Binary asteroid population. 2. Anisotropic distribution of orbit poles of small, inner main-belt binaries

Details Binary asteroid population. 2. Anisotropic distribution of orbit poles of small, inner main-belt binaries Binary asteroid population. 2. Anisotropic distribution of orbit poles of small, inner main-belt binaries

Mar 2012

adsabs.harvard.edu/cgi-bin/nph-data_query?bibcode=2012icar..218..125p&link_type=abstract

Icarus, Volume 218, Issue 1, p. 125-143.

Computer Science

Scientific paper

Our photometric observations of 18 main-belt binary systems in more than one apparition revealed a strikingly high number of 15 having positively re-observed mutual events in the return apparitions. Our simulations of the survey showed that it cannot be due to an observational selection effect and that the data strongly suggest that poles of mutual orbits between components of binary asteroids in the primary size range 3-8 km are not distributed randomly: The null hypothesis of an isotropic distribution of the orbit poles is rejected at a confidence level greater than 99.99%. Binary orbit poles concentrate at high ecliptic latitudes, within 30° of the poles of the ecliptic. We propose that the binary orbit poles oriented preferentially up/down-right are due to either of the two processes: (i) the YORP tilt of spin axes of their parent bodies toward the asymptotic states near obliquities 0° and 180° (pre-formation mechanism) or (ii) the YORP tilt of spin axes of the primary components of already formed binary systems toward the asymptotic states near obliquities 0° and 180° (post-formation mechanism). The alternative process of elimination of binaries with poles closer to the ecliptic by dynamical instability, such as the Kozai effect due to gravitational perturbations from the Sun, does not explain the observed orbit pole concentration. This is because for close binary asteroid systems, the gravitational effects of primary's irregular shape dominate the solar-tide effect.

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