The Milky Way contains more than 100 billion stars, each following its own evolutionary path through birth, life, and ...

Learn how a newly detected gamma-ray halo in the Milky Way could mark the first direct glimpse of dark matter.

Astrophysicists have always dreamed of running a simulation of the Milky Way that could track every single star—each orbit, ...

The new study reports the detection of a mysterious halo-like glow of gamma rays around the Milky Way, peaking sharply at ...

Simulating a billion years using previous best-resolution simulations would take almost 36 years of real computing time.

Astronomers watched how the light brightened and dimmed near the event horizon of the Milky Way's supermassive black hole, ...

For the first time, scientists have built a digital version of the Milky Way that follows the motion of individual stars, not ...

Researchers combined deep learning with high-resolution physics to create the first Milky Way model that tracks over 100 ...

Researchers have successfully performed the world's first Milky Way simulation that accurately represents more than 100 ...

LHAASO has uncovered that micro-quasars, black holes feeding on companion stars, are powerful PeV particle accelerators.

A new study claims to show evidence of gamma-ray emissions that closely resemble those expected from two weakly interacting ...

A groundbreaking study led by Professor Tomonori Totani from the University of Tokyo analyzed 15 years of data from the Fermi telescope and reported the detection of a peculiar halo-like glow of gamma ...