English

Haumea's Shape and Composition

Earth and Planetary Astrophysics 2019-06-12 v1

Abstract

We have calculated the figure of equilibrium of a rapidly rotating, differentiated body to determine the shape, structure, and composition of the dwarf planet Haumea. Previous studies of Haumea's light curve have suggested Haumea is a uniform triaxial ellipsoid consistent with a Jacobi ellipsoid with axes 960×774×513\approx 960 \times 774 \times 513 km, and bulk density 2600kgm3\approx 2600 \, {\rm kg} \, {\rm m}^{-3}. In contrast, observations of a recent stellar occultation by Haumea indicate its axes are 1161×852×523\approx 1161 \times 852 \times 523 km and its bulk density 1885kgm3\approx 1885 \, {\rm kg} \, {\rm m}^{-3}; these results suggest that Haumea cannot be a fluid in hydrostatic equilibrium and must be partially supported by interparticle forces. We have written a code to reconcile these contradictory results and to determine if Haumea is in fact a fluid in hydrostatic equilibrium. The code calculates the equilibrium shape, density, and ice crust thickness of a differentiated Haumea after imposing (semi-) axes lengths aa and bb. We find Haumea is consistent with a differentiated triaxial ellipsoid fluid in hydrostatic equilibrium with axes of best fit aa = 1050 km, bb = 840 km, and cc = 537 km. This solution for Haumea has ρavg=2018kgm3\rho_{\rm avg} = 2018 \, {\rm kg} \, {\rm m}^{-3}, ρcore=2680kgm3\rho_{\rm core} = 2680 \, {\rm kg} \, {\rm m}^{-3}, and core axes ac=883a_{\rm c} = 883 km, bc=723b_{\rm c} = 723 km, and cc=470c_{\rm c}=470 km, which equates to an ice mantle comprising 17%\sim 17\% of Haumea's volume and ranging from 67 to 167 km in thickness. The thick ice crust we infer allows for Haumea's collisional family to represent only a small fraction of Haumea's pre-collisional ice crust. For a wide range of parameters, the core density we calculate for Haumea suggests that today the core is composed of hydrated silicates and likely underwent serpentinization in the past.

Cite

@article{arxiv.1904.00522,
  title  = {Haumea's Shape and Composition},
  author = {Emilie T. Dunham and Steven J. Desch and Luke Probst},
  journal= {arXiv preprint arXiv:1904.00522},
  year   = {2019}
}

Comments

15 pages, 3 figures, accepted for publication in ApJ

R2 v1 2026-06-23T08:24:40.952Z