Probing the Nature of High-Redshift Long GRB 250114A and Its Magnetar Central Engine

Abstract

GRB 250114A is a long-duration gamma-ray burst (GRB) which triggered the Swift/BAT with a spectroscopic high-redshift at z = 4.732. The light curve of the prompt emission is composed of three distinct emission episodes, which are separated by quiescent gaps ranging from tens to hundreds of seconds. While the X-ray light curve exhibits the canonical X-ray emission which is composed of several power-law segments superposition of a giant X-ray flare. More interestingly, there is still significant X-ray emission during the quiescent time in the prompt emission, suggesting a continuously active central engine whose power fluctuates across the γ-ray detectability threshold. In this paper, we propose a magnetar as the central engine of GRB 250114A by fitting the X-ray light curve, and infer a magnetic field strength B p=13.24+1.73-5.84 \, ×1015\ G and an initial spin period P0=14.31+0.93-3.16 \, ms of magnetar, with a jet correction, fall within a reasonable range. Furthermore, we also compare the prompt emission, X-ray afterglow, E p-Eγ,iso, and -distribution of GBR 250114A with those of other high-z sample-GRBs, and find no significant statistical differences between them.

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