Author:
Avdellidou C.,Delbo M.,Morbidelli A.,Walsh K. J.,Munaibari E.,Bourdelle de Micas J.,Devogèle M.,Fornasier S.,Gounelle M.,van Belle G.
Abstract
The identification of meteorite parent bodies provides the context for understanding planetesimal formation and evolution as well as the key Solar System events they have witnessed. However, identifying such links has proven challenging and some appear ambiguous. Here, we identify that the family of asteroid fragments whose largest member is (161) Athor is the unique source of the rare EL enstatite chondrite meteorites, the closest meteorites to Earth in terms of their isotopic ratios. The Athor family was created by the collisional fragmentation of a parent body 3 Gyr ago in the inner main belt. We calculate that the diameter of the Athor family progenitor was 64 km in diameter, much smaller than the putative size of the EL original planetesimal. Therefore, we deduce that the EL planetesimal that accreted in the terrestrial planet region underwent a first catastrophic collision in that region, and one of its fragments suffered a more recent catastrophic collision in the main belt, generating the current source of the EL meteorites.
Subject
Space and Planetary Science,Astronomy and Astrophysics
Reference67 articles.
1. The AKARI IRC asteroid flux catalogue: updated diameters and albedos
2. Low-phase spectral reflectance and equivalent “geometric albedo” of meteorites powders
3. Bida T. A., Dunham E. W., Massey P., & Roe H. G. 2014, in Ground-based and Airborne Instrumentation for Astronomy V, eds. Ramsay S. K., McLean I. S., & Takami H., SPIE Conf. Ser., 9147, 91472N
4. Yarkovsky V-shape identification of asteroid families
5. Linking the collisional history of the main asteroid belt to its dynamical excitation and depletion
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