Statistical search for angular non-stationarities of long gamma-ray burst jets using Swift data

Abstract

In Budai et al. (2020) we argued that angular non-stationarities of gamma-ray burst (GRB) jets can result in a statistical connection between the angle values deduced from jet break times and the variabilities of prompt light curves. The connection should be an anti-correlation if luminosity densities of jets follow a power-law or a uniform profile, and a correlation if they have a Gaussian profile. In this follow-up paper, we search for the connection by measuring Spearman's rank correlation coefficient in a sample of 19 long GRBs observed by the Swift satellite. Using 16 of the GRBs with well-defined angle measurements, we find = -0.20-0.09+0.09 and p = 0.46-0.19+0.23. Adding three more GRBs to the sample, each with a pair of equally possible angle values, can strengthen the anti-correlation to =-0.31-0.08+0.07 and p=0.19-0.09+0.14. We show that these results are incompatible with non-stationary jets having Gaussian profiles, and that \!100 GRBs with observed afterglows would be needed to confirm the potential existence of the angle-variability anti-correlation with 3σ significance. If the connection is real, GRB jet angles would be constrainable from prompt gamma light curves, without the need of afterglow observations.