The Origin and Dynamics of Heliotropic Ringlets in Saturnian System

Details The Origin and Dynamics of Heliotropic Ringlets in Saturnian System The Origin and Dynamics of Heliotropic Ringlets in Saturnian System

Sep 2008

adsabs.harvard.edu/cgi-bin/nph-data_query?bibcode=2008epsc.conf..762m&link_type=abstract

European Planetary Science Congress 2008, Proceedings of the conference held 21-25 September, 2008 in Münster, Germany. Online a

Computer Science

Scientific paper

Recently, several faint ringlets in the Saturnian ring system were found to have particular orientation relative to the Sun. The Encke Gap ringlets as well as the ringlet in the outer rift of the Cassini division were found to have distinct spatial displacement of several tens of kilometers away from Saturn toward Sun [1]. In our study we investigate the dynamics of circumplanetary dust particles with sizes in the range of 1-100 μm. These small particles are strongly perturbed by non-gravitational forces. In particular by solar radiation pressure and planetary oblateness on time-scales in the order of days. The combined influence of these forces causes periodical evolution of grains' orbital eccentricity and precession of pericenter, which can be shown by secular perturbation theory. We show that this interaction results in a stationary eccentric ringlet oriented with its apocenter toward the Sun, which is consistent with observational findings. In conjunction with this heliotropic dynamics, we can give a limit for the expected smallest grain size in the Encke Gap of about 10 microns. The results of our analytical theory were compared with numerical simulations. We trace the trajectories of a dust grains created by impact ejecta mechanism from a parent body. We estimate lifetimes for the ringlet particles which are mainly limited by collisions with the dense rings and the source bodies. Modeling the equilibrium between particle sources and sinks we find the resulting strength of the source flux which is expected to be observed in the ringlet. Our analytical as well as numerical results indicate, that Pan is a very inefficient source for the main ringlet in the Encke Gap. However, Pan possibly serves as the main source for the outer and inner ringlets. The main ringlet is shown to be maintained by embedded moonlets with size of hundreds of meters placed on stable orbits in the central ringlet region, which are cased by Pan in the gravity field of Saturn. These embeddedmoonletsmight also play a role in forming the azimuthal variations in optical depth of the Encke Gap ringlets.

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