A peculiarly long-duration gamma-ray burst from binary neutron star merger

Jun Yang, Bin-Bin Zhang, Shunke Ai, Zi-Ke Liu, Xiangyu Ivy Wang, Ye Li, Hou-Jun Lü, Bing Zhang

Published 2022-04-27Version 1

Some recent findings have shown that the duration of gamma-ray burst (GRB), although crucially related to the GRB central engine time scale, is not determinative in inferring the GRB origins in terms of their progenitors. In this paper, we report a peculiarly long-duration gamma-ray burst, GRB 211211A, that is associated with a kilonova in optical and near-infrared bands and is therefore likely the result of a binary neutron star merger. The burst broadly resembles the properties of GRB 060614 but with a much higher brightness in its light curve and harder spectra in both the main and extended emission phases, making it difficult to be explained as a short GRB with soft extended emission. Such a genuinely long-duration GRB suggests that merger product is likely a magnetar, which powers up the burst through magnetic and rotation energy for at least $\sim 70$ seconds.