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The Saturnian system with its magnificent rings is a treasure trove for cosmic dust research.Dusty rings fed by a variety of processes form a complex dust environment:most notably in the case of ice volcanism on Enceladus feeding the E ring, but alsodue to particles generated by the impact ejecta mechanism.Here we present our new model of dust in the Saturnian system that is currentlybeing developed as part of an ESA activity to predict the hazards for space missions.This kind of effort also provides a wealth of opportunities to addressscientific questions. In this contribution we give an overview of the first results ofcosmic dust phenomena in this extraordinary environment, but also on the technical aspectsof the model.The Saturn Dust model traces test particles from source tosink, ejected in the plumes of Enceladus feeding the E ring, and from impact ejecta processesgenerating a low number of particles from other airless bodies. Their trajectories arenumerically integrated taking into account all relevant forces and mechanisms, i.e. gravity,radiation pressure, Lorentz force, plasma drag, electric charging, and sputtering.We discuss the calibration using existing observations, based predominantly onresults from the Cassini mission, we present an overview of the dynamical phenomenaassociated with dust in this environment, and we give an outlook on the upcoming user interfacefor the model as a tool for mission planning and risk estimation.
Strub et al. (Wed,) studied this question.
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