Optical Limits on Precursor Emission from Gamma-Ray Bursts with Known Redshift

Abstract

Making use of virtual observatory data, we present the first comprehensive sample of optical observations conducted before the explosion times of all gamma-ray bursts (GRBs) with known redshifts. In total, the fields of 11 such GRBs were observed by the Near-Earth Asteroid Tracking (NEAT) program from years to hours before the bursts. Though the typical limiting magnitudes from these observations are R~20 mag, we find no evidence for a significant detection of a precursor. The deepest non-detection of precursor emission is from GRB 030329, reaching down to an absolute B-band magnitude of MB -18 mag from 6--1500 days (restframe) before the burst. This is of comparable brightness to supernovae, which, in some scenarios for GRB progenitors, are predicted to pre-date a GRB on similar timescales. Since sources cannot be localized to better than ~500 milliarcsecond (3 sigma) with current large-area surveys, unrelated supernovae or AGN activity in GRB hosts could be mistaken for genuine precursor emission. This possibility motivates the need for not only deep wide-field imaging, but imaging at high spatial resolution.

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