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Letter
Nature 454, 188-191 (10 July 2008) | doi:10.1038/nature07078; Received 14 March 2008; Accepted 29 April 2008
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Rotational breakup as the origin of small binary asteroids
Kevin J. Walsh1,2, Derek C. Richardson2 & Patrick Michel1
- UMR 6202 Cassiopée, University of Nice-Sophia Antipolis, CNRS, Observatoire de la Côte d'Azur, BP 4229, 06304 Nice Cedex 4, France
- Department of Astronomy, University of Maryland, College Park, Maryland 20742-2421, USA
Correspondence to: Kevin J. Walsh1,2 Correspondence and requests for materials should be addressed to K.W. (Email: kwalsh@oca.eu).
Abstract
Asteroids with satellites are observed throughout the Solar System, from subkilometre near-Earth asteroid pairs to systems of large and distant bodies in the Kuiper belt. The smallest and closest systems are found among the near-Earth and small inner main-belt asteroids, which typically have rapidly rotating primaries and close secondaries on circular orbits. About 15 per cent of near-Earth and main-belt asteroids with diameters under 10 km have satellites1, 2. The mechanism that forms such similar binaries in these two dynamically different populations was hitherto unclear. Here we show that these binaries are created by the slow spinup of a 'rubble pile' asteroid by means of the thermal YORP (Yarkovsky–O'Keefe–Radzievskii–Paddack) effect. We find that mass shed from the equator of a critically spinning body accretes into a satellite if the material is collisionally dissipative and the primary maintains a low equatorial elongation. The satellite forms mostly from material originating near the primary's surface and enters into a close, low-eccentricity orbit. The properties of binaries produced by our model match those currently observed in the small near-Earth and main-belt asteroid populations, including 1999 KW4 (refs 3, 4).
- UMR 6202 Cassiopée, University of Nice-Sophia Antipolis, CNRS, Observatoire de la Côte d'Azur, BP 4229, 06304 Nice Cedex 4, France
- Department of Astronomy, University of Maryland, College Park, Maryland 20742-2421, USA
Correspondence to: Kevin J. Walsh1,2 Correspondence and requests for materials should be addressed to K.W. (Email: kwalsh@oca.eu).
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