Possibility of transporting material from Ceres to NEO region via 8:3 MMR with Jupiter

Abstract

In this work we investigate the possibility of transporting material to the NEO region via the 8:3 MMR with Jupiter, potentially even material released from the dwarf planet Ceres. By applying the FLI map method to the 8:3 MMR region in the orbital plane of Ceres, we were able to distinguish between stable and unstable orbits. Subsequently, based on the FLI maps (for mean anomaly M=60 and also M=30), 500 of the most stable and 500 of the most unstable particles were integrated for 15\,Myr for each map. Long-term integration in the case of M=60 showed that most of the stable particles evolved, in general, in uneventful ways with only 0.8\% of particles reaching the limit of q ≤ 1.3 AU. However, in the case of M=30, a stable evolution was not confirmed. Over 40\% of particles reached orbits with q ≤ 1.3 AU and numerous particles were ejected to hyperbolic orbits or orbits with a > 100 AU. The results for stable particles indicate that short-term FLI maps are more suitable for finding chaotic orbits, than for detecting the stable ones. A rough estimate shows that it is possible for material released from Ceres to get to the region of 8:3 MMR with Jupiter. A long-term integration of unstable particles in both cases showed that transportation of material via 8:3 MMR close to the Earth is possible.