Three scientists at U.S. universities won the Nobel Prize in physics for advancing quantum technology. Here's why their work matters.

Making electrons flow like a liquid is difficult, but inside graphene researchers forced them to move so fast that they created dramatic shockwaves ...

In a remarkable leap for quantum physics, researchers in Japan have uncovered how weak magnetic fields can reverse tiny electrical currents in kagome metals—quantum materials with a woven atomic ...

Yet even at this apparently late date in the field's development, there are companies that are still developing entirely new qubit technologies, betting the company that they have identified something ...

New studies of the “platypus of materials” help explain how their atoms arrange themselves into orderly, but nonrepeating, patterns.

Atomic imaging shows graphene nanoribbons retain atomic structure and adjustable electronic alignment after transfer to graphene, offering a clear route toward stable, reproducible nanoelectronic ...

Riyadh, September 21, 2025, SPA -- The Ministry of Interior, in partnership with the General Entertainment Authority (GEA), will organize the “Ezz Al-Watan” event in celebration of the Kingdom’s 95th ...

Research suggests some metals’ semicore electrons may be more active on Earth’s surface than previously thought.

Superconductivity is a phenomenon where certain materials can conduct electricity with zero resistance. Obviously, this has enormous technological advantages, which makes superconductivity one of the ...

Scientists are closer to creating a quantum spin liquid, a state where electron spins stay dynamic even at near absolute zero, key for future quantum computing.

You probably learned in high school chemistry class that core electrons don't participate in chemical bonding.