The size, shape, density and ring of the dwarf planet Haumea from a   stellar occultation

J. L. Ortiz; P. Santos-Sanz; B. Sicardy; G. Benedetti-Rossi; D.; B\'erard; N. Morales; R. Duffard; F. Braga-Ribas; U. Hopp; C. Ries; V.; Nascimbeni; F. Marzari; V. Granata; A. P\'al; C. Kiss; T. Pribulla; R.; Kom\v{z}\'ik; K. Hornoch; P. Pravec; P. Bacci; M. Maestripieri; L. Nerli; L.; Mazzei; M. Bachini; F. Martinelli; G. Succi; F. Ciabattari; H. Mikuz; A.; Carbognani; B. Gaehrken; S. Mottola; S. Hellmic; F. L. Rommel; E.; Fern\'andez-Valenzuela; A. Campo Bagatin; S. Cikota; A. Cikota; J. Lecacheux,; R. Vieira-Martins; J. I. B. Camargo; M. Assafin; F. Colas; R. Behrend; J.; Desmars; E. Meza; A. Alvarez-Candal; W. Beisker; A. R. Gomes-Junior; B. E.; Morgado; F. Roques; F. Vachier; J. Berthier; T. G. Mueller; J. M. Madiedo; O.; Unsalan; E. Sonbas; N. Karaman; O. Erece; D. T. Koseoglu; T. Ozisik; S.; Kalkan; Y. Guney; M. S. Niaei; O. Satir; C. Yesilyaprak; C. Puskullu; A.; Kabas; O. Demircan; J. Alikakos; V. Charmandaris; G. Leto; J. Ohlert; J. M.; Christille; R. Szak\'ats; A. Tak\'acsn\'e Farkas; E. Varga-Vereb\'elyi; G.; Marton; A. Marciniak; P. Bartczak; T. Santana-Ros; M. Butkiewicz-B\k{a}k; G.; Dudzi\'nski; V. Al\'i-Lagoa; K. Gazeas; L. Tzouganatos; N. Paschalis; V.; Tsamis; A. S\'anchez-Lavega; S. P\'erez-Hoyos; R. Hueso; J. C. Guirado; V.; Peris; R. Iglesias-Marzoa

arXiv:2006.03113·astro-ph.EP·June 8, 2020

The size, shape, density and ring of the dwarf planet Haumea from a stellar occultation

J. L. Ortiz, P. Santos-Sanz, B. Sicardy, G. Benedetti-Rossi, D., B\'erard, N. Morales, R. Duffard, F. Braga-Ribas, U. Hopp, C. Ries, V., Nascimbeni, F. Marzari, V. Granata, A. P\'al, C. Kiss, T. Pribulla, R., Kom\v{z}\'ik, K. Hornoch, P. Pravec, P. Bacci, M. Maestripieri

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TL;DR

This study used stellar occultation data to determine Haumea's size, shape, density, and ring presence, revealing a complex, elongated body with a newly discovered ring system and refined physical parameters.

Contribution

It provides the first detailed characterization of Haumea's 3D shape, confirms its ring system, and refines estimates of its size, density, and albedo, advancing understanding of transneptunian dwarf planets.

Findings

01

Haumea has a ring at ~2287 km radius with 0.5 opacity.

02

Haumea's axes are 1704 km x 1138 km, indicating a triaxial shape.

03

Density is estimated at 1885 kg/m^3, smaller than previous estimates.

Abstract

Among the four known transneptunian dwarf planets, Haumea is an exotic, very elongated, and fast rotating body. In contrast to the other dwarf planets, its size, shape, albedo, and density are not well constrained. Here we report results of a multi-chord stellar occultation, observed on 2017 January 21. Secondary events observed around the main body are consistent with the presence of a ring of opacity 0.5, width 70 km, and radius 2,287 $_{- 45}^{+ 75}$ km. The Centaur Chariklo was the first body other than a giant planet to show a ring system and the Centaur Chiron was later found to possess something similar to Chariklo's rings. Haumea is the first body outside the Centaur population with a ring. The ring is coplanar with both Haumea's equator and the orbit of its satellite Hi'iaka. Its radius places close to the 3:1 mean motion resonance with Haumea's spin period. The occultation by the…

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