TY - JOUR
T1 - A Reverse Shock in GRB 181201A
AU - Laskar, Tanmoy
AU - Eerten, Hendrik Van
AU - Schady, Patricia
AU - Mundell, C. G.
AU - Alexander, Kate D.
AU - Duran, Rodolfo Barniol
AU - Berger, Edo
AU - Bolmer, J.
AU - Chornock, Ryan
AU - Coppejans, Deanne L.
AU - Fong, Wen Fai
AU - Gomboc, Andreja
AU - Jordana-Mitjans, Núria
AU - Kobayashi, Shiho
AU - Margutti, Raffaella
AU - Menten, Karl M.
AU - Sari, Re'Em
AU - Yamazaki, Ryo
AU - Lipunov, V. M.
AU - Gorbovskoy, E.
AU - Kornilov, V. G.
AU - Tyurina, N.
AU - Zimnukhov, D.
AU - Podesta, R.
AU - Levato, H.
AU - Buckley, D. A.H.
AU - Tlatov, A.
AU - Rebolo, R.
AU - Serra-Ricart, M.
N1 - Publisher Copyright:
© 2019. The American Astronomical Society. All rights reserved.
PY - 2019/10/20
Y1 - 2019/10/20
N2 - We present comprehensive multiwavelength radio to X-ray observations of GRB 181201A spanning from ≈150 s to ≈163 days after the burst, comprising the first joint ALMA-VLA-GMRT observations of a gamma-ray burst (GRB) afterglow. The radio and millimeter-band data reveal a distinct signature at ≈3.9 days, which we interpret as reverse-shock (RS) emission. Our observations present the first time that a single radio-frequency spectral energy distribution can be decomposed directly into RS and forward shock (FS) components. We perform detailed modeling of the full multiwavelength data set, using Markov Chain Monte Carlo sampling to construct the joint posterior density function of the underlying physical parameters describing the RS and FS synchrotron emission. We uncover and account for all discovered degeneracies in the model parameters. The joint RS-FS modeling reveals a weakly magnetized (σ ≈ 3 × 10-3), mildly relativistic RS, from which we derive an initial bulk Lorentz factor of Γ0 ≈ 103 for the GRB jet. Our results support the hypothesis that low-density environments are conducive to the observability of RS emission. We compare our observations to other events with strong RS detections and find a likely observational bias selecting for longer lasting, nonrelativistic RSs. We present and begin to address new challenges in modeling posed by the present generation of comprehensive, multifrequency data sets.
AB - We present comprehensive multiwavelength radio to X-ray observations of GRB 181201A spanning from ≈150 s to ≈163 days after the burst, comprising the first joint ALMA-VLA-GMRT observations of a gamma-ray burst (GRB) afterglow. The radio and millimeter-band data reveal a distinct signature at ≈3.9 days, which we interpret as reverse-shock (RS) emission. Our observations present the first time that a single radio-frequency spectral energy distribution can be decomposed directly into RS and forward shock (FS) components. We perform detailed modeling of the full multiwavelength data set, using Markov Chain Monte Carlo sampling to construct the joint posterior density function of the underlying physical parameters describing the RS and FS synchrotron emission. We uncover and account for all discovered degeneracies in the model parameters. The joint RS-FS modeling reveals a weakly magnetized (σ ≈ 3 × 10-3), mildly relativistic RS, from which we derive an initial bulk Lorentz factor of Γ0 ≈ 103 for the GRB jet. Our results support the hypothesis that low-density environments are conducive to the observability of RS emission. We compare our observations to other events with strong RS detections and find a likely observational bias selecting for longer lasting, nonrelativistic RSs. We present and begin to address new challenges in modeling posed by the present generation of comprehensive, multifrequency data sets.
UR - http://www.scopus.com/inward/record.url?scp=85075152030&partnerID=8YFLogxK
U2 - 10.3847/1538-4357/ab40ce
DO - 10.3847/1538-4357/ab40ce
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AN - SCOPUS:85075152030
SN - 0004-637X
VL - 884
JO - Astrophysical Journal
JF - Astrophysical Journal
IS - 2
M1 - 121
ER -