Accretion onto a Primordial Protostar

Abstract

We present a three-dimensional numerical simulation that resolves the formation process of a Population III star down to a scale of ~100 AU. The simulation is initialized on the scale of a dark matter halo of mass ~106 Msun that virializes at z~20. It then follows the formation of a fully-molecular central core, and traces the accretion from the diffuse dust-free cloud onto the protostellar core for as long as ~104 yr, at which time the core has grown to ~50 Msun. We find that the accretion rate starts very high, ~0.1 Msun yr-1, and declines rapidly thereafter approaching a power-law temporal scaling. Asymptotically, at times t > 103 yr after core formation, the stellar mass grows approximately as Mstar=20 Msun (t/103 yr)0.4. Earlier on, accretion is faster with Mstar t0.75. By extrapolating this growth over the full lifetime of very massive stars, t~3x106 yr, we obtain the conservative upper limit Mstar < 500 Msun. The actual stellar mass is, however, likely to be significantly smaller than this mass limit due to radiative and mechanical feedback from the protostar.

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