The merger of two neutron stars is among the leading candidate sites for synthesizing the heavier elements on the periodic table through the rapid-neutron-capture process. The image shows two ...

More information: David Radice et al, Ab-initio General-relativistic Neutrino-radiation Hydrodynamics Simulations of Long-lived Neutron Star Merger Remnants to Neutrino Cooling Timescales, The ...

AI-driven methods, particularly deep learning ... These methods have been applied to study events such as binary neutron star mergers and neutron star-black hole collisions, uncovering details ...

Now, a single event has given scientists a vital clue. Astronomers witnessed the collision of two neutron stars in a distant galaxy located 130 million light years from Earth. Neutron stars are ...

As binary neutron stars inspiral for millions of years, they emit gravitational waves, but the most intense emission occurs at and just milliseconds after the moment of merging. The post-merger ...

(Nanowerk News) Scientists at Goethe University Frankfurt have identified a new way to probe the interior of neutron stars using gravitational waves from their collisions. By analyzing the "long ...

Ten are black hole mergers; one occurrence was the result of a collision between dense star remnants, so-called neutron stars. The international collaboration operates three laser interferometer ...

"The detection of this signal has the potential to reveal what neutron stars are made of ... rapidly rotating post-merger remnant that also emits gravitational waves while spinning, albeit ...

"The rate of these neutron star mergers in our galaxy is about one every 100,000 years. On human time scales, that's a long time," Duncan Brown, an astronomer at Syracuse University who's a member ...