The team used intense X-rays to confirm a key theoretical concept that explains a material's conductivity crash.

Penn State scientists have devised a new method to predict superconducting materials that could work at higher temperatures.

The key is to embed a radium atom in a molecule, which contains and intensifies the activities of its electrons, explains ...

Physicists finally identified why some quantum materials seemingly lose their electrical conductivity for no reason.

A research group led by Prof. Li Xiangyang from the Hefei Institutes of Physical Science of the Chinese Academy of Sciences, ...

The rapidly growing field of research on chiral phonons is giving researchers new insights into the fundamental behaviors and structures of materials. The chirality of phonons could pave the way for ...

The energetic particles are currently bombarding satellites orbiting Earth, peppering their imaging systems and disrupting ...

MIT physicists unveil evidence of unconventional superconductivity in magic-angle twisted tri-layer graphene, revealing ...

This video explains how diodes function as directional components in electronic circuits. Diodes allow current to flow in ...

If these knots had a slight bias toward matter over antimatter, their unraveling could help explain the matter-antimatter imbalance, the paper stated. A thorough mathematical investigation of this ...

To physically demonstrate how this would work in a real-world scenario, researchers used the film of a P3TTM molecule to ...

Space Solar revelations as Comet 3I/ATLAS rapidly brightens, a tiny tyrannosaur prompts T. rex rethink, and the unexpected ...