The Astrophysical Journal Letters (Jan 2023)

Multipoint Detection of GRB221009A’s Propagation through the Heliosphere

  • Andrii Voshchepynets,
  • Oleksiy V. Agapitov,
  • Lynn Wilson III,
  • Vassilis Angelopoulos,
  • Samer T. Alnussirat,
  • Michael Balikhin,
  • Myroslava Hlebena,
  • Ihor Korol,
  • Davin Larson,
  • David Mitchell,
  • Christopher Owen,
  • Ali Rahmati

DOI
https://doi.org/10.3847/2041-8213/acf933
Journal volume & issue
Vol. 956, no. 1
p. L4

Abstract

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We present the results of processing the effects of the powerful gamma-ray burst GRB221009A captured by the charged particle detectors (electrostatic analyzers and solid-state detectors) on board spacecraft at different points in the heliosphere on 2022 October 9. To follow the GRB221009A propagation through the heliosphere, we used the electron and proton flux measurements from solar missions Solar Orbiter and STEREO-A; Earth’s magnetosphere and solar wind missions THEMIS and Wind; meteorological satellites POES15, POES19, and MetOp3; and MAVEN—a NASA mission orbiting Mars. GRB221009A had a structure of four bursts: the less intense Pulse 1—the triggering impulse—was detected by gamma-ray observatories at T _0 = 13:16:59 UT (near the Earth); the most intense Pulses 2 and 3 were detected on board all the spacecraft from the list; and Pulse 4 was detected in more than 500 s after Pulse 1. Due to their different scientific objectives, the spacecraft, whose data were used in this study, were separated by more than 1 au (Solar Orbiter and MAVEN). This enabled the tracking of GRB221009A as it was propagating across the heliosphere. STEREO-A was the first to register Pulse 2 and 3 of the GRB, almost 100 s before their detection by spacecraft in the vicinity of Earth. MAVEN detected GRB221009A Pulses 2, 3, and 4 at the orbit of Mars about 237 s after their detection near Earth. By processing the observed time delays, we show that the source location of the GRB221009A was at R.A. 288.°5, decl. 18.°5 ± 2° (J2000).

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