Numerical simulations of the jet dynamics and synchrotron radiation of binary neutron star merger event GW170817/GRB 170817A
Numerical simulations of the jet dynamics and synchrotron radiation of binary neutron star merger event GW170817/GRB 170817A
We present numerical simulations of energetic flows propagating through the debris cloud of a binary neutron star (BNS) merger. Starting from the scale of the central engine, we use a moving-mesh hydrodynamics code to simulate the complete dynamical evolution of the relativistic jets produced. We compute synchrotron emission directly from the simulations and present multiband light curves of the early (subday) through late (weeks to years) afterglow stages. Our work systematically compares two distinct models for the central engine, referred to as the narrow- and wide-engine scenarios, respectively associated with a successful structured jet and quasi-isotropic explosion. Both engine models naturally evolve angular and radial structures through hydrodynamical interaction with the merger debris cloud. They both also result in a relativistic blast wave capable of producing the observed multiband afterglow data. However, we find that the narrow- and wide-engine scenarios might be differentiated by a new emission component that we refer to as a merger flash. This component is a consequence of applying the synchrotron radiation model to the shocked optically thin merger cloud. Such modeling is appropriate if injection of nonthermal electrons is sustained in the breakout relativistic shell, for example by internal shocks or magnetic reconnection. The rapidly declining signature may be detectable for future BNS mergers during the first minutes to the day following the gravitational wave chirp. Furthermore, its nondetection for the GRB170817A event may disfavor the wide, quasi-isotropic explosion model.
Xie, Xiaoyi
83115329-e0d6-47f9-a765-7a0c5aaf964c
Zrake, Jonathan
7ee61418-5513-456b-8845-6d505966853e
MacFadyen, Andrew
19a94c57-5bbb-4325-b7d3-e38c63f42b85
9 August 2018
Xie, Xiaoyi
83115329-e0d6-47f9-a765-7a0c5aaf964c
Zrake, Jonathan
7ee61418-5513-456b-8845-6d505966853e
MacFadyen, Andrew
19a94c57-5bbb-4325-b7d3-e38c63f42b85
Xie, Xiaoyi, Zrake, Jonathan and MacFadyen, Andrew
(2018)
Numerical simulations of the jet dynamics and synchrotron radiation of binary neutron star merger event GW170817/GRB 170817A.
The Astrophysical Journal, 863 (1), [58].
(doi:10.3847/1538-4357/aacf9c).
Abstract
We present numerical simulations of energetic flows propagating through the debris cloud of a binary neutron star (BNS) merger. Starting from the scale of the central engine, we use a moving-mesh hydrodynamics code to simulate the complete dynamical evolution of the relativistic jets produced. We compute synchrotron emission directly from the simulations and present multiband light curves of the early (subday) through late (weeks to years) afterglow stages. Our work systematically compares two distinct models for the central engine, referred to as the narrow- and wide-engine scenarios, respectively associated with a successful structured jet and quasi-isotropic explosion. Both engine models naturally evolve angular and radial structures through hydrodynamical interaction with the merger debris cloud. They both also result in a relativistic blast wave capable of producing the observed multiband afterglow data. However, we find that the narrow- and wide-engine scenarios might be differentiated by a new emission component that we refer to as a merger flash. This component is a consequence of applying the synchrotron radiation model to the shocked optically thin merger cloud. Such modeling is appropriate if injection of nonthermal electrons is sustained in the breakout relativistic shell, for example by internal shocks or magnetic reconnection. The rapidly declining signature may be detectable for future BNS mergers during the first minutes to the day following the gravitational wave chirp. Furthermore, its nondetection for the GRB170817A event may disfavor the wide, quasi-isotropic explosion model.
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Numerical_simulations_of_the_jet_dynamics_and_synchrotron_radiation___of____of_the_afterglow_of____binary_neutron_star_merger_event_GW170817_GRB170817
- Accepted Manuscript
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Accepted/In Press date: 25 June 2018
e-pub ahead of print date: 9 August 2018
Published date: 9 August 2018
Identifiers
Local EPrints ID: 444413
URI: http://eprints.soton.ac.uk/id/eprint/444413
ISSN: 0004-637X
PURE UUID: 8fd81bba-b3cb-4e9a-bb60-69ac562ae683
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Date deposited: 16 Oct 2020 16:32
Last modified: 17 Mar 2024 03:55
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Author:
Xiaoyi Xie
Author:
Jonathan Zrake
Author:
Andrew MacFadyen
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