Using artificial intelligence, researchers at the RIKEN Center for Interdisciplinary Theoretical and Mathematical Sciences, ...

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

Astronomers have witnessed a massive star's explosive death, a supernova, for the first time in its early stages. Observed by ...

Astronomers have, for the first time, recorded the moment a star’s explosion broke through its surface. The nearby supernova, ...

Several telescopes used to observe the supernova SN Zwicky which was magnified nearly 25 times by a foreground galaxy acting ...

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

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

Observations with the European Southern Observatory’s Very Large Telescope (ESO’s VLT) have revealed the explosive death of a star.

Nowadays, scientists armed with sophisticated telescopes witness many supernovas every year, but they have all been distant ...

The time required to run the simulation has also been dramatically reduced. Simulating 1 million years took only 2.78 hours.

A research team in Japan has created a groundbreaking Milky Way simulation that follows more than 100 billion stars with a level of detail that was once thought impossible.

The explosion, known as SN 2024ggi, was first detected on the night of 10 April 2024 local time. Yi Yang, an assistant professor at Tsinghua University in Beijing and the study's lead author, had just ...