English

GRB 221009A Afterglow from a Shallow Angular Structured Jet

High Energy Astrophysical Phenomena 2023-06-28 v2

Abstract

Exceptionally bright gamma-ray burst (GRB) afterglows can reveal the angular structure of their jets. GRB jets appear to have a narrow core (of half-opening angle θc\theta_c), beyond which their kinetic energy drops as a power-law with angle θ\theta from the jet's symmetry axis, Ek,iso(θ)[1+(θ/θc)2]a/2E_{k,\rm iso}(\theta)\propto[1+(\theta/\theta_c)^2]^{-a/2}. The power-law index aa reflects the amount of mixing between the shocked jet and confining medium, which depends on the jet's initial magnetization. Weakly magnetized jets undergo significant mixing, leading to shallow (a2a\lesssim2) angular profiles. We use the exquisite multi-waveband afterglow observations of GRB 221009A to constrain the jet angular structure using a dynamical model that accounts for both the forward and reverse shocks, for a power-law external density profile, nextRkn_{\rm{}ext}\propto{}R^{-k}. Both the forward-shock emission, that dominates the optical and X-ray flux, and the reverse-shock emission, that produces the radio afterglow, require a jet with a narrow core (θc0.021\theta_c\approx0.021) and a shallow angular structure (a0.8a\approx0.8) expanding into a stellar wind (k2k\approx2). Moreover, these data appear to favor a small fraction (ξe102\xi_e\approx10^{-2}) of shock-heated electrons forming a power-law energy distribution in both shocks.

Keywords

Cite

@article{arxiv.2304.14331,
  title  = {GRB 221009A Afterglow from a Shallow Angular Structured Jet},
  author = {Ramandeep Gill and Jonathan Granot},
  journal= {arXiv preprint arXiv:2304.14331},
  year   = {2023}
}

Comments

5 pages, 3 figures. Accepted to MNRAS Letters

R2 v1 2026-06-28T10:19:56.441Z