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On the opening angle of magnetized jets from neutron-star mergers: the case of GRB170817A

Antonios Nathanail, Ramandeep Gill, Oliver Porth, Christian M. Fromm, Luciano Rezzolla

2020Monthly Notices of the Royal Astronomical Society46 citationsDOIOpen Access PDF

Abstract

ABSTRACT The observations of GW170817/GRB170817A have confirmed that the coalescence of a neutron-star binary is the progenitor of a short gamma-ray burst (GRB). In the standard picture of a short GRB, a collimated highly relativistic outflow is launched after merger and it successfully breaks out from the surrounding ejected matter. Using initial conditions inspired from numerical-relativity binary neutron-star merger simulations, we have performed general-relativistic hydrodynamic (HD) and magnetohydrodynamic (MHD) simulations in which the jet is launched and propagates self-consistently. The complete set of simulations suggests that: (i) MHD jets have an intrinsic energy and velocity polar structure with a ‘hollow core’ subtending an angle θcore ≈ 4°–5° and an opening angle of θjet > ≳ 10°; (ii) MHD jets eject significant amounts of matter and two orders of magnitude more than HD jets; (iii) the energy stratification in MHD jets naturally yields the power-law energy scaling E(> Γβ) ∝ (Γβ)−4.5; (iv) MHD jets provide fits to the afterglow data from GRB170817A that are comparatively better than those of the HD jets and without free parameters; and (v) finally, both of the best-fitting HD/MHD models suggest an observation angle θobs ≃ 21° for GRB170817A.

Topics & Concepts

PhysicsNeutron starMagnetohydrodynamicsAstrophysicsGamma-ray burstMagnetohydrodynamic driveAfterglowJet (fluid)Nuclear physicsPlasmaMechanicsGamma-ray bursts and supernovaePulsars and Gravitational Waves ResearchAstrophysical Phenomena and Observations
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