Researchers combined deep learning with high-resolution physics to create the first Milky Way model that tracks over 100 billion stars individually. Their AI learned how gas behaves after supernovae, ...

A long-held dream in astronomy has finally come into reach, and it carries a surprising emotional weight. For years, ...

AI-boosted simulation models one hundred billion Milky Way stars over ten thousand years, achieving one hundred times the ...

Synthesizing new proteins – the building blocks of biological life – is a scientific field of immense potential, and a newly developed AI model promises to create instructions for new proteins way ...

A new simulation model shows Earth's evolution over the past 100 million years in a very detailed manner. The sun sets behind artist Luke Jerram's 'Floating Earth' at Pennington Flash on November 22, ...

Researchers combined AI and supercomputers to simulate 100 billion stars, reproducing galactic phenomena faster than ever, opening possibilities for astrophysics and other scientific disciplines.

Dr. Marcus Hale, a physicist at the University of Cambridge, has proposed a fascinating theory that could potentially ...

A new platform developed at Scripps Research enables fast, scalable protein evolution. This potentially opens the door to new therapies and diagnostics. In addition, the technology may aid scientists ...

Amino acids make up millions of proteins that drive the chemical gears of life, including essential bodily functions in animals. Because of amino acids' relationship to living things scientists are ...

The figure shows the evolution of the microstructure of the melt pool under the influence of the simulated transient temperature field. Nucleated grains are represented in pink-purple plots, while ...