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Effect of metallicity on the gravitational-wave signal from the cosmological population of compact binary coalescences

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arxiv 1205.4621 v4 pith:LKQSXNWO submitted 2012-05-21 astro-ph.CO

Effect of metallicity on the gravitational-wave signal from the cosmological population of compact binary coalescences

classification astro-ph.CO
keywords metallicityadvancedbackgroundcompactgravitational-wavepopulationstellarbinary
verification ladder T0 review T1 audit T2 compute T3 formal T4 reserved
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Recent studies on stellar evolution have shown that the properties of compact objects strongly depend on the metallicity of the environment in which they were formed. Using some very simple assumptions on the metallicity of the stellar populations, we explore how this property affects the unresolved gravitational-wave background from extragalactic compact binaries. We obtained a suit of models using population synthesis code, estimated the gravitational-wave background they produce, and discuss its detectability with second- (advanced LIGO, advanced Virgo) and third- (Einstein Telescope) generation detectors. Our results show that the background is dominated by binary black holes for all considered models in the frequency range of terrestrial detectors, and that it could be detected in most cases by advanced LIGO/Virgo, and with Einstein Telescope with a very high signal-to-noise ratio. The observed peak in a gravitational wave spectrum depends on the metallicity of the stellar population.

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