English

GeV emission from a compact binary merger

High Energy Astrophysical Phenomena 2025-02-18 v2

Abstract

An energetic γ\rm \gamma-ray burst (GRB), GRB 211211A, was observed on 2021 December 11 by the Neil Gehrels Swift Observatory. Despite its long duration, typically associated with bursts produced by the collapse of massive stars, the discovery of an optical-infrared kilonova and a quasi-periodic oscillation during a gamma-ray precursor points to a compact object binary merger origin. The complete understanding of this nearby (\sim 1 billion light-years) burst will significantly impact our knowledge of GRB progenitors and the physical processes that lead to electromagnetic emission in compact binary mergers. Here, we report the discovery of a significant (>5σ\rm >5 \sigma) transient-like emission in the high-energy γ\rm \gamma-rays (HE; E>0.1>0.1 GeV) observed by Fermi/LAT starting at 10310^3 s after the burst. After an initial phase with a roughly constant flux (5×1010 erg s1 cm2\rm \sim 5\times 10^{-10}\ erg\ s^{-1}\ cm^{-2}) lasting 2×104\sim 2\times 10^4 s, the flux started decreasing and soon went undetected. The multi-wavelength afterglow emission observed at such late times is usually in good agreement with synchrotron emission from a relativistic shock wave that arises as the GRB jet decelerates in the interstellar medium. However, our detailed modelling of a rich dataset comprising public and dedicated multi-wavelength observations demonstrates that GeV emission from GRB 211211A is in excess with respect to the expectation of this scenario. We explore the possibility that the GeV excess is inverse Compton emission due to the interaction of a long-lived, low-power jet with an external source of photons. We discover that the kilonova emission can provide the necessary seed photons for GeV emission in binary neutron star mergers.

Keywords

Cite

@article{arxiv.2205.08566,
  title  = {GeV emission from a compact binary merger},
  author = {Alessio Mei and Biswajit Banerjee and Gor Oganesyan and Om Sharan Salafia and Stefano Giarratana and Marica Branchesi and Paolo D'Avanzo and Sergio Campana and Giancarlo Ghirlanda and Samuele Ronchini and Amit Shukla and Pawan Tiwari},
  journal= {arXiv preprint arXiv:2205.08566},
  year   = {2025}
}
R2 v1 2026-06-24T11:20:23.805Z