A Milli-Newton Propulsion System for the Asteroid Mobile Imager and Geologic Observer (AMIGO)
Greg Wilburn, Erik Asphaug, Jekan Thangavelautham

TL;DR
This paper proposes a milli-Newton propulsion system for small asteroid landers, enabling controlled hopping and navigation on low-gravity surfaces to enhance exploration capabilities.
Contribution
It introduces a novel milli-Newton thruster design tailored for 1 kg asteroid landers, facilitating hopping, navigation, and attitude control in low-gravity environments.
Findings
Design of a milli-Newton propulsion system for asteroid landers
Demonstration of controlled hopping on low-gravity surfaces
Enhanced surface exploration range for small asteroid missions
Abstract
Exploration of small bodies, namely comets and asteroids remain a challenging endeavor due to their low gravity. The risk is so high that missions such as Hayabusa II and OSIRIS-REx will be performing touch and go missions to obtain samples. The next logical step is to perform longer-term mobility on the surface of these asteroid. This can be accomplished by sending small landers of a 1 kg or less with miniature propulsion systems that can just offset the force of asteroid gravity. Such a propulsion system would ideally be used to hop on the surface of the asteroid. Hopping has been found to be most efficient form of mobility on low-gravity. Use of wheels for rolling presents substantial challenges as the wheel can't gain traction to roll. The Asteroid Mobile Imager and Geologic Observer (AMIGO) utilizes 1 kg landers that are stowed in a 1U CubeSat configuration and deployed, releasing…
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