Gravitational wave astronomy has established its role in measuring the equation of state governing cold supranuclear matter. To date and in the near future, gravitational wave measurements from neutron star binaries arc likely to be restricted to the inspiral. However, future upgrades and the next generation of gravitational wave detectors will enable us to detect the gravitational wave signatures emitted after the merger of two stars, at times when densities beyond those in single neutron stars are reached. Therefore, the postmerger gravitational wave signal enables studies of supranuclear matter at its extreme limit. To support this line of research, we present new and updated phenomenological relations between the binary properties and c...
In this work we analyze the gravitational wave signal from hypermassive neutron stars formed after t...
Gravitational waves provide us with an extraordinary tool to study the matter inside neutron stars. ...
Remnants of neutron-star mergers are essentially massive, hot, differentially rotating neutron stars...
Gravitational wave astronomy has established its role in measuring the equation of state governing c...
Gravitational wave astronomy has established its role in measuring the equation of state governing c...
Gravitational wave astronomy has established its role in measuring the equation of state governing c...
Gravitational wave astronomy has established its role in measuring the equation of state governing c...
Gravitational wave astronomy has established its role in measuring the equation of state governing c...
Gravitational wave astronomy has established its role in measuring the equation of state governing c...
Gravitational wave astronomy has established its role in measuring the equation of state governing c...
Gravitational wave astronomy has established its role in measuring the equation of state governing c...
Gravitational waves provide us with an extraordinary tool to study the matterinside neutron stars. I...
A binary neutron star coalescence event has recently been observed for the first time in gravitation...
A binary neutron star coalescence event has recently been observed for the first time in gravitation...
Gravitational waves provide us with an extraordinary tool to study the matter inside neutron stars. ...
In this work we analyze the gravitational wave signal from hypermassive neutron stars formed after t...
Gravitational waves provide us with an extraordinary tool to study the matter inside neutron stars. ...
Remnants of neutron-star mergers are essentially massive, hot, differentially rotating neutron stars...
Gravitational wave astronomy has established its role in measuring the equation of state governing c...
Gravitational wave astronomy has established its role in measuring the equation of state governing c...
Gravitational wave astronomy has established its role in measuring the equation of state governing c...
Gravitational wave astronomy has established its role in measuring the equation of state governing c...
Gravitational wave astronomy has established its role in measuring the equation of state governing c...
Gravitational wave astronomy has established its role in measuring the equation of state governing c...
Gravitational wave astronomy has established its role in measuring the equation of state governing c...
Gravitational wave astronomy has established its role in measuring the equation of state governing c...
Gravitational waves provide us with an extraordinary tool to study the matterinside neutron stars. I...
A binary neutron star coalescence event has recently been observed for the first time in gravitation...
A binary neutron star coalescence event has recently been observed for the first time in gravitation...
Gravitational waves provide us with an extraordinary tool to study the matter inside neutron stars. ...
In this work we analyze the gravitational wave signal from hypermassive neutron stars formed after t...
Gravitational waves provide us with an extraordinary tool to study the matter inside neutron stars. ...
Remnants of neutron-star mergers are essentially massive, hot, differentially rotating neutron stars...