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GRB 170817A Associated with GW170817: Multi-frequency Observations and Modeling of Prompt Gamma-Ray Emission

A. S. PozanenkoNational Research Nuclear University MEPhI (Moscow Engineering Physics Institute), Kashirskoe shosse, 31, 115409 Moscow, RussiaMaxim V. BarkovAstrophysical Big Bang Laboratory, RIKEN, 2-1 Hirosawa, Wako, Saitama 351-0198, JapanP. Yu. MinaevSpace Research Institute, 84/32 Profsoyuznaya Street, Moscow 117997, RussiaA. A. VolnovaSpace Research Institute, 84/32 Profsoyuznaya Street, Moscow 117997, RussiaE. D. MazaevaSpace Research Institute, 84/32 Profsoyuznaya Street, Moscow 117997, RussiaA. S. MoskvitinSpecial Astrophysical Observatory of Russian Academy of Sciences, Nizhniy Arkhyz, 369167, RussiaM. A. KrugovFesenkov Astrophysical Institute, Almaty, 050020, KazakhstanV. A. SamodurovNational Research University Higher School of Economics, Myasnitskaya 20, 101000, Moscow, RussiaV. M. LoznikovSpace Research Institute, 84/32 Profsoyuznaya Street, Moscow 117997, RussiaMaxim LyutikovDepartment of Physics and Astronomy, Purdue University, 525 Northwestern Avenue, West Lafayette, IN 47907-2036, USA
2018en
ABI

Аннотация

Abstract We present our observations of electromagnetic transients associated with GW170817/GRB 170817A using optical telescopes of Chilescope observatory and Big Scanning Antenna (BSA) of Pushchino Radio Astronomy Observatory at 110 MHz. The Chilescope observatory detected an optical transient of ∼19 m on the third day in the outskirts of the galaxy NGC 4993; we continued observations following its rapid decrease. We put an upper limit of 1.5 × 10 4 Jy on any radio source with a duration of 10–60 s, which may be associated with GW170817/GRB 170817A. The prompt gamma-ray emission consists of two distinctive components—a hard short pulse delayed by ∼2 s with respect to the LIGO signal and softer thermal pulse with T ∼ 10 keV lasting for another ∼2 s. The appearance of a thermal component at the end of the burst is unusual for short GRBs. Both the hard and the soft components do not satisfy the Amati relation, making GRB 170817A distinctively different from other short GRBs. Based on gamma-ray and optical observations, we develop a model for the prompt high-energy emission associated with GRB 170817A. The merger of two neutron stars creates an accretion torus of ∼10 −2 M ⊙ , which supplies the black hole with magnetic flux and confines the Blandford–Znajek-powered jet. We associate the hard prompt spike with the quasispherical breakout of the jet from the disk wind. As the jet plows through the wind with subrelativistic velocity, it creates a radiation-dominated shock that heats the wind material to tens of kiloelectron volts, producing the soft thermal component.

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