Titan

Trajectory Design For A Titan-Enceladus Plume Sampling Pseudo-orbiter Mission

By Keith Cowing

Status Report

Acta Astronautica

June 21, 2026

Filed under Acta Astronautica, Enceladus, ESA Voyage 2050, GODOT, gravity assist, plumes, Pseudo-orbiter, sample, subsurface ocean, Titan, trajectory

Trajectory Design For A Titan-Enceladus Plume Sampling Pseudo-orbiter Mission — South polar stereographic projection of the Enceladus flybys for the Case 1 trajectory obtained in full fidelity and with all constraints. Numbered markers indicate each flyby and are placed at the point of closest approach, while the altitude evolution through the flyby hyperbola is mapped with a colorbar. — Acta Astronautica

The exploration of the Saturnian system, and in particular the plumes and subsurface ocean of Enceladus, has been identified as a key science theme for ESA’s Voyage 2050 program.

To support this objective, this paper presents techniques to design pseudo-orbiter phases achieving plume sampling flybys. The analysis defines the problem’s trajectory design search space, discusses the effect of distant Titan encounters and showcases that the circular-coplanar dynamics framework is not adequate for the preliminary design.

These findings drive the development of a novel automated algorithm in real ephemerides based on the exploitation of Titan gravity assists to systematically generate pseudo-orbiter sequences to explore Enceladus and sample its plumes.

The proposed methodology is validated by converging selected solutions in a high fidelity model using ESA’s GODOT flight dynamics software.

Trajectory design for a Titan-Enceladus plume sampling pseudo-orbiter mission, Acta Astronautica (open access)

Astrobiology,

Keith Cowing

Biologist, Explorers Club Fellow, ex-NASA Space Biologist and Payload integrator, Editor of NASAWatch.com and Astrobiology.com, Lapsed climber, Explorer, Synaesthete, Former Challenger Center board member 🖖🏻

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