http://arxiv.org/abs/2301.07998
Dynamically linking a meteor shower with its parent body can be challenging. This is in part due to the limit of today’s tools (such as D-criteria) and in part due to the complex dynamics of meteoroid streams. We choose a method to study chaos in meteoroid streams and apply it to the Geminid meteoroid stream. We decide to draw chaos maps. We show that the Orthogonal Fast Lyapunov Indicator is well-suited to our problem, amongst the chaos indicator we studied. The maps are drawn for three size bins, ranging from $10^{-1}$ to $10^{-4}$ m. We show the influence of mean-motion resonances with the Earth and with Venus, which tend to trap the largest particles. The chaos maps present 3 distinct regimes in eccentricity, reflecting close encounters with the planets. We also study the effect of non-gravitational forces. We determine a first approximation of the particle size $r_{lim}$ needed to counterbalance the resonances with the diffusion due to the non-gravitational forces. We find that, for the Geminids, $r_{lim}$ lies in the range $[3;8]\times 10^{-4}$ m. However, $r_{lim}$ depends on the orbital phase space.
A. Courtot, J. Vaubaillon and M. Fouchard
Fri, 20 Jan 23
23/72
Comments: 14 pages, 14 figures, in revision for A&A
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