English

Capture of interstellar objects I: the capture cross-section

Earth and Planetary Astrophysics 2022-01-05 v1 Astrophysics of Galaxies

Abstract

We study the capture of interstellar objects (ISOs) by a planet-star binary with mass ratio q1q\ll1, semi-major axis apa_p, orbital speed vcv_c, and eccentricity epe_p. Very close (slingshot) and wide encounters with the planet are amenable to analytic treatment, while numerically obtained capture cross-sections σ\sigma closely follow the analytical results even in the intermediate regime. Wide interactions can only generate energy changes ΔEqvc2\Delta E\lesssim qv_c^2, when σv2lnΔE2/3\sigma\propto v_\infty^{-2} |\ln\Delta E|^{2/3} (with vv_\infty the ISO's incoming speed far away from the binary), which is slightly enhanced for ep>0e_p>0. Energy changes ΔEqvc2\Delta E\gtrsim qv_c^2, on the other hand, require close interactions when σ(vΔE)2\sigma\propto (v_\infty \Delta E)^{-2} hardly depending on epe_p. Finally, at ΔEvc2\Delta E\gtrsim v_c^2, the cross-section drops to zero, depending on the planet's radius RpR_p through the Safronov number Θ=qap/Rp\Theta=qa_p/R_p. We also derive the cross-sections for collisions of ISOs with planets or moons.

Keywords

Cite

@article{arxiv.2112.07468,
  title  = {Capture of interstellar objects I: the capture cross-section},
  author = {Walter Dehnen and Thomas O. Hands},
  journal= {arXiv preprint arXiv:2112.07468},
  year   = {2022}
}

Comments

16 pages, to be published in MNRAS

R2 v1 2026-06-24T08:16:56.177Z