The formation rate of short gamma-ray bursts and gravitational waves

Abstract

In this paper, we study the luminosity function and formation rate of short gamma-ray bursts (sGRBs). Firstly, we derive the Ep-Lp correlation using 16 sGRBs with redshift measurements and determine the pseudo redshifts of 284 Fermi sGRBs. Then, we use the Lynden-Bell c- method to study the luminosity function and formation rate of sGRBs without any assumptions. A strong evolution of luminosity L(z) (1+z)4.47 is found. After removing this evolution, the luminosity function is (L) L0 - 0.29 0.01 for dim sGRBs and (L) L0 - 1.07 0.01 for bright sGRBs, with the break point 8.26 × 1050 erg s-1. We also find that the formation rate decreases rapidly at z<1.0, which is different with previous works. The local formation rate of sGRBs is 7.53 events Gpc-3 yr-1. Considering the beaming effect, the local formation rate of sGRBs including off-axis sGRBs is 203.31+1152.09-135.54 events Gpc-3 yr-1. We also estimate that the event rate of sGRBs detected by the advanced LIGO and Virgo is 0.85+4.82-0.56 events yr-1 for NS-NS binary.