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The Asteroid Veritas: An intruder in a family named after it? |
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| Authors: | Patrick Michel Martin Jutzi |
| Institution: | a University of Nice-Sophia Antipolis, CNRS, Observatoire de la Côte d’Azur, Cassiopée Laboratory, B.P. 4229, 06304 Nice Cedex 4, France b Earth and Planetary Sciences, University of California, 1156 High Street, Santa Cruz, CA 95064, USA c Department of Astronomy, University of Maryland, College Park, MD 20742-2421, USA d Physicalisches Institut, University of Bern, Sidlerstrasse 5, CH-3012 Bern, Switzerland |
| Abstract: | The Veritas family is located in the outer main belt and is named after its apparent largest constituent, Asteroid (490) Veritas. The family age has been estimated by two independent studies to be quite young, around 8 Myr. Therefore, current properties of the family may retain signatures of the catastrophic disruption event that formed the family. In this paper, we report on our investigation of the formation of the Veritas family via numerical simulations of catastrophic disruption of a 140-km-diameter parent body, which was considered to be made of either porous or non-porous material, and a projectile impacting at 3 or 5 km/s with an impact angle of 0° or 45°. Not one of these simulations was able to produce satisfactorily the estimated size distribution of real family members. Based on previous studies devoted to either the dynamics or the spectral properties of the Veritas family, which already treated (490) Veritas as a special object that may be disconnected from the family, we simulated the formation of a family consisting of all members except that asteroid. For that case, the parent body was smaller (112 km in diameter), and we found a remarkable match between the simulation outcome, using a porous parent body, and the real family. Both the size distribution and the velocity dispersion of the real reduced family are very well reproduced. On the other hand, the disruption of a non-porous parent body does not reproduce the observed properties very well. This is consistent with the spectral C-type of family members, which suggests that the parent body was porous and shows the importance of modeling the effect of this porosity in the fragmentation process, even if the largest members are produced by gravitational reaccumulation during the subsequent gravitational phase. As a result of our investigations, we conclude that it is very likely that the Asteroid (490) Veritas and probably several other small members do not belong to the family as originally defined, and that the definition of this family should be revised. Further investigations will be performed to better constrain the definitions and properties of other asteroid families of different types, using the appropriate model of fragmentation. The identification of very young families in turn will continue to serve as a tool to check the validity of numerical models. |
| Keywords: | Asteroids Asteroids Composition Collisional physics Impact processes |
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