GRB 060605: multi-wavelength analysis of the first GRB observed using integral field spectroscopy

TL;DR

This paper presents a comprehensive multi-wavelength analysis of GRB 060605, including integral field spectroscopy, revealing details about its environment, energetics, and jet structure, and providing insights into its afterglow evolution.

Contribution

It is the first to combine integral field spectroscopy with multi-wavelength data to analyze a GRB's environment and afterglow properties in detail.

Findings

GRB 060605 occurred at redshift z=3.773.

The fireball expanded into a constant-density medium.

The jet had a narrow opening angle of about 2.4 degrees.

Abstract

The long and relatively faint gamma-ray burst GRB 060605 detected by \emph{Swift}/BAT lasted about 20 sec. Its afterglow could be observed with \emph{Swift}/XRT for nearly 1 day, while \emph{Swift}/UVOT could detect the afterglow during the first 6 hours after the event. Here, we report on integral field spectroscopy of its afterglow performed with PMAS/PPak mounted at the Calar Alto 3.5 m telescope. In addition, we report on a detailed analysis of XRT and UVOT data and on the results of deep late-time VLT observations that reveal the GRB host galaxy. We find that the burst occurred at a redshift of $z$=3.773, possibly associated with a faint, $R_C=26.4 \pm 0.3$ host. Based on the optical and X-ray data, we deduce information on the SED of the afterglow, the position of the cooling frequency in the SED, the nature of the circumburst environment, its collimation factor, and its energetics. We find that the GRB fireball was expanding into a constant-density medium and that the explosion was collimated with a narrow half-opening angle of about 2.4 degrees. The initial Lorentz factor of the fireball was about 250; however, its beaming-corrected energy release in the gamma-ray band was comparably low. The optical, X-ray afterglow, on the other hand, was rather luminous. Finally, we find that the data are consistent within the error bars with an achromatic evolution of the afterglow during the suspected jet break time at about 0.27 days after the burst.