also, it may simply be harder in the first place for a moonlet to create propeller-like gaps in a dense ring.

In recent weeks scientists also have collected a series of images of shadows being cast by vertically extended structures or objects in the F ring. One image shows the shadow of what appears to be a vertically extended object in the core of the F ring, while another image may show the shadow of an object on an inclined orbit which has punched through the F ring and dragged material along in its path. A third image shows an F-ring structure casting a shadow long enough to reach across the wide Roche Division and appear on the A ring. Imaging scientists are working to understand the origin of these structures.

New sights such as these -- and the questions they raise and the insights they may provide -- will continue in the coming days of Saturn's equinox.

The Cassini-Huygens mission is a cooperative project of NASA, the European Space Agency and the Italian Space Agency. The Jet Propulsion Laboratory (JPL), a division of the California Institute of Technology in Pasadena, manages the Cassini-Huygens mission for NASA's Science Mission Directorate, Washington. The Cassini orbiter and its two onboard cameras were designed, developed and assembled at JPL. The imaging team consists of scientists from the U.S., England, France, and Germany. The imaging operations center and team leader (Dr. C. Porco) are based at the Space Science Institute in Boulder, Colo.