Black Hole-Neutron Star Mergers and Short Gamma-Ray Bursts: A Relativistic Toy Model to Estimate the Mass of the Torus

Pannarale, Francesco ORCID: https://orcid.org/0000-0002-7537-3210, Tonita, Aaryn and Rezzolla, Luciano 2011. Black Hole-Neutron Star Mergers and Short Gamma-Ray Bursts: A Relativistic Toy Model to Estimate the Mass of the Torus. The Astrophysical Journal 727 (2) , 95. 10.1088/0004-637X/727/2/95

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Abstract

The merger of a binary system composed of a black hole (BH) and a neutron star (NS) may leave behind a torus of hot, dense matter orbiting around the BH. While numerical-relativity simulations are necessary to simulate this process accurately, they are also computationally expensive and unable at present to cover the large space of possible parameters, which include the relative mass ratio, the stellar compactness, and the BH spin. To mitigate this and provide a first reasonable coverage of the space of parameters, we have developed a method for estimating the mass of the remnant torus from BH-NS mergers. The toy model makes use of an improved relativistic affine model to describe the tidal deformations of an extended tri-axial ellipsoid orbiting around a Kerr BH and measures the mass of the remnant torus by considering which of the fluid particles composing the star are on bound orbits at the time of the tidal disruption. We tune the toy model by using the results of fully general-relativistic simulations obtaining relative precisions of a few percent and use it to investigate the space of parameters extensively. In this way, we find that the torus mass is largest for systems with highly spinning BHs, small stellar compactnesses, and large mass ratios. As an example, tori as massive as M b,tor sime 1.33 M ☉ can be produced for a very extended star with compactness C sime 0.1 inspiralling around a BH with dimensionless spin parameter a = 0.85 and mass ratio q sime 0.3. However, for a more astrophysically reasonable mass ratio q sime 0.14 and a canonical value of the stellar compactness C sime 0.145, the toy model sets a considerably smaller upper limit of M b,tor lsim 0.34 M ☉.

Item Type:	Article
Date Type:	Publication
Status:	Published
Schools:	Physics and Astronomy
Subjects:	Q Science > QB Astronomy Q Science > QC Physics
Additional Information:	Online publication date: 10 January 2011.
Publisher:	IOP Publishing
ISSN:	0004-637X
Last Modified:	25 Oct 2022 08:34
URI:	https://orca.cardiff.ac.uk/id/eprint/53471

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