Moonraker: Enceladus Multiple Flyby Mission

Author:

Mousis O.ORCID,Bouquet A.ORCID,Langevin Y.,André N.ORCID,Boithias H.,Durry G.ORCID,Faye F.,Hartogh P.ORCID,Helbert J.ORCID,Iess L.ORCID,Kempf S.,Masters A.ORCID,Postberg F.ORCID,Renard J.-B.,Vernazza P.ORCID,Vorburger A.ORCID,Wurz P.ORCID,Atkinson D. H.,Barabash S.,Berthomier M.ORCID,Brucato J.ORCID,Cable M.ORCID,Carter J.,Cazaux S.ORCID,Coustenis A.ORCID,Danger G.ORCID,Dehant V.ORCID,Fornaro T.ORCID,Garnier P.,Gautier T.ORCID,Groussin O.ORCID,Hadid L. Z.ORCID,Ize J.-C.,Kolmasova I.ORCID,Lebreton J.-P.,Maistre S. LeORCID,Lellouch E.ORCID,Lunine J. I.ORCID,Mandt K. E.ORCID,Martins Z.ORCID,Mimoun D.ORCID,Nenon Q.,Caro G. M. MuñozORCID,Rannou P.ORCID,Rauer H.ORCID,Schmitt-Kopplin P.ORCID,Schneeberger A.,Simons M.ORCID,Stephan K.,Hoolst T. VanORCID,Vaverka J.ORCID,Wieser M.ORCID,Wörner L.

Abstract

Abstract Enceladus, an icy moon of Saturn, possesses an internal water ocean and jets expelling ocean material into space. Cassini investigations indicated that the subsurface ocean could be a habitable environment having a complex interaction with the rocky core. Further investigation of the composition of the plume formed by the jets is necessary to fully understand the ocean, its potential habitability, and what it tells us about Enceladus’s origin. Moonraker has been proposed as an ESA M-class mission designed to orbit Saturn and perform multiple flybys of Enceladus, focusing on traversals of the plume. The proposed Moonraker mission consists of an ESA-provided platform with strong heritage from JUICE and Mars Sample Return and carrying a suite of instruments dedicated to plume and surface analysis. The nominal Moonraker mission has a duration of ∼13.5 yr. It includes a 23-flyby segment with 189 days allocated for the science phase and can be expanded with additional segments if resources allow. The mission concept consists of investigating (i) the habitability conditions of present-day Enceladus and its internal ocean, (ii) the mechanisms at play for the communication between the internal ocean and the surface of the South Polar Terrain, and (iii) the formation conditions of the moon. Moonraker, thanks to state-of-the-art instruments representing a significant improvement over Cassini's payload, would quantify the abundance of key species in the plume, isotopic ratios, and the physical parameters of the plume and the surface. Such a mission would pave the way for a possible future landed mission.

Publisher

American Astronomical Society

Subject

Space and Planetary Science,Earth and Planetary Sciences (miscellaneous),Geophysics,Astronomy and Astrophysics

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