Gravitational waves and neutrino emission from the merger of binary neutron stars

Abstract

Numerical simulations for the merger of binary neutron stars are performed in full general relativity incorporating a finite-temperature (Shen's) equation of state (EOS) and neutrino cooling for the first time. It is found that for this stiff EOS, a hypermassive neutron star (HMNS) with a long lifetime ( 10 ms) is the outcome for the total mass 3.0M. It is shown that the typical total neutrino luminosity of the HMNS is 3--8× 1053 ergs/s and the effective amplitude of gravitational waves from the HMNS is 4--6 × 10-22 at f=2.1--2.5 kHz for a source distance of 100 Mpc. We also present the neutrino luminosity curve when a black hole is formed for the first time.