Abstract
We present observations of the X-ray afterglow of GRB 050408, a gamma-ray burst discovered by HETE-II. Swift began observing the field 42 min after the burst, performing follow-up over a period of 38 d (thus spanning three decades in time). The X-ray light curve showed a steepening with time, similar to many other afterglows. However, the steepening was unusually smooth, over the duration of the XRT observation, with no clear break time. The early decay was too flat to be described in terms of standard models. We therefore explore alternative explanations, such as the presence of a structured afterglow or of long-lasting energy injection into the fireball from the central GRB engine. The lack of a sharp break puts constraints on these two models. In the former case, it may indicate that the angular energy profile of the jet was not a simple power law, while in the second model it implies that injection did not stop abruptly. The late decay may be due either to a standard afterglow (that is with no energy injection), or to a jetted outflow still being refreshed. A significant amount of absorption was present in the X-ray spectrum, corresponding to a rest-frame hydrogen column density cm-2, indicative of a dense environment.
Highlights
The Swift Gamma-Ray Burst Explorer (Gehrels et al 2004), designed to study gamma-ray bursts (GRBs), has unique characteristics allowing the prompt observation of GRB afterglows
We present observations of the X-ray afterglow of GRB 050408, a gamma-ray burst discovered by HETE-II
A significant amount of absorption was present in the X-ray spectrum, corresponding to a rest-frame hydrogen column density NH = 1.2−+00..34 × 1022 cm−2, indicative of a dense environment
Summary
The Swift Gamma-Ray Burst Explorer (Gehrels et al 2004), designed to study gamma-ray bursts (GRBs), has unique characteristics allowing the prompt observation of GRB afterglows. This has opened up the opportunity to study the previously unexplored early phases of their evolution. An optical counterpart was discovered inside the SXC error circle (de Ugarte Postigo et al 2005), using the 1 m and 6 m telescopes at the Special Astrophysical Observatory This object was later seen to fade, confirming its afterglow. The times quoted are with respect to the HETE-II trigger time
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