An Imaging and Spectroscopic Study of Four Strong MgII Absorbers Revealed By GRB060418

TL;DR

This study combines imaging and spectroscopy to identify and analyze galaxies associated with four strong MgII absorbers seen in the afterglow of GRB060418, revealing their properties and relation to the GRB host.

Contribution

It provides the first detailed imaging and spectroscopic characterization of galaxies associated with MgII absorbers in a GRB afterglow spectrum, linking absorbers to typical galaxies at small impact parameters.

Findings

MgII absorbers are associated with typical galaxies at <10 kpc impact parameter.

Two disk galaxies confirmed at absorber redshifts, showing mature morphology.

Remaining absorbers linked to star-forming knots near the GRB host.

Abstract

We present results from an imaging and spectroscopic study of four strong MgII absorbers of W(2796) >~ 1 Ang revealed by the afterglow of GRB060418 at z_GRB=1.491. These absorbers, at z=0.603,0.656,1.107 and z_GRB, exhibit large ion abundances that suggest neutral gas column densities characteristic of damped Lya systems. The imaging data include optical images obtained using LRIS on the Keck I telescope and using ACS on board HST, and near-infrared H-band images obtained using PANIC on the Magellan Baade Telescope and K'-band images obtained using NIRC2 with LGSAO on the Keck II telescope. These images reveal six distinct objects at <~ 3.5'' of the afterglow's position, two of which exhibit well-resolved mature disk morphology, one shows red colors, and three are blue compact sources. Follow-up spectroscopic observations using LRIS confirm that one of the disk galaxies coincides with the MgII absorber at z=0.656. The observed broad-band spectral energy distributions of the second disk galaxy and the red source indicate that they are associated with the absorbers at z=0.603 and z=1.107, respectively. These results show that strong MgII absorbers identified in GRB afterglow spectra are associated with typical galaxies of luminosity ~ (0.1-1) L* at impact parameter <~ 10 h^-1 kpc. The close angular separation would preclude easy detections toward a bright quasar. Finally, we associate the remaining three blue compact sources with the GRB host galaxy, noting that they are likely star-forming knots located at projected distances 2-12 h^-1 kpc from the afterglow. At the afterglow's position, we derive a 2-sigma upper limit to the underlying SFR intensity of 0.0074 M_sun yr^-1 kpc^-2.