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Beyond Point Masses. III. Detecting Haumea’s Nonspherical Gravitational Field

Authors :
Benjamin C. N. Proudfoot
Darin A. Ragozzine
William Giforos
Will M. Grundy
Mariah MacDonald
William J. Oldroyd
Source :
The Planetary Science Journal, Vol 5, Iss 3, p 69 (2024)
Publication Year :
2024
Publisher :
IOP Publishing, 2024.

Abstract

The dwarf planet Haumea is one of the most compelling trans-Neptunian objects to study, hosting two small, dynamically interacting satellites, a family of nearby spectrally unique objects, and a ring system. Haumea itself is extremely oblate due to its 3.9 hr rotation period. Understanding the orbits of Haumea’s satellites, named Hi’iaka and Namaka, requires detailed modeling of both satellite–satellite gravitational interactions and satellite interactions with Haumea’s nonspherical gravitational field (parameterized here as J _2 ). Understanding both of these effects allows for a detailed probe of the satellites’ masses and Haumea’s J _2 and spin pole. Measuring Haumea’s J _2 provides information about Haumea’s interior, possibly determining the extent of past differentation. In an effort to understand the Haumea system, we have performed detailed non-Keplerian orbit fitting of Haumea’s satellites using a decade of new, ultra-precise observations. Our fits detect Haumea’s J _2 and spin pole at ≳2.5 σ confidence. Degeneracies present in the dynamics prevent us from precisely measuring Haumea’s J _2 with the current data, but future observations should enable a precise measurement. Our dynamically determined spin pole shows excellent agreement with past results, illustrating the strength of non-Keplerian orbit fitting. We also explore the spin–orbit dynamics of Haumea and its satellites, showing that axial precession of Hi’iaka may be detectable over decadal timescales. Finally, we present an ephemeris of the Haumea system over the coming decade, enabling high-quality observations of Haumea and its satellites for years to come.

Details

Language :
English
ISSN :
26323338
Volume :
5
Issue :
3
Database :
Directory of Open Access Journals
Journal :
The Planetary Science Journal
Publication Type :
Academic Journal
Accession number :
edsdoj.03a7af21b884b5db52ab2d23531d80b
Document Type :
article
Full Text :
https://doi.org/10.3847/PSJ/ad26e9