New insights on the binary asteroid 121 Hermione

P. Descamps; F. Marchis; J. Durech; J. Emery; A.W. Harris; M.; Kaasalainen; J. Berthier; J.-P. Teng-Chuen-Yu; A. Peyrot; L. Hutton; J.; Greene; J. Pollock; M. Assafin; R. Vieira-Martins; J.I.B. Camargo; F.; Braga-Ribas; F. Vachier; D.E. Reichart; K.M. Ivarsen; J.A. Crain; M.C.; Nysewander; A. P. Lacluyze; J.B. Haislip; R. Behrend; F. Colas; J. Lecacheux,; L. Bernasconi; R. Roy; P. Baudouin; L. Brunetto; S. Sposetti; F. Manzini

arXiv:0904.2033·astro-ph.EP·May 13, 2015

New insights on the binary asteroid 121 Hermione

P. Descamps, F. Marchis, J. Durech, J. Emery, A.W. Harris, M., Kaasalainen, J. Berthier, J.-P. Teng-Chuen-Yu, A. Peyrot, L. Hutton, J., Greene, J. Pollock, M. Assafin, R. Vieira-Martins, J.I.B. Camargo, F., Braga-Ribas, F. Vachier, D.E. Reichart, K.M. Ivarsen, J.A. Crain, M.C.

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TL;DR

This study provides new detailed observations of asteroid 121 Hermione, confirming its bifurcated shape, refining its size and orbit, and estimating its density and porosity through combined photometric, AO, and thermal data.

Contribution

It offers the first comprehensive multi-method analysis of 121 Hermione, including shape, size, satellite orbit, and physical properties, with improved accuracy over previous estimates.

Findings

01

Hermione is bifurcated and elongated.

02

Effective diameter is approximately 187 km.

03

Bulk density is estimated at 1.4 g/cm³, indicating high porosity.

Abstract

We report on the results of a six-month photometric study of the main-belt binary C-type asteroid 121 Hermione, performed during its 2007 opposition. We took advantage of the rare observational opportunity afforded by one of the annual equinoxes of Hermione occurring close to its opposition in June 2007. The equinox provides an edge-on aspect for an Earth-based observer, which is well suited to a thorough study of Hermione's physical characteristics. The catalog of observations carried out with small telescopes is presented in this work, together with new adaptive optics (AO) imaging obtained between 2005 and 2008 with the Yepun 8-m VLT telescope and the 10-m Keck telescope. The most striking result is confirmation that Hermione is a bifurcated and elongated body, as suggested by Marchis et al., (2005). A new effective diameter of 187 +/- 6 km was calculated from the combination of AO,…

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