Gravitational waves from neutron-fundamental person mergers could level to quark-gluon plasma

Gravitational waves from neutron-fundamental person mergers could level to quark-gluon plasma

Dark star crashes: the computer simulation of two merging neutron stars (left) blended with an image of heavy-ion collisions at CERN to highlight the connection of astrophysics with nuclear physics. Courtesy: Lukas R Weih and Luciano Rezzolla/Goethe University Frankfurt and CMS/CERN) Gravitational waves from neutron star mergers could provide vital information for testing theories of…

View More Gravitational waves from neutron-fundamental person mergers could level to quark-gluon plasma
In the Newest Gravitational Wave Signal, a Unique Music Meets an Mature Prediction

In the Newest Gravitational Wave Signal, a Unique Music Meets an Mature Prediction

An image from a numerical simulation of a black-hole binary merger with asymmetric masses and orbital precession. Caption and image: N. Fischer, H. Pfeiffer, A. Buonanno (Max Planck Institute for Gravitational Physics), Simulating eXtreme Spacetimes (SXS) Collaboration For the first time, two international experiments designed to observe and study gravitational waves – ripples in the…

View More In the Newest Gravitational Wave Signal, a Unique Music Meets an Mature Prediction