Abstract:
This paper investigates spacecraft (SC) trajectories for the mission to a potentially dangerous asteroid, staying there for some time and following returning its samples to Earth in order to study the asteroid and reduce the asteroid hazard. This paper develops a two-step method for constructing interplanetary trajectories of the Earth-asteroid and asteroid-Earth transfers, as well as a method for analyzing the asteroid’s satellite orbits. Optimal interplanetary trajectories for the Earth-Apophis-Earth mission using high thrust engines are found by maximizing the spacecraft payload mass. The near Apophis orbital motions of the main SC and the mini-satellite with a radio beacon have been studied taking into account three types of perturbations: the gravitational effects from some distant celestial bodies, the nonsphericity of Apophis and the solar radiation pressure (SRP).
Keywords:space mission to an asteroid, optimal interplanetary trajectories, asteroid's
satellite orbital motion, nonsphericity of an asteroid, solar radiation pressure, asteroid
Apophis, “lifetime” of asteroid's satellite.
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