Reverse Shock Emission Revealed in Early Photometry in the Candidate Short GRB 180418A

R. L. Becerra; S. Dichiara; A. M. Watson; E. Troja; N. Fraija; A. Klotz; N. R. Butler; W. H. Lee; P. Veres; D. Turpin; J. S. Bloom; M. Boer; J. J. González; A. S. Kutyrev; J. X. Prochaska; E. Ramirez-Ruiz; M. G. Richer

doi:10.3847/1538-4357/ab275b

Reverse Shock Emission Revealed in Early Photometry in the Candidate Short GRB 180418A

R. L. Becerra, S. Dichiara, A. M. Watson, E. Troja, N. Fraija, A. Klotz, N. R. Butler, W. H. Lee, P. Veres, D. Turpin, J. S. Bloom, M. Boer, J. J. González, A. S. Kutyrev, J. X. Prochaska, E. Ramirez-Ruiz, M. G. Richer

Earth and Space Exploration, School of (SESE)

Research output: Contribution to journal › Article › peer-review

20 Scopus citations

Abstract

We present observations of the possible short GRB 180418A in γ-rays, X-rays, and in the optical. Early optical photometry with the TAROT and RATIR instruments shows a bright peak (≈14.2 AB mag) between T + 28 and T + 90 s that we interpret as the signature of a reverse shock. Later observations can be modeled by a standard forward shock model and show no evidence of a jet break, allowing us to constrain the jet collimation to θ _j > 7°. Using deep late-time optical observations, we place an upper limit of r > 24 AB mag on any underlying host galaxy. The detection of the afterglow in the Swift UV filters constrains the GRB redshift to z < 1.3 and places an upper bound on the γ-ray isotropic equivalent energy E _γ,iso < 3 ×10⁵¹ erg. The properties of this GRB (e.g., duration, hardness ratio, energy, and environment) lie at the intersection between short and long bursts, and we cannot conclusively identify its type. We estimate that the probability that it is drawn from the population of short GRBs is 10%-30%.

Original language	English (US)
Article number	12
Journal	Astrophysical Journal
Volume	881
Issue number	1
DOIs	https://doi.org/10.3847/1538-4357/ab275b
State	Published - Aug 10 2019

Keywords

gamma-ray burst: individual (GRB 180418A)

ASJC Scopus subject areas

Astronomy and Astrophysics
Space and Planetary Science

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10.3847/1538-4357/ab275b

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Becerra, R. L., Dichiara, S., Watson, A. M., Troja, E., Fraija, N., Klotz, A., Butler, N. R., Lee, W. H., Veres, P., Turpin, D., Bloom, J. S., Boer, M., González, J. J., Kutyrev, A. S., Prochaska, J. X., Ramirez-Ruiz, E., & Richer, M. G. (2019). Reverse Shock Emission Revealed in Early Photometry in the Candidate Short GRB 180418A. Astrophysical Journal, 881(1), Article 12. https://doi.org/10.3847/1538-4357/ab275b

Becerra, RL, Dichiara, S, Watson, AM, Troja, E, Fraija, N, Klotz, A, Butler, NR, Lee, WH, Veres, P, Turpin, D, Bloom, JS, Boer, M, González, JJ, Kutyrev, AS, Prochaska, JX, Ramirez-Ruiz, E & Richer, MG 2019, 'Reverse Shock Emission Revealed in Early Photometry in the Candidate Short GRB 180418A', Astrophysical Journal, vol. 881, no. 1, 12. https://doi.org/10.3847/1538-4357/ab275b

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abstract = "We present observations of the possible short GRB 180418A in γ-rays, X-rays, and in the optical. Early optical photometry with the TAROT and RATIR instruments shows a bright peak (≈14.2 AB mag) between T + 28 and T + 90 s that we interpret as the signature of a reverse shock. Later observations can be modeled by a standard forward shock model and show no evidence of a jet break, allowing us to constrain the jet collimation to θ j > 7°. Using deep late-time optical observations, we place an upper limit of r > 24 AB mag on any underlying host galaxy. The detection of the afterglow in the Swift UV filters constrains the GRB redshift to z < 1.3 and places an upper bound on the γ-ray isotropic equivalent energy E γ,iso < 3 ×1051 erg. The properties of this GRB (e.g., duration, hardness ratio, energy, and environment) lie at the intersection between short and long bursts, and we cannot conclusively identify its type. We estimate that the probability that it is drawn from the population of short GRBs is 10%-30%.",

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AU - Becerra, R. L.

AU - Dichiara, S.

AU - Watson, A. M.

AU - Troja, E.

AU - Fraija, N.

AU - Klotz, A.

AU - Butler, N. R.

AU - Lee, W. H.

AU - Veres, P.

AU - Turpin, D.

AU - Bloom, J. S.

AU - Boer, M.

AU - González, J. J.

AU - Kutyrev, A. S.

AU - Prochaska, J. X.

AU - Ramirez-Ruiz, E.

AU - Richer, M. G.

PY - 2019/8/10

Y1 - 2019/8/10

N2 - We present observations of the possible short GRB 180418A in γ-rays, X-rays, and in the optical. Early optical photometry with the TAROT and RATIR instruments shows a bright peak (≈14.2 AB mag) between T + 28 and T + 90 s that we interpret as the signature of a reverse shock. Later observations can be modeled by a standard forward shock model and show no evidence of a jet break, allowing us to constrain the jet collimation to θ j > 7°. Using deep late-time optical observations, we place an upper limit of r > 24 AB mag on any underlying host galaxy. The detection of the afterglow in the Swift UV filters constrains the GRB redshift to z < 1.3 and places an upper bound on the γ-ray isotropic equivalent energy E γ,iso < 3 ×1051 erg. The properties of this GRB (e.g., duration, hardness ratio, energy, and environment) lie at the intersection between short and long bursts, and we cannot conclusively identify its type. We estimate that the probability that it is drawn from the population of short GRBs is 10%-30%.

AB - We present observations of the possible short GRB 180418A in γ-rays, X-rays, and in the optical. Early optical photometry with the TAROT and RATIR instruments shows a bright peak (≈14.2 AB mag) between T + 28 and T + 90 s that we interpret as the signature of a reverse shock. Later observations can be modeled by a standard forward shock model and show no evidence of a jet break, allowing us to constrain the jet collimation to θ j > 7°. Using deep late-time optical observations, we place an upper limit of r > 24 AB mag on any underlying host galaxy. The detection of the afterglow in the Swift UV filters constrains the GRB redshift to z < 1.3 and places an upper bound on the γ-ray isotropic equivalent energy E γ,iso < 3 ×1051 erg. The properties of this GRB (e.g., duration, hardness ratio, energy, and environment) lie at the intersection between short and long bursts, and we cannot conclusively identify its type. We estimate that the probability that it is drawn from the population of short GRBs is 10%-30%.

KW - gamma-ray burst: individual (GRB 180418A)

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Reverse Shock Emission Revealed in Early Photometry in the Candidate Short GRB 180418A

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Keywords

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