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

"The discovery of this stream highlights how much is still unknown about the life histories of galaxies, how the hidden ...

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.

First-light images from the Vera C. Rubin Observatory have revealed a 163,000-light-year stream of stars emanating from the ...

Researchers in Japan say they have used AI to produce the first Milky Way simulation that follows more than 100 billion ...

Scientists have created the first-ever simulation that models every one of the Milky Way’s 100 billion stars, using AI to run galaxy-scale physics 100 times faster than previous methods.

The galaxy, known as Y1, existed just 800 million years after the Big Bang and is forming stars 180 times faster than the ...

The James Webb Space Telescope has captured a fleeting, spectral flash from the Milky Way’s central black hole, a signal that ...

Potential impactors are most likely to have low velocities and the highest likelihood of hitting Earth during the winter.

James Webb Space Telescope's mid-infrared instrument (MIRI) noticed an infrared flare from the Milky Way's supermassive black ...