Metal Pollution of Low-Mass Population III Stars through Accretion of Interstellar Objects like `Oumuamua

Abstract

We calculate accretion mass of interstellar objects (ISOs) like `Oumuamua onto low-mass population III stars (Pop.~III survivors), and estimate surface pollution of Pop.~III survivors. An ISO number density estimated from the discovery of `Oumuamua is so high ( 0.2~au-3) that Pop.~III survivors have chances at colliding with ISOs 105 times per 1~Gyr. `Oumuamua itself would be sublimated near Pop.~III survivors, since it has small size, 100~m. However, ISOs with size 3~km would reach the Pop.~III survivor surfaces. Supposing an ISO cumulative number density with size larger than D is n D-α, Pop.~III survivors can accrete ISO mass 10-16M, or ISO iron mass 10-17M, if α < 4. This iron mass is larger than the accretion mass of interstellar medium (ISM) by several orders of magnitude. Taking into account material mixing in a convection zone of Pop.~III survivors, we obtain their surface pollution is typically [Fe/H] -8 in most cases, however the surface pollution of Pop.~III survivors with 0.8M can be [Fe/H] -6 because of the very shallow convective layer. If we apply to Pop.III survivors located at the Galactocentric distance of 8 kpc, the dependence of the metal pollustion is as follows. If α > 4, Pop.~III survivors have no chance at colliding with ISOs with D 3~km, and keep metal-free. If 3 < α < 4, Pop.~III survivors would be most polluted by ISOs up to [Fe/H] -7. If α < 3 up to D 10~km, Pop.~III survivors could hide in metal-poor stars so far discovered. Pop.~III survivors would be more polluted with decreasing the Galactocentric distance. Although the metal pollution depends on α and the Galactocentric distance, we first show the importance of ISOs for the metal pollution of Pop.~III survivors.