Shape, Thermal and Surface Properties determination of a Candidate Spacecraft Target Asteroid (175706) 1996 FG3

Abstract

In this paper, a 3D convex shape model of (175706) 1996 FG3, which consists of 2040 triangle facets and 1022 vertices, is derived from the known lightcurves. The best-fit orientation of the asteroid's spin axis is determined to be λ =237.7 and β=-83.8 considering the observation uncertainties, and its rotation period is 3.5935 h . Using the derived shape model, we adopt the so-called advanced thermophysical model (ATPM) to fit three published sets of mid-infrared observations of 1996 FG3 Wolters2011,Walsh2012, so as to evaluate its surface properties. Assuming the primary and the secondary bear identical shape, albedo, thermal inertia and surface roughness, the best-fit parameters are obtained from the observations. The geometric albedo and effective diameter of the asteroid are reckoned to be p v=0.0450.002, D eff=1.69+0.05-0.02 km. The diameters of the primary and secondary are determined to be D1=1.63+0.04-0.03 km and D2=0.45+0.04-0.03 km, respectively. The surface thermal inertia is derived to be a low value of 8040 Jm-2s-0.5K-1 with a roughness fraction f R of 0.8+0.2-0.4. This indicates that the primary possibly has a regolith layer on its surface, which is likely to be covered by a mixture of dust, fragmentary rocky debris and sand. The minimum regolith depth is estimated to be 520 mm from the simulations of subsurface temperature distribution, indicating that 1996 FG3 could be a very suitable target for a sample return mission.