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ⓘ Rings of Rhea. The Saturnian moon Rhea may have a thin ring system with three narrow bands in a disk of solid particles. These would be the first rings seen aro ..




Rings of Rhea
                                     

ⓘ Rings of Rhea

The Saturnian moon Rhea may have a thin ring system with three narrow bands in a disk of solid particles. These would be the first rings seen around a moon. The discovery was announced in the journal Science on March 6 2008.

In November of 2005 the Cassini orbiter found that Saturns magnetosphere near Rhea did not have energetic electrons. According to the discovery team, this is best explained by assuming they were absorbed by solid material in the form of an equatorial disk having denser rings or arcs, with particles perhaps many decimeters to about a meter in diameter.

                                     

1. Detection

Voyager 1 saw an area without as many energetic electrons trapped in Saturns magnetic field downstream from Rhea in 1980. These measurements, which were never explained, were made at a farther distance than the Cassini data.

On November 26, 2005, Cassini made the one targeted Rhea flyby of its primary mission. It passed within 500 km of Rheas surface, downstream of Saturns magnetic field, and saw the resulting plasma wake as it had with other moons, such as Dione and Tethys. In those cases, there was a cutoff of energetic electrons as Cassini crossed into the moons plasma shadows the regions where the moons themselves blocked the magnetospheric plasma from reaching Cassini. However, in the case of Rhea, the electron plasma started to drop off at eight times that distance, and decreased gradually until the expected sharp drop off as Cassini entered Rheas plasma shadow. The extended distance corresponds to Rheas Hill sphere, the distance of 7.7 times Rheas radius inside of which orbits are dominated by Rheas rather than Saturns gravity. When Cassini emerged from Rheas plasma shadow, the reverse pattern occurred: A sharp surge in energetic electrons, then a gradual increase out to Rheas Hill-sphere radius.

These readings are similar to those of Enceladus, where water coming out from its south pole absorbs the electron plasma. However, in the case of Rhea, the absorption pattern is symmetrical.

In addition, the Magnetospheric Imaging Instrument MIMI saw that this gentle gradient was punctuated by three sharp drops in plasma flow on each side of the moon, a pattern that was also nearly symmetric.

In August 2007, Cassini passed through Rheas plasma shadow again, but farther downstream. Its readings were similar to those of Voyager 1.

There are no images or direct sightings of the material thought to be absorbing the plasma, but the likely candidates would be difficult to detect directly. Further sightings are planned for Cassini s first mission extension, with a targeted flyby scheduled for March 2, 2010.

                                     

2. Interpretation

Cassini s flyby path makes interpretation of the magnetic readings difficult.

The obvious candidates for magnetospheric plasma-absorbing matter are neutral gas and dust, but the quantities required to explain the seen decrease in electrons are far higher than Cassini s measurements allow. Therefore the finders, led by Geraint Jones of the Cassini MIMI team, argue that the decrease of electrons must be caused by solid particles orbiting Rhea:

An analysis of the electron data indicates that this obstacle is most likely in the form of a low optical depth disk of material near Rhea’s equatorial plane and that the disk contains solid bodies up to ~1 m in size.

The simplest explanation for the symmetrical punctuations in plasma flow are "extended arcs or rings of material" orbiting Rhea in its equatorial plane. These symmetric dips bear some similarity to the way by which the Rings of Uranus were found in 1977.

However, not all scientists are convinced that the seen signatures are caused by a ring system. No rings have been seen in images, which puts a very low limit at least on tiny dust-sized particles. Furthermore, a ring made of boulders would be expected to generate dust that would likely have been seen in the images.

                                     

3. History

Simulations suggest that solid bodies can stably orbit Rhea near its equatorial plane over astronomical timescales. They may not be stable around Dione and Tethys because those moons are so much closer to Saturn, and therefore have much smaller Hill spheres, or around Titan because of drag from its dense atmosphere.

Many suggestions have been made for the possible origin of rings. An impact could have brought material into orbit; this could have happened as recently as 70 million years ago. A small body could have been disrupted when caught in orbit about Rhea. In either case, the debris would eventually have settled into circular equatorial orbits. Given their long-term orbital stability, however, it is possible that they survive from the formation of Rhea itself.

For different rings to exist, something must separate them. Suggestions include moonlets or clumps of material within the disk, similar to those seen within Saturns A ring.

                                     
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