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Effects of neutron-star dynamic tides on gravitational waveforms within the effective-one-body approach

Extracting the unique information on ultradense nuclear matter from the gravitational waves emitted by merging, neutron-star binaries requires robust theoretical models of the signal. We develop a novel effective-one-body waveform model that includes, for the first time, dynamic (instead of only adiabatic) tides of the neutron star, as well as the merger signal for neutron-star--black-hole binaries. We demonstrate the importance of the dynamic tides by comparing our model against new numerical-relativity simulations of nonspinning neutron-star--black-hole binaries spanning more than 24 gravitational-wave cycles, and to other existing numerical simulations for double neutron-star systems. Furthermore, we derive an effective description that makes explicit the dependence of matter effects on two key parameters: tidal deformability and fundamental oscillation frequency.

preprint2016arXivOpen access
Tanja HindererAndrea TaracchiniFrancois FoucartAlessandra BuonannoJan SteinhoffMatthew DuezLawrence E. KidderHarald P. PfeifferMark A. ScheelBela SzilagyiKenta HotokezakaKoutarou KyutokuMasaru ShibataCory W. Carpenter
astro-ph.HEgr-qcastro-ph.SR
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Open access14 authors3 topics
Imported metadata coverageMissing code, dataset, citation and institution fields are tracked without dominating the paper.Details
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Tanja HindererAndrea TaracchiniFrancois FoucartAlessandra BuonannoJan SteinhoffMatthew DuezLawrence E. KidderHarald P. PfeifferMark A. ScheelBela SzilagyiKenta HotokezakaKoutarou KyutokuMasaru ShibataCory W. Carpenter

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