Temporary Capture of Asteroids by an Eccentric Planet

Abstract

We have investigated the probability of temporary capture of asteroids in eccentric orbits by a planet in a circular or an eccentric orbit through analytical and numerical calculations. We found that in the limit of the circular orbit, the capture probability is 0.1\% of encounters to the planet's Hill sphere, independent of planetary mass and semimajor axis. In general, the temporary capture becomes more difficult as the planet's eccentricity (e p) increases. We found that the capture probability is almost independent of e p until a critical value (e p c) that is given by 5 times the Hill radius scaled by the planet's semimajor axis. For e p > e p c, the probability decreases approximately in proportion to e p-1. The current orbital eccentricity of Mars is several times larger than e p c. However, since the range of secular change in Martian eccentricity overlaps e p c, the capture of minor bodies by the past Mars is not ruled out.