Add to ORKGMergers of compact stellar remnants are prime targets for the LIGO/Virgo gravitational wave detectors. The gravitational wave signals from these merger events can be used to study the mass and spin distribution of stellar remnants, and provide information about black hole horizons and the material properties of neutron stars. However, it has been suggested that degeneracies in the way that the star's mass and spin are imprinted in the waveforms may make it impossible to distinguish between black holes and neutron stars. Here we show that the precession of the orbital plane due to spin-orbit coupling breaks the mass-spin degeneracy, and allows us to distinguish between standard neutron stars and alternative possibilities, such as black holes...
Over the course of the third observing run of LIGO-Virgo-KAGRA Collaboration, several gravitational-...
We use a 3-D relativistic SPH (Smoothed Particle Hydrodynamics) code to study mergers of black hole ...
The first direct detection of neutron-star– black-hole binaries will likely be made with gravitation...
Black-hole–neutron-star mergers resulting in the disruption of the neutron star and the formation of...
Observations of gravitational waves and their electromagnetic counterparts may soon uncover the exis...
Black-hole neutron-star binary mergers, whose existence has been confirmed by gravitational-wave det...
We explore the degeneracy between mass and spin in gravitational waveforms emitted by black-hole-bin...
Observations of gravitational waves and their electromagnetic counterparts may soon uncover the exis...
The first direct detection of neutron-star-black-hole binaries will likely be made with gravitationa...
We present general relativistic numerical simulations of binary neutron star (BNS) mergers with diff...
The gravitational-wave signal from the merger of two neutron stars cannot be easily differentiated f...
We present a model for determining the dimensionless spin parameter and mass of the black hole remna...
The discovery of gravitational waves (GW) by Advanced LIGO has ushered us into an era of observation...
Over the course of the third observing run of the LIGO-Virgo-KAGRA Collaboration, several gravitatio...
Gravitational waves from coalescing binary black holes encode the evolution of their spins prior to ...
Over the course of the third observing run of LIGO-Virgo-KAGRA Collaboration, several gravitational-...
We use a 3-D relativistic SPH (Smoothed Particle Hydrodynamics) code to study mergers of black hole ...
The first direct detection of neutron-star– black-hole binaries will likely be made with gravitation...
Black-hole–neutron-star mergers resulting in the disruption of the neutron star and the formation of...
Observations of gravitational waves and their electromagnetic counterparts may soon uncover the exis...
Black-hole neutron-star binary mergers, whose existence has been confirmed by gravitational-wave det...
We explore the degeneracy between mass and spin in gravitational waveforms emitted by black-hole-bin...
Observations of gravitational waves and their electromagnetic counterparts may soon uncover the exis...
The first direct detection of neutron-star-black-hole binaries will likely be made with gravitationa...
We present general relativistic numerical simulations of binary neutron star (BNS) mergers with diff...
The gravitational-wave signal from the merger of two neutron stars cannot be easily differentiated f...
We present a model for determining the dimensionless spin parameter and mass of the black hole remna...
The discovery of gravitational waves (GW) by Advanced LIGO has ushered us into an era of observation...
Over the course of the third observing run of the LIGO-Virgo-KAGRA Collaboration, several gravitatio...
Gravitational waves from coalescing binary black holes encode the evolution of their spins prior to ...
Over the course of the third observing run of LIGO-Virgo-KAGRA Collaboration, several gravitational-...
We use a 3-D relativistic SPH (Smoothed Particle Hydrodynamics) code to study mergers of black hole ...
The first direct detection of neutron-star– black-hole binaries will likely be made with gravitation...