Gravitational Radiation from Nonaxisymmetric Instability in a Rotating Star
Abstract
We present the first calculations of the gravitational radiation produced by nonaxisymmetric dynamical instability in a rapidly rotating compact star. The star deforms into a bar shape, shedding 4\% of its mass and 17\% of its angular momentum. The gravitational radiation is calculated in the quadrupole approximation. For a mass M 1.4 M and radius R 10 km, the gravitational waves have frequency 4 kHz and amplitude h 2 × 10-22 at the distance of the Virgo Cluster. They carry off energy E/M 0.1\% and radiate angular momentum J/J 0.7\%.
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