To study the interactions between electrons in a material, physicists have come up with a number of tricks over the years.

Imagine a world where your phone stays cool no matter how long you use it, and it's also equipped with tiny sensors that can ...

in the twisted crystal lattices a “superlattice” with a much larger lattice constant arises, in which the electrons can move. “In our new method we also produce a moiré material ...

"The extreme selectivity offered by our SSE-based approach makes it a highly efficient method for lithium harvesting ... and tightly packed crystalline lattice of the SSE prevented water molecules ...

JILA researchers are pioneering a nuclear clock using thorium-229, which offers unprecedented stability compared to atomic ...

Researchers develop method to precisely control calcium phosphate structure at the 300-nanometer scale using bone-forming ...

Japanese scientists have created diamond quantum sensors that can monitor EV batteries with great precision to help improve ...

This breakthrough in quantum physics could revolutionize quantum computing, optical circuits, and photonic devices, advancing ...