The collision and merger of two neutron stars—the incredibly dense remnants of collapsed stars—are some of the most energetic ...

The transformation of neutrinos in a neutron star merger could be crucial to shaping the way events of the collision unfold.

An international research collaboration has used advanced computer simulations to investigate how faint radio signals from ...

Research team includes astrophysicists, computer scientists, artists, and philosophers from UC Riverside, USC, and Carnegie ...

New simulations show that neutrino flavor transformations change both the composition and the signals left behind after neutron star collisions. When two neutron stars collide and merge, the result is ...

A $4 million grant from the John Templeton Foundation enables a team of scholars from USC, the University of California, ...

New research shows how faint radio signals from the early Universe, soon to be detected by Moon missions, could reveal dark ...

When two neutron stars collide, they unleash some of the most powerful forces in the universe, creating ripples in spacetime, ...

Faint hydrogen signals from the cosmic Dark Ages may soon help determine the mass of dark matter particles. Simulations suggest future Moon-based observatories could distinguish between warm and cold ...

New simulations suggest globular clusters form in multiple ways and point to a mysterious new type of star system that may ...

Supercomputers are powerful machines designed for complex problem-solving, using parallel computing with thousands of ...