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

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 ...

EVE Frontier' developers Helgi Freyr Rúnarsson and Guðlaugur Jóhannesson talk galaxy merger models, black holes, and the thin ...

Our understanding of cosmology hinges on how well we know our own local universe, which remains poorly mapped and poorly ...

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 ...

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

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

For decades, astronomers have wondered what the very first stars in the universe were like. These stars formed new chemical elements, which enriched the universe and allowed the next generations of ...

Long before galaxies sparkled in the sky or stars took shape, invisible forces stirred in the early Universe. One of those ...

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

In the past, scientists used traditional simulation methods to figure out what these planetary systems looked like, which was quite labor-intensive. But now, with AI stepping in, everything has ...