Is GRB 170817A Alone?

Chuan Yue, Qian Hu, Fu-Wen Zhang, Yun-Feng Liang, Zhi-Ping Jin, Yuan-Chuan Zou, Yi-Zhong Fan, Da-Ming Wei

Published 2017-10-16Version 1

GRB 170817A is the first short gamma-ray burst (GRB) with direct detection of the gravitational wave radiation and also the spectroscopically identified macronova emission (i.e., AT2017gfo). The prompt emission of this burst however is under-luminous in comparison with the other short GRBs with known redshift. In this work we examine whether GRB 170817A is indeed unique. We firstly show that GRB 130603B/macronova may be the on-beam "counterparts" of GRB 170817A/AT2017gfo, and the extremely dim afterglow emission of GRB 170817A may suggest a low number density ($\sim 10^{-4}~{\rm cm^{-3}}$) of its circum-burst medium. We then discuss whether GRB 070923, GRB 080121, GRB 090417A, GRB 111005A and GRB 170817A form a new group of very-nearby under-luminous GRBs originated from neutron star mergers. If the short events GRB 070923, GRB 080121 and GRB 090417A are indeed at a redshift of $\sim 0.076,0.046,0.088$, respectively, their isotropic energies of the prompt emission are $\sim 10^{47}$ erg and thus comparable to the rest two events. The non-detection of optical counterparts of GRB 070923, GRB 080121, GRB 090417A and GRB 111005A, however, strongly suggests that the macronovae from neutron star mergers are significantly diverse in luminosities or alternatively there is the other origin channel (for instance, the white dwarf and black hole mergers). We finally suggest that GW170817/GRB 170817A are likely not alone and similar events will be detected by the upgrading/upcoming gravitational wave detectors and the electromagnetic monitors.