Luogo: Sala FeynmanRelatore: Dr. Alessandro - NagarInstitut des Hautes Etudes Scientifiques, Bures-Sur-Yvette, FRANCEE-mail organizzatore: roberto.depietri@fis.unipr.itAbstract:The data analysis of the gravitational wave signals emitted by coalescing neutronstar binaries requires the availability of an accurate analytical representation ofthe dynamics and waveforms of these systems. We propose an effective-one-body (EOB)model that describes the general relativistic dynamics of neutron star binaries fromthe early inspiral up to merger. Our EOB model incorporates an enhanced attractivetidal potential motivated by recent analytical advances in the post-Newtonian andgravitational self-force description of relativistic tidal interactions. No fittingparameters are introduced for the description of tidal interaction in the late,strong-field dynamics. We compare the model energetics and the gravitational wavephasing with new high-resolution multi-orbit numerical relativity simulations ofequal-mass configurations with different equations of state. We find agreementwithin the uncertainty of the numerical data for all configurations. Our model isthe first semi-analytical model which captures the tidal amplification effects closeto merger. It thereby provides the most accurate analytical representation of binaryneutron star dynamics and waveforms currently available.
