The Orbit and Albedo of Transneptunian Binary 1997 CQ29

Abstract

We have measured the separations and position angles of the two components of the binary transneptunian object 1997 CQ29 at eight epochs. From these data we are able to constrain the orbit and mass of this binary system. The best fitting orbit has an orbital period of P = 312+/-3 days. The orbital eccentricity is e = 0.45+/-0.03 and the semimajor axis is a = 8,010+/-80 km. The mass of the system is surprisingly low at 0.42+/-0.02 x 1018 kg. To account for the observed brightness consistent with the low mass and a range of plausible densities, the geometric albedo must be very high; for an assumed density of 1000 kg m-3 we find a red geometric albedo of pR = 0.37, an order of magnitude higher than has been generally assumed for transneptunian objects. If objects with comparably high albedos are common in the Kuiper belt, estimates of the mass of the belt must be significantly reduced. The semimajor axis of 1997 CQ29's orbit is 2.8% of the Hill radius of the primary, a value strikingly similar to this same ratio in other transneptunian binaries, main-belt binaries, and regular satellite systems.

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