The Astrophysical Journal (Jan 2024)

Exploring the Origin of Ultralong Gamma-Ray Bursts: Lessons from GRB 221009A

  • Amit Kumar Ror,
  • Rahul Gupta,
  • Amar Aryan,
  • Shashi Bhushan Pandey,
  • S. R. Oates,
  • A. J. Castro-Tirado,
  • Sudhir Kumar

DOI
https://doi.org/10.3847/1538-4357/ad5554
Journal volume & issue
Vol. 971, no. 2
p. 163

Abstract

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The brightest gamma-ray burst (GRB) ever, GRB 221009A, displays ultralong GRB (ULGRB) characteristics, with a prompt emission duration exceeding 1000 s. To constrain the origin and central engine of this unique burst, we analyze its prompt and afterglow characteristics and compare them to the established set of similar GRBs. To achieve this, we statistically examine a nearly complete sample of Swift-detected GRBs with measured redshifts. We categorize the sample to bronze, silver, and gold by fitting a Gaussian function to the log-normal of T _90 duration distribution and considering three subsamples respectively to 1, 2, and 3 times of the standard deviation to the mean value. GRB 221009A falls into the gold subsample. Our analysis of prompt emission and afterglow characteristics aims to identify trends between the three burst groups. Notably, the gold subsample (a higher likelihood of being ULGRB candidates) suggests a collapsar scenario with a hyperaccreting black hole as a potential central engine, while a few GRBs (GRB 060218, GRB 091024A, and GRB 100316D) in our gold subsample favor a magnetar. Late-time near-IR observations from 3.6 m Devasthal Optical Telescope rule out the presence of any bright supernova associated with GRB 221009A in the gold subsample. To further constrain the physical properties of ULGRB progenitors, we employ the tool MESA to simulate the evolution of low-metallicity massive stars with different initial rotations. The outcomes suggest that rotating (Ω ≥ 0.2 Ω _c ) massive stars could potentially be the progenitors of ULGRBs within the considered parameters and initial inputs to MESA .

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