We have used the Atacama Large Millimeter Array (ALMA) to measure precise
absolute astrometric positions and detect the astrometric wobble of dwarf
planet Orcus and its satellite Vanth over a complete orbit. We also place upper
limits to the astrometric wobble induced by Dysnomia on dwarf planet Eris
around its orbit. From the Vanth-Orcus barycentric motion, we find a
Vanth-Orcus mass ratio of 0.16Β±0.02 -- the highest of any known planet or
dwarf planet. This large ratio is consistent with the hypothesis that Vanth is
a largely-intact impactor from a giant collision in the system, and that the
system has likely evolved to a double synchronous state. We find only an upper
limit of the barycenter motion of Eris, which implies a one sigma upper limit
to the Dysnomia-Eris mass ratio of 0.0085, close to the modeled transition
region between giant impact generated satellites which are largely intact
remnants of the original impactor and those which form out of reaccreted disk
material left over post-impact. The low albedo of Dysnomia leads us to
marginally favor the intact impactor scenario. We find that Dysnomia has
density of <1.2 g cmβ3, significantly lower than the 2.4 g cmβ3 of
Eris.Comment: Planetary Science Journal, in pres