Add to ORKGThe coalescence of two neutron stars is an important gravitational wave source for LIGO and other detectors. Numerous studies have considered the precision with which binary parameters (masses, spins, Love numbers) can be measured. Here I consider the accuracy with which these parameters can be determined in the presence of systematic errors due to waveform approximations. These approximations include truncation of the post-Newtonian (PN) series and neglect of neutron star (NS) spin, tidal deformation, or orbital eccentricity. All of these effects can yield systematic errors that exceed statistical errors for plausible parameter values. In particular, neglecting spin, eccentricity, or high-order PN terms causes a significant bias in the NS ...
With an increasing number of expected gravitational-wave detections of binary neutron star mergers, ...
Inspiraling binary neutron stars (BNSs) are expected to be one of the most significant sources of gr...
We develop a model for frequency-domain gravitational waveforms from inspiraling binary neutron star...
Advanced ground-based gravitational-wave detectors are capable of measuring tidal influences in bina...
Identifying the source parameters from a gravitational-wave measurement alone is limited by our abil...
Measurements of the properties of binary neutron star systems from gravitational-wave observations r...
We identify various contributors of systematic effects in the measurement of the neutron star (NS) t...
We examine the parameter accuracy that can be achieved by advanced ground-based detectors for binary...
Gravitational waves radiated by the coalescence of compact-object binaries containing a neutron star...
We study the impact of eccentricity on gravitational-wave parameter estimation for binary neutron st...
With the increasing sensitivity of gravitational-wave detectors, we expect to observe multiple binar...
Recently exploratory studies were performed on the possibility of constraining the neutron star equa...
The early part of the gravitational wave signal of binary neutron-star inspirals can potentially yie...
Inference of the equation-of-state (EoS) of dense nuclear matter in neutron-star cores is a principa...
Upcoming observing campaigns with improved detectors will yield numerous detections of gravitational...
With an increasing number of expected gravitational-wave detections of binary neutron star mergers, ...
Inspiraling binary neutron stars (BNSs) are expected to be one of the most significant sources of gr...
We develop a model for frequency-domain gravitational waveforms from inspiraling binary neutron star...
Advanced ground-based gravitational-wave detectors are capable of measuring tidal influences in bina...
Identifying the source parameters from a gravitational-wave measurement alone is limited by our abil...
Measurements of the properties of binary neutron star systems from gravitational-wave observations r...
We identify various contributors of systematic effects in the measurement of the neutron star (NS) t...
We examine the parameter accuracy that can be achieved by advanced ground-based detectors for binary...
Gravitational waves radiated by the coalescence of compact-object binaries containing a neutron star...
We study the impact of eccentricity on gravitational-wave parameter estimation for binary neutron st...
With the increasing sensitivity of gravitational-wave detectors, we expect to observe multiple binar...
Recently exploratory studies were performed on the possibility of constraining the neutron star equa...
The early part of the gravitational wave signal of binary neutron-star inspirals can potentially yie...
Inference of the equation-of-state (EoS) of dense nuclear matter in neutron-star cores is a principa...
Upcoming observing campaigns with improved detectors will yield numerous detections of gravitational...
With an increasing number of expected gravitational-wave detections of binary neutron star mergers, ...
Inspiraling binary neutron stars (BNSs) are expected to be one of the most significant sources of gr...
We develop a model for frequency-domain gravitational waveforms from inspiraling binary neutron star...