Other
Scientific paper
Nov 2001
adsabs.harvard.edu/cgi-bin/nph-data_query?bibcode=2001p%26ss...49.1265k&link_type=abstract
Planetary and Space Science, Volume 49, Issue 13, p. 1265-1279.
Other
8
Scientific paper
We readdress the idea that Hyperion may act as an effective source of dust in the outer Saturnian system. Hypervelocity impacts of dust particles coming from the outer irregular moons (Phoebe and several others recently discovered) and, to less degree, bombardment by interplanetary micrometeoroids should eject surface material of Hyperion to planetocentric space. Unlike Hyperion, whose motion is stabilized by a strong 4:3 mean motion resonance with the neighbouring Titan, so that encounters with this satellite are prohibited, a significant fraction of the Hyperion debris should be fast enough to be out of resonance. For slower ejecta, resonant locking may be destroyed later by the plasma drag and solar radiation pressure forces. The orbits liberated from the resonance become unstable and experience multiple close approaches to Titan. Using numerical integrations, we performed a statistical study of the grain trajectories to construct a spatial distribution of dust in the Hyperion-Titan system and to find out the eventual fate of the debris. Particles locked in resonance form an arc-like structure along the Hyperion orbit centred on Hyperion's position; this ``Hyperion swarm'' is populated by grains of tens of micrometres in size and might be dense enough to be detected by the Cassini spacecraft during its flyby of Hyperion. The whole dust cloud in the Hyperion-Titan system is tilted off the equatorial plane of Saturn and has a structure that depends on the particle radii. No particular dust concentration in the vicinity of Titan was found. Most of the grains larger than ~5μm in size finally collide with Titan, whereas smaller particles are either lost in the inner part of the Saturnian system or hit Saturn. Our estimates of the dust influx to Titan show that the incoming rate of Hyperion particles may exceed the direct influx of interplanetary dust particles. The influx of icy (H2O) particles from Hyperion might help to explain the observed abundance of CO and CO2 molecules in Titan's atmosphere.
Banaszkiewicz Marek
Krivov Alexander V.
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