Constraining the Jet Launching Time of GRB 170817A by Utilizing the Baryon Loading

The observed delay of GRB 170817A relative to GW170817 provides significant information about gamma-ray burst (GRB) physics, and is subject to intense debate. In this Letter, we present an approach for discussing the major source of this time delay. First, we use the structured jet model to fit the...

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Bibliographic Details
Published in:Astrophysical journal. Letters 2020-10, Vol.901 (2), p.L26
Main Authors: Ren, Jia, Lin, Da-Bin, Zhang, Lu-Lu, Wang, Kai, Li, Xiao-Yan, Wang, Xiang-Gao, Liang, En-Wei
Format: Article
Language:English
Subjects:
Afterglows
Baryons
Energy dissipation
Gamma ray bursts
Gamma rays
Gravitational waves
High energy astrophysics
Interferometry
Relativistic jets
Response time
Time lag
Very long base interferometry
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Summary:The observed delay of GRB 170817A relative to GW170817 provides significant information about gamma-ray burst (GRB) physics, and is subject to intense debate. In this Letter, we present an approach for discussing the major source of this time delay. First, we use the structured jet model to fit the X-ray/optical/radio afterglows of GRB 170817A together with superluminal motion measured using Very Long Baseline Interferometry. Our structured jet is modeled with angle-dependent energy and baryon loading. It is found that our model well fits the afterglows of GRB 170817A. Then, the baryon loading in the jet is inferred based on our fitting results. By comparing the baryon loading to the mass outflow in different stages, we infer that the time lag of the jet launch relative to the merger is less than hundreds or tens of milliseconds. It suggests that the time delay of GRB 170817A relative to GW170817 is defined mostly by the spreading time of the jet propagating to its dissipation radius.
ISSN:2041-8205
2041-8213
DOI:10.3847/2041-8213/abb672