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Saturn's moon Phoebe as a captured body from the outer Solar System


The orbital properties of Phoebe, one of Saturn's irregular moons, suggest that it was captured by the ringed planet's gravitational field rather than formed in situ. Phoebe's generally dark surface shows evidence of water ice1, but otherwise the surface most closely resembles that of C-type asteroids2 and small outer Solar System bodies such as Chiron and Pholus that are thought to have originated in the Kuiper belt3. A close fly-by of Phoebe by the Cassini–Huygens spacecraft on 11 June 2004 (19 days before the spacecraft entered orbit around Saturn) provided an opportunity to test the hypothesis that this moon did not form in situ during Saturn's formation, but is instead a product of the larger protoplanetary disk or ‘solar nebula’. Here we derive the rock-to-ice ratio of Phoebe using its density4,5 combined with newly measured oxygen and carbon abundances in the solar photosphere6,7. Phoebe's composition is close to that derived for other solar nebula bodies such as Triton and Pluto, but is very different from that of the regular satellites of Saturn, supporting Phoebe's origin as a captured body from the outer Solar System.

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Figure 1: Plot of the material or ‘sample’ density versus porosity of Phoebe using data from the Cassini orbiter.


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This study was supported by the Cassini Project. A portion of the work was done at the Jet Propulsion Laboratory, California Institute of Technology, under a contract from NASA.

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Correspondence to Jonathan I. Lunine.

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Johnson, T., Lunine, J. Saturn's moon Phoebe as a captured body from the outer Solar System. Nature 435, 69–71 (2005).

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