The Effect of Charon’s Tidal Damping on the Orbits of Pluto’s Three Moons

Pluto’s recently discovered minor moons, Nix and Hydra, have almost circular orbits, and are nearly coplanar with Charon, Pluto’s major moon. This is surprising because tidal interactions with Pluto are too weak to damp their eccentricities. We consider an alternative possibility: that Nix and Hydra circularize their orbits by exciting Charon’s eccentricity via secular interactions, and Charon in turn damps its own eccentricity by tidal interaction with Pluto. The timescale for this process can be less than the age of the Solar System, for plausible tidal parameters and moon masses. However, as we show numerically and analytically, the effects of the 2:1 and 3:1 resonant forcing terms between Nix and Charon complicate this picture. In the presence of Charon’s tidal damping, the 2:1 term forces Nix to migrate outward and the 3:1 term changes the eccentricity damping rate, sometimes leading to eccentricity growth. We conclude that this mechanism probably does not explain Nix and Hydra’s current orbits. Instead, we suggest that they were formed in-situ with low eccentricities. We also show that an upper limit on Nix’s migration speed sets a lower limit on Pluto-Charon’s tidal circularization timescale of > 10 yrs. Moreover, Hydra’s observed proper eccentricity may be explained by the 3:2 forcing by Nix. Subject headings: