A Pluto-Charon Sonata: The Dynamical Architecture of the Circumbinary Satellite System

Abstract

Using a large suite of n-body simulations, we explore the discovery space for new satellites in the Pluto-Charon system. For the adopted masses and orbits of the known satellites, there are few stable prograde or polar orbits with semimajor axes a 1.1~aH, where aH is the semimajor axis of the outermost moon Hydra. Small moons with radii r 2 km and a 1.1~aH are ejected on time scales ranging from several yr to more than 10 Myr. Orbits with a 1.1~aH are stable on time scales exceeding 100 Myr. Near-IR and mid-IR imaging with JWST and ground-based occultation campaigns with 2-3-m class telescopes can detect 1-2 km satellites outside the orbit of Hydra. Searches for these moons enable new constraints on the masses of the known satellites and on theories for circumbinary satellite formation.