Future events such as the weather or satellite trajectories are computed in tiny time steps, so the computation must be both ...

For nearly a century, scientists have understood how crystalline materials—such as metals and semiconductors—bend without ...

Surprisingly, some of the universe's brightest objects are black holes. As scorching gas and dust flow around and into a ...

A new article examines the history of computing to help outline the direction of quantum research. It reports that quantum technology is advancing quickly, and that the major obstacles now involve ...

The year 2025 delivered clearer engineering roadmaps, major capital commitments and steady commercial traction in quantum ...

Deadly and destructive, earthquakes remain unpredictable, but faster models that look beneath the ground, can help better ...

On Saturday December 6, 2025 Alaska was rocked by a 7.0 magnitude quake . Though not always so forceful, earthquakes happen every day. On average, about 55 of them strike daily, according to the ...

Working with OptQC, the Japanese company wants to make a game-changing optical quantum computer that operates at room ...

Scientists have discovered that moonquakes, not meteoroids, are responsible for shifting terrain near the Apollo 17 landing ...

LimbNET, a new open-access and user-friendly platform from EMBL Barcelona, enables scientists to simulate how gene networks ...

A team of computational astrophysicists has developed a simulation that explains the behavior of matter around black holes.

Using cutting-edge algorithms and exascale supercomputers, researchers have created the most realistic simulations yet of matter flowing into black holes. Building on decades of research, a group of c ...