Abstract
Abstract
In this work we study the long-lived post-merger gravitational wave signature of a boson-star binary coalescence. We use full numerical relativity to simulate the post-merger and track the gravitational afterglow over an extended period of time. We implement recent innovations for the binary initial data, which significantly reduce spurious initial excitations of the scalar field profiles, as well as a measure for the angular momentum that allows us to track the total momentum of the spatial volume, including the curvature contribution. Crucially, we find the afterglow to last much longer than the spin-down timescale. This prolonged gravitational wave afterglow provides a characteristic signal that may distinguish it from other astrophysical sources.
Funder
Division of Physics
TACC
Division of Astronomical Sciences
H2020 European Research Council
National Aeronautics and Space Administration
European Cooperation in Science and Technology
EPSRC Centre for Doctoral Training in Additive Manufacturing
Maryland Advanced Research Computing Center
Science and Technology Facilities Council
Subject
Physics and Astronomy (miscellaneous)
Cited by
10 articles.
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