Opportunities for asteroid retrieval missions

Garcia Yarnoz, Daniel and Sanchez Cuartielles, Joan-Pau and McInnes, Colin; (2013) Opportunities for asteroid retrieval missions. In: Asteroids. Springer Berlin Heidelberg, London, 479-505, Chapter 21. ISBN 978-3-642-39243-6 (https://doi.org/10.1007/978-3-642-39244-3_21)

[thumbnail of Yarnoz DG e al - Pure - Opportunities for asteroid retrieval missions Sep 2013] PDF. Filename: Yarnoz_DG_e_al_Pure_Opportunities_for_asteroid_retrieval_missions_Sep_2013.pdf
Preprint
Download (6MB)

Abstract

Asteroids and comets are of strategic importance for science in an effort to uncover the formation, evolution and composition of the Solar System. Near-Earth Objects (NEOs) are of particular interest because of their accessibility from Earth, but also because of their speculated wealth of material resources. The exploitation of these resources has long been discussed as a means to lower the cost of future space endeavours. In this chapter, we analyze the possibility of retrieving entire objects from accessible heliocentric orbits and moving them into the Earth’s neighbourhood. The asteroid retrieval transfers are sought from the continuum of low energy transfers enabled by the dynamics of invariant manifolds; specifically, the retrieval transfers target planar, vertical Lyapunov and halo orbit families associated with the collinear equilibrium points of the Sun-Earth Circular Restricted Three Body problem. The judicious use of these dynamical features provides the best opportunity to find extremely low energy transfers for asteroidal material. With the objective to minimise transfer costs, a global search of impulsive transfers connecting the unperturbed asteroid’s orbit with the stable manifold phase of the transfer is performed. A catalogue of asteroid retrieval opportunities of currently known NEOs is presented here. Despite the highly incomplete census of very small asteroids, the catalogue can already be populated with 12 different objects retrievable with less than 500 m/s of Δv. All, but one, of these objects have an expected size in the range that can be met by current propulsion technologies. Moreover, the methodology proposed represents a robust search for future retrieval candidates that can be automatically applied to a growing survey of NEOs.

CORE (COnnecting REpositories)