Short-duration GRB 250221A Afterglow Driven by Two-Component Jets from the merger of a compact star

Abstract

GRB 250221A is a short gamma-ray burst (GRB) at redshift z=0.768, with a duration of 1.8 s and no extended emission in either Swift/Burst Alert Telescope or Konus-Wind bands. A remarkable rebrightening feature in both optical and X-ray bands was observed at 0.6 days after the burst trigger, but no supernova or kilonova signature was detected. The burst properties and empirical correlations or distributions (e.g., duration, spectral hardness, location in the Amati correlation, -value, f eff parameter, and physical offset) favor a compact binary merger origin. However, a dense circumburst medium with n 80~cm-3, obtained by adopting the energy injection into a jet to interpret the late-time rebrightening is inconsistent with the compact binary merger origin. In this paper, we propose a two-component jet model to explain the multiwavelength afterglow observations of GRB 250221A, in which the relativistic narrow jet ( θc 3.8) produces the prompt and the early decay afterglow emission, while the mildly relativistic wide jet ( θw 4.4) dominates at later times, resulting in the observed rebrightening feature. If this is the case, one can obtain a lower medium density with n 0.72~cm-3 which is a little bit higher than that of short GRBs in merger environments, but falls into the reasonable and acceptable range. Finally, a possible kilonova emission is also discussed within the scenario of compact star merger origin of GRB 250221A.