At the big bang, matter was created from the initial energy when it cooled enough for particles to form. But how was space ...

Discovery reshapes our understanding of heat transfer in extreme materials, with implications for inertial confinement fusion and high-energy-density science ...

An international collaboration has shown that additive manufacturing offers a realistic way to build large-scale plastic scintillator detectors for particle physics experiments.

A mysterious phenomenon at the center of our galaxy could be the result of a different type of dark matter. Dark matter, the ...

An ambitious start-up embodies new optimism that artificial intelligence can turbocharge scientific discovery.

A mysterious phenomenon at the centre of our galaxy could be the result of a different type of dark matter.Dark matter, the mysterious form of ...

A team of researchers from Würzburg has for the first time experimentally demonstrated a quantum tornado. Electrons form vortices in the momentum space of the quantum semi-metal tantalum arsenide.

Physicists have transformed laser light into a supersolid, marking an entirely new process for achieving this mysterious ...

At Carnegie Mellon, women in the sciences contribute to advancement and innovations at the forefront of discovery, while lifting each other along the way.

In a groundbreaking experiment, researchers have successfully transformed light into a supersolid, an unusual state of matter ...

When it starts taking scientific data in 2028, the Square Kilometre Array Observatory promises to be the world’s largest and ...

For decades, people have been trying to directly detect dark matter: the missing mass in our universe. Now, there's a new, ...