The host galaxy of GRB031203: a new spectroscopic study

TL;DR

This study provides a detailed spectroscopic analysis of the nearby host galaxy of GRB031203, revealing its low metallicity, active star formation, and properties consistent with other local gamma-ray burst hosts, while examining its evolution over time.

Contribution

It offers new spectroscopic data and analysis of HG031203, characterizing its metallicity, star formation, and interstellar medium, and compares it with other local GRB host galaxies.

Findings

HG031203 is a metal-poor, actively star-forming galaxy.

The galaxy shows no compelling evidence of evolution in reddening over a month.

It is an outlier in the metallicity-luminosity relation among similar galaxies.

Abstract

The host galaxy of the long-duration gamma-ray burst (GRB) 031203 (HG031203) offers a precious opportunity to study in detail the environment of a nearby GRB. The aim is to better characterize this galaxy and analyse the possible evolution with time of the spectroscopic quantities we derive. We analyse HG031203 using a set of optical spectra acquired with the ESO-VLT and Keck telescope. We compare the metallicity, luminosity and star formation properties of this galaxy and of the other supernova-long gamma-ray burst hosts in the local universe (z<0.2) against the KPNO International Spectroscopic Survey. HG031203 is a metal poor, actively star forming galaxy (star formation rate of 12.9+/-2.2 {M_{sun} yr^-1) at z=0.1054. From the emission-line analysis we derive an intrinsic reddening E_{HG}(B-V)\approx 0.4. This parameter doesn't show a compelling evidence of evolution at a month time-scale. We find an interstellar medium temperature of 12500 K and an electronic density of N_{e}=160 cm^-3. After investigating for possible Wolf-Rayet emission features in our spectra, we consider dubious the classification of HG031203 as a Wolf-Rayet galaxy. Long gamma-ray burst (LGRB) and supernova hosts in the local universe (z<0.2) show, on average, specific star formation rates higher than ordinary star forming galaxy at the same redshift. On the other hand, we find that half of the hosts follows the metallicity-luminosity relation found for star-burst galaxies; HG031203 is a clear outlier, with its really low metallicity (12+\log{{O/H}}=8.12+/-0.04).