However, when two neutron stars collide — like the famous merger observed in 2017 — they create a unique opportunity to study these mysteries. As they spiral toward each other over millions of years, ...

Core package to analyze gravitational-wave data, find signals, and study their parameters. This package was used in the first direct detection of gravitational waves (GW150914), and is used in the ...

"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 ...

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 ...

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 ringdown" phase ...

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 ...

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 ...