Real-Time Optical Flux Limits From Gamma-Ray Bursts Measured By The GROCSE Experiment
Abstract
The Gamma-Ray Optical Counterpart Search Experiment (GROCSE) presents new experimental upper limits on the optical flux from gamma-ray bursts (GRBs). Our experiment consisted of a fully-automated very wide-field opto-electronic detection system that imaged locations of GRBs within a few seconds of receiving trigger signals provided by BATSE's real-time burst coordinate distribution network (BACODINE). The experiment acquired ~3800 observing hours, recording 22 gamma-ray burst triggers within 30 s of the start of the burst event. Some of these bursts were imaged while gamma-ray radiation was being detected by BATSE. We identified no optical counterparts associated with gamma-ray bursts amongst these events at the mV 7.0 to 8.5 sensitivity level. We find the ratio of the upper limit to the V-band optical flux, F, to the gamma-ray fluence, γ, from these data to be 2 × 10-18 < F/γ < 2 × 10-16.
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