Selection Effects on the Observed Redshift Dependence of GRB Jet Opening Angles

Abstract

Apparent redshift dependence of the jet opening angles (θ j) of gamma-ray bursts (GRBs) is observed from current GRB sample. We investigate whether this dependence can be explained with instrumental selection effects and observational biases by a bootstrapping method. Assuming that (1) the GRB rate follows the star formation history and the cosmic metallicity history and (2) the intrinsic distributions of the jet-corrected luminosity (L γ) and θ j are a Gaussian or a power-law function, we generate a mock Swift/BAT sample by considering various instrumental selection effects, including the flux threshold and the trigger probability of BAT, the probabilities of a GRB jet pointing to the instrument solid angle and the probability of redshift measurement. Our results well reproduce the observed θ j-z dependence. We find that in case of Lγ θ j2 good consistency between the mock and observed samples can be obtained, indicating that both L γ and θ j are degenerate for a flux-limited sample. The parameter set (L γ, θ j)=(4.9× 1049 erg\ s-1,\ 0.054 rad) gives the best consistency for the current Swift GRB sample. Considering the beaming effect, the derived intrinsic local GRB rate accordingly is 2.85× 102 Gpc-3 yr-1, inferring that 0.59% of Type Ib/c SNe may be accompanied by a GRB.