There is a big problem with quantum technology—it's tiny. The distinctive properties that exist at the subatomic scale ...

A new AI-driven approach to tokamak plasma control offers an improved route to commercial fusion technology. Next Step Fusion ...

Quantum technology struggles with scaling up, as the special properties of quantum materials typically vanish in larger structures. Researchers have now found a way to maintain quantum properties in ...

Chinese scientists sustain plasma at 100 million degrees C for 1,066 seconds in EAST, advancing nuclear fusion research.

Discover the challenges and breakthroughs in nuclear fusion, the clean energy source of the future. Learn about the science ...

Using optical spectroscopy techniques, theoretical modeling and calculation, the researchers determined that this magnetic confinement held firm no matter how many layers were in the system and no ...

ITER, the International Thermonuclear Experimental Reactor, may be the grandest scientific experiment in the world. Initially ...

Controlling how electrons interact in semiconductors is crucial for the development of electronic and optical devices. Quantum scientists have now discovered a surprisingly efficient new mechanism to ...

The distinctive properties that exist at the subatomic scale usually disappear at macroscopic scales, making it difficult to ...

This work reports on the magnetic confinement of excitons by analyzing how light reflects off the material’s surface. Dr. Florian Dirnberger, an author on both publications, expresses his ...