Time crystals exhibit perpetual motion-like behavior when separated from external energy input, but scientists found a way to ...

Penn Engineers have developed a mathematical "Rosetta Stone" that translates atomic and molecular movements into predictions ...

A collaborative team of physicists and microbiologists from UNIST and Stanford University has, for the first time, uncovered ...

Researchers in Konstanz discovered a way to manipulate materials with light by exciting magnon pairs, reshaping their ...

From industrial robots to self-driving cars, engineers face a common problem: keeping machines steady and predictable. When ...

MIT researchers found that metals retain hidden atomic patterns once believed to vanish during manufacturing. These patterns ...

To figure out how they slither through substances that should, in theory, resist their movement, a team led by Kenta Ishimoto ...

MIT researchers found that subtle chemical patterns persist in conventionally manufactured metal alloys, despite the mixing involved. The surprising finding could be used to tune metallic properties ...

Even after centuries of study, water continues to surprise us. The same molecule that sustains life on Earth can, under the ...

Instead of relying on switches or digital control, the light finds its own path through the system. This approach could transform data transmission, computing, and communications by making optical ...

Penn Engineers have developed a mathematical "Rosetta Stone" that translates atomic and molecular movements into predictions of larger-scale effects ...