Collimated Jet or Expanding Outflow: Possible Origins of GRBs and X-Ray Flashes

Abstract

We investigate the dynamics of an injected outflow propagating in a progenitor in the context of the collapsar model for gamma-ray bursts (GRBs) through two dimensional axisymmetric relativistic hydrodynamic simulations. Initially, we locally inject an outflow near the center of a progenitor. We calculate 25 models, in total, by fixing its total input energy to be 1051 ergs s-1 and radius of the injected outflow to be 7× 107 cm while varying its bulk Lorentz factor, 0 = 1.05 5, and its specific internal energy, ε0/c2 = 0.1 30. The injected outflow propagates in the progenitor and drives a large-scale outflow or jet. We find a smooth but dramatic transition from a collimated jet to an expanding outflow among calculated models. The maximum Lorentz factor is, on the other hand, sensitive to both of 0 and ε0; roughly max 0 (1+ε0/c2). Our finding will explain a smooth transition between the GRBs, X-ray rich GRBs (XRRs) and X-ray Flashes (XRFs) by the same model but with different ε0 values.

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