The Astrophysical Journal Letters (Jan 2023)

AGILE Gamma-Ray Detection of the Exceptional GRB 221009A

  • Marco Tavani,
  • Giovanni Piano,
  • Andrea Bulgarelli,
  • Luca Foffano,
  • Alessandro Ursi,
  • Francesco Verrecchia,
  • Carlotta Pittori,
  • Claudio Casentini,
  • Andrea Giuliani,
  • Francesco Longo,
  • Gabriele Panebianco,
  • Ambra Di Piano,
  • Leonardo Baroncelli,
  • Valentina Fioretti,
  • Nicolò Parmiggiani,
  • Andrea Argan,
  • Alessio Trois,
  • Stefano Vercellone,
  • Martina Cardillo,
  • Lucio Angelo Antonelli,
  • Guido Barbiellini,
  • Patrizia Caraveo,
  • Paolo W. Cattaneo,
  • Andrew W. Chen,
  • Enrico Costa,
  • Ettore Del Monte,
  • Guido Di Cocco,
  • Immacolata Donnarumma,
  • Yuri Evangelista,
  • Marco Feroci,
  • Fulvio Gianotti,
  • Claudio Labanti,
  • Francesco Lazzarotto,
  • Paolo Lipari,
  • Fabrizio Lucarelli,
  • Martino Marisaldi,
  • Sandro Mereghetti,
  • Aldo Morselli,
  • Luigi Pacciani,
  • Alberto Pellizzoni,
  • Francesco Perotti,
  • Piergiorgio Picozza,
  • Maura Pilia,
  • Massimo Rapisarda,
  • Andrea Rappoldi,
  • Alda Rubini,
  • Paolo Soffitta,
  • Massimo Trifoglio,
  • Valerio Vittorini,
  • Fabio D’Amico

DOI
https://doi.org/10.3847/2041-8213/acfaff
Journal volume & issue
Vol. 956, no. 1
p. L23

Abstract

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Gamma-ray emission in the MeV–GeV range from explosive cosmic events is of invaluable relevance to understanding physical processes related to the formation of neutron stars and black holes. Here we report on the detection by the AGILE satellite in the MeV–GeV energy range of the remarkable long-duration gamma-ray burst GRB 221009A. The AGILE onboard detectors have good exposure to GRB 221009A during its initial crucial phases. Hard X-ray/MeV emission in the prompt phase lasted hundreds of seconds, with the brightest radiation being emitted between 200 and 300 s after the initial trigger. Very intense GeV gamma-ray emission is detected by AGILE in the prompt and early afterglow phase up to 10,000 s. Time-resolved spectral analysis shows time-variable MeV-peaked emission simultaneous with intense power-law GeV radiation that persists in the afterglow phase. The coexistence during the prompt phase of very intense MeV emission together with highly nonthermal and hardening GeV radiation is a remarkable feature of GRB 221009A. During the prompt phase, the event shows spectrally different MeV and GeV emissions that are most likely generated by physical mechanisms occurring in different locations. AGILE observations provide crucial flux and spectral gamma-ray information regarding the early phases of GRB 221009A during which emission in the TeV range was reported.

Keywords