Gravitational-wave bursts from soft gamma-ray repeaters: Can they be detected?

Abstract

In this letter we suggest a scenario for simultaneous emission of gravitational-wave and γ-ray bursts (GRBs) from soft gamma-ray repeaters (SGRs). we argue that both of the radiations can be generated by a super-Eddington accreting neutron stars in X-ray binaries. In this model a supercritical accretion transient takes back onto the remnant star the disk leftover by the hydrodynamic instability phase of a low magnetized, rapidly rotating neutron star in a X-ray binary system. We estimate the rise timescale tc = 0.21 ms, minimum mass accretion rate needed to trigger the γ-ray emission, Mλ = 4.5 × 1028 g, and its effective associated temperature Teff = 740 keV, and the timescale for repeating a burst of γ-rays τR = 11.3 yr. Altogether, we find the associated GW amplitude and frequency to be hc = 2.7 × 10-23/(Hz)1/2 and fgw = 966 Hz, for a source distance 55 kpc. Detectability of the pulses by t he forthcoming GW anntenas is discussed and found likely.

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