Surface composition of Hyperion

Surface composition of Hyperion

Hyperion, Saturn's eighth largest icy satellite, is a body of irregular shape in a state of chaotic rotation. The surface is segregated into two distinct units. A spatially dominant high-albedo unit having the strong signature of H2O ice contrasts with a unit that is about a factor of four lowe...

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Veröffentlicht in:Nature 2007-07, Vol.448 (7149), p.54-56
Hauptverfasser: Cruikshank, D. P, Dalton, J. B, Ore, C. M. Dalle, Bauer, J, Stephan, K, Filacchione, G, Hendrix, A. R, Hansen, C. J, Coradini, A, Cerroni, P, Tosi, F, Capaccioni, F, Jaumann, R, Buratti, B. J, Clark, R. N, Brown, R. H, Nelson, R. M, McCord, T. B, Baines, K. H, Nicholson, P. D, Sotin, C, Meyer, A. W, Bellucci, G, Combes, M, Bibring, J.-P, Langevin, Y, Sicardy, B, Matson, D. L, Formisano, V, Drossart, P, Mennella, V
Format: Artikel
Sprache:eng
Schlagworte:
Albedo
Analysis
Astronomy
Cassini mission
Craters
Earth Sciences
Earth, ocean, space
Exact sciences and technology
Geology
Humanities and Social Sciences
Hyperion
Hyperion (Satellite)
Ice
Icy satellites
letter
Mass, size
gravitational fields
rotation
orbits
Moon
multidisciplinary
Planetary, asteroid, and satellite characteristics and properties
Planetology
Planets, their satellites and rings. Asteroids
Reflectance
Remote sensing
Saturn
Saturn satellites
Science
Science (multidisciplinary)
Sciences of the Universe
Signatures
Solar system
Spacecraft
Spectra
Ultraviolet
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Beschreibung
Zusammenfassung:Hyperion, Saturn's eighth largest icy satellite, is a body of irregular shape in a state of chaotic rotation. The surface is segregated into two distinct units. A spatially dominant high-albedo unit having the strong signature of H2O ice contrasts with a unit that is about a factor of four lower in albedo and is found mostly in the bottoms of cup-like craters. Here we report observations of Hyperion's surface in the ultraviolet and near-infrared spectral regions with two optical remote sensing instruments on the Cassini spacecraft at closest approach during a fly-by on 25-26 September 2005. The close fly-by afforded us the opportunity to obtain separate reflectance spectra of the high- and low-albedo surface components. The low-albedo material has spectral similarities and compositional signatures that link it with the surface of Phoebe and a hemisphere-wide superficial coating on Iapetus.
ISSN:0028-0836
1476-4687
1476-4679
DOI:10.1038/nature05948