Article ID Journal Published Year Pages File Type
1774204 Icarus 2011 19 Pages PDF
Abstract

Asteroid sizes can be directly measured by observing occultations of stars by asteroids. When there are enough observations across the path of the shadow, the asteroid’s projected silhouette can be reconstructed. Asteroid shape models derived from photometry by the lightcurve inversion method enable us to predict the orientation of an asteroid for the time of occultation. By scaling the shape model to fit the occultation chords, we can determine the asteroid size with a relative accuracy of typically ∼10%. We combine shape and spin state models of 44 asteroids (14 of them are new or updated models) with the available occultation data to derive asteroid effective diameters. In many cases, occultations allow us to reject one of two possible pole solutions that were derived from photometry. We show that by combining results obtained from lightcurve inversion with occultation timings, we can obtain unique physical models of asteroids.

Research highlights► Asteroid sizes can be measured by observing occultations of stars by asteroids. ► We combine shape models of 44 asteroids with the available occultation data. ► We derive asteroid effective diameters. ► In many cases, we solve the ambiguity of the pole direction. ► Lightcurve inversion combined with occultations leads to unique physical models.

Related Topics
Physical Sciences and Engineering Earth and Planetary Sciences Space and Planetary Science
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