Merger of black hole-neutron star binaries: nonspinning black hole case

Abstract

We perform a simulation for merger of a black hole (BH)-neutron star (NS) binary in full general relativity preparing a quasicircular state as initial condition. The BH is modeled by a moving puncture with no spin and the NS by the -law equation of state with =2. Corotating velocity field is assumed for the NS. The mass of the BH and the rest-mass of the NS are chosen to be ≈ 3.2 M and ≈ 1.4 M with relatively large radius of the NS ≈ 14 km. The NS is tidally disrupted near the innermost stable orbit but 80% of the material is swallowed into the BH with small disk mass 0.3M even for such small BH mass 3M. The result indicates that the system of a BH and a massive disk of M is not formed from nonspinning BH-NS binaries, although a disk of mass 0.1M is a possible outcome.

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