Scientists have transformed light into a supersolid, a breakthrough merging solid and liquid properties in quantum physics.

Can one single mathematical framework describe the motion of a fluid and the individual particles within it? This question, ...

Scientists have successfully "frozen" light, demonstrating that it can exist as a supersolid—a rare state of matter combining ...

A new technique in detector fabrication could change high-energy physics forever. By using additive manufacturing, ...

From your clothing to the water you drink, being mindful of microplastics can help reduce your exposure and health risk.

For the first time, researchers transformed light into a quantum crystalline structure to create a "supersolid" that's both ...

According to research published in the ACS partner journal Environment & Health, microplastics — particles from 1 to 62 ...

Energy efficiency is crucial for sustainability, yet vast amounts of low-temperature waste heat remain unused in industrial ...

With properties of a superfluid but with a crystalline structure, supersolids have previously only been observed in ultracold ...

Energy efficiency is crucial for sustainability, yet vast amounts of low-temperature waste heat remain unused in industrial ...

"In a quantum theater, where bosonic particles (particles with integer spin) go, everyone can sit in the central seat, forming what is called a Bose–Einstein condensate—a superfluid state in which a ...

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