Magnetar as Central Engine of Gamma-Ray Bursts: Quasi-Universal Jet, Event Rate and X-ray Luminosity Function of Dipole Radiations

Abstract

Early shallow-decaying X-ray afterglows of gamma-ray bursts (GRBs) may be attributed to the dipole radiations of newly-born magnetars. Assuming that the GRB jets powered by magnetars are quasi-universal, we find that the jet structure can be parameterized as a uniform jet with a luminosity of L j/ erg\ s-1=52.68+0.76-0.33 (1σ) and an opening angle θ j=2.10-1.28+1.90 (50\% confidence level), surrounding by a power-law decay component with an index of -4.00+0.27-0.37 (1σ). The inferred local GRB rate is =9.6 Gpc-3 yr-1 by including both the typical GRBs and LL-GRBs as the same population. The typical viewing angle is 3.3o, and may be 20o30o for LL-GRBs. The X-ray luminosity function of the dipole radiation wind can be empirically described by a broken power-law function with indices β1=0.78+0.16-0.15 and β2>1.6 broken at Lb, w/ erg\ s-1=48.51+0.53-0.65. In case of that the wind outflow is collimated and co-axial with the GRB jet, we find that the wind structure is similar to the GRB jet, i.e., L c, w/ erg\ s-1=48.38+0.30-0.48, θ c, w=2.65o-1.19o+0.1.73o, and k w=4.57+1.21-0.75. The observed correlation between the prompt gamma-ray luminosity and X-ray luminosity of the wind may be resulted from the viewing angle effect in such a jet-wind system. Discussion on survey with the X-ray instruments on board the Einstein\ Probe mission in the soft X-ray band for the jet and wind emission is also presented.