An On-Orbit CubeSat Centrifuge for Asteroid Science and Exploration
Jekan Thangavelautham, Erik Asphaug, Stephen Schwartz

TL;DR
This paper proposes a 12U CubeSat that acts as an on-orbit centrifuge to simulate asteroid surface conditions, enabling direct study of regolith behavior in low gravity for planetary science and exploration.
Contribution
It introduces a novel on-orbit centrifuge CubeSat design that recreates asteroid surface conditions for direct experimentation and data collection.
Findings
Design of a spinning CubeSat with laboratory capabilities
Simulation of asteroid surface conditions in low gravity
Collection of data on regolith properties and behavior
Abstract
There are thousands of asteroids in near-Earth space and millions expected in the Main Belt. They are diverse in their physical properties and compositions. They are also time capsules of the early Solar System making them valuable for planetary science, and are strategic for resource mining, planetary defense/security and as interplanetary depots. But we lack direct knowledge of the geophysical behavior of an asteroid surface under milligravity conditions, and therefore landing on an asteroid and manipulating its surface material remains a daunting challenge. Towards this goal we are putting forth plans for a 12U CubeSat that will be in Low Earth Orbit and that will operate as a spinning centrifuge on-orbit. In this paper, we will present an overview of the systems engineering and instrumentation design on the spacecraft. Parts of this 12U CubeSat will contain a laboratory that will…
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