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Binary asteroid (31) Euphrosyne: ice-rich and nearly spherical
Type of publication: Article
Citation: Yang2020b
Publication status: Published
Journal: Astronomy and Astrophysics
Volume: 641
Year: 2020
Month: sep
Pages: A80
Address: AA(European Southern Observatory (ESO), Alonso de Cordova 3107, 1900, Casilla Vitacura, Santiago, Chile), AB(Institute of Astronomy, Faculty of Mathematics and Physics, Charles University, V Holešovičkách 2, 18000, Prague, Czech Republic), AC(Université C
ISSN: 0004-6361
URL: https://ui.adsabs.harvard.edu/...
Abstract:
Aims: Asteroid (31) Euphrosyne is one of the biggest objects in the asteroid main belt and it is also the largest member of its namesake family. The Euphrosyne family occupies a highly inclined region in the outer main belt and contains a remarkably large number of members, which is interpreted as an outcome of a disruptive cratering event.
Methods: The goals of this adaptive-optics imaging study are threefold: to characterize the shape of Euphrosyne, to constrain its density, and to search for the large craters that may be associated with the family formation event.
Results: We obtained disk-resolved images of Euphrosyne using SPHERE/ZIMPOL at the ESO 8.2 m VLT as part of our large program (ID: 199.C-0074, PI: Vernazza). We reconstructed its 3D shape via the ADAM shape modeling algorithm based on the SPHERE images and the available light curves of this asteroid. We analyzed the dynamics of the satellite with the Genoid meta-heuristic algorithm. Finally, we studied the shape of Euphrosyne using hydrostatic equilibrium models.
Conclusions: Our SPHERE observations show that Euphrosyne has a nearly spherical shape with the sphericity index of 0.9888 and its surface lacks large impact craters. Euphrosyne's diameter is 268 ± 6 km, making it one of the top ten largest main belt asteroids. We detected a satellite of Euphrosyne - S/2019 (31) 1 - that is about 4 km across, on a circular orbit. The mass determined from the orbit of the satellite together with the volume computed from the shape model imply a density of 1665 ± 242 kg m-3, suggesting that Euphrosyne probably contains a large fraction of water ice in its interior. We find that the spherical shape of Euphrosyne is a result of the reaccumulation process following the impact, as in the case of (10) Hygiea. However, our shape analysis reveals that, contrary to Hygiea, the axis ratios of Euphrosyne significantly differ from those suggested by fluid hydrostatic equilibrium following reaccumulation.

The reduced images are only available at the CDS via anonymous ftp to http://cdsarc.u-strasbg.fr (ftp://130.79.128.5) or via http://cdsarc.u-strasbg.fr/viz-bin/cat/J/A+A/641/A80

Based on observations made with ESO Telescopes at the La Silla Paranal Observatory under program 199.C-0074 (PI Vernazza).

Userfields: ={10.1051/0004-6361/202038372, eprint: arXiv:2007.08059},
Keywords: asteroids: general, asteroids: individual: (31) Euphrosyne, Astrophysics - Earth and Planetary Astrophysics, methods: observational, minor planets, techniques: high angular resolution
Authors Yang, B.
Hanuš, J.
Carry, B.
Vernazza, P.
Brož, M.
Vachier, F.
Rambaux, N.
Marsset, M.
Chrenko, O.
Ševeček, P.
Viikinkoski, M.
Jehin, E.
Ferrais, M.
Podlewska-Gaca, E.
Drouard, A.
Marchis, F.
Birlan, M.
Benkhaldoun, Z.
Berthier, J.
Bartczak, P.
Dumas, C.
Dudziński, G.
Ďurech, J.
Castillo-Rogez, J.
Cipriani, F.
Colas, F.
Fetick, R.
Fusco, T.
Grice, J.
Jorda, L.
Kaasalainen, M.
Kryszczynska, A.
Lamy, P.
Marciniak, A.
Michalowski, T.
Michel, P.
Pajuelo, M.
Santana-Ros, T.
Tanga, P.
Vigan, A.
Witasse, O.
Added by: [JoH]
Total mark: 0
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