SPH simulations of high-speed collisions between asteroids and comets

Abstract

We studied impact processes by means of smoothed-particle hydrodynamics (SPH) simulations. The method was applied to modeling formation of main-belt families during the cometary bombardment (either early or late, \,3.85\, Gy ago). If asteroids were bombarded by comets, as predicted by the Nice model, hundreds of asteroid families (catastrophic disruptions of diameter D 100\, km bodies) should have been created, but the observed number is only 20. Therefore we computed a standard set of 125 simulations of collisions between representative D = 100\, km asteroids and high-speed icy projectiles (comets). According to our results, the largest remnant mass M lr is similar as in low-speed collisions, due to appropriate scaling with the effective strength Q eff, but the largest fragment mass M lf exhibits systematic differences - it is typically smaller for craterings and bigger for super-catastrophic events. This trend does not, however, explain the non-existence of old families. The respective parametric relations can be used in other statistical (Monte-Carlo) models to better understand collisions between asteroidal and cometary populations.

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