Idiomas

GRB 180620A: Evidence for late-time energy injection

Becerra, Rosa L.; De Colle, Fabio; Watson, Alan M.; Fraija, Nissim; Butler, Nathaniel R.; Lee, William H.; Román-Zuñiga, Carlos G.; Bloom, Joshua S.; Gonzalez, Jesús J.; Kutyrev, Alexander; Prochaska, J. Xavier; Ramirez-Ruiz, Enrico; Richer, Michael G.; Troja, Eleonora
The Astrophysical Journal, Volume 887, Issue 2, article id. 254, 8 pp. (2019).
12/2019

ABSTRACT

The early optical emission of gamma-ray bursts (GRBs) gives an opportunity to understand the central engine and first stages of these events. About 30% of GRBs present flares whose origin is still a subject of discussion. We present optical photometry of GRB 180620A with the COATLI telescope and RATIR instrument. COATLI started to observe from the end of prompt emission at T + 39.3 s and RATIR from T + 121.4 s. We supplement the optical data with the X-ray light curve from Swift/XRT. We observe an optical flare from T + 110 s to T + 550 s, with a temporal index decay α O,decay = 1.32 ± 0.01, and ∆t/t = 1.63, which we interpret as the signature of a reverse shock component. After the initial normal decay the light curves show a long plateau from T + 500 s to T + 7800 s in both X-rays and the optical before decaying again after an achromatic jet break at T + 7800 s. Fluctuations are seen during the plateau phase in the optical. Adding to the complexity of GRB afterglows, the plateau phase (typically associated with the coasting phase of the jet) is seen in this object after the “normal” decay phase (associated with the deceleration phase of the jet), and the jet break phase occurs directly after the plateau. We suggest that this sequence of events can be explained by a rapid deceleration of the jet with t d ≲ 40 s due to the high density of the environment (≈100 cm−3) followed by reactivation of the central engine, which causes the flare and powers the plateau phase.