Physicists have spent decades building colossal machines to hurl subatomic particles to near light speed, but the newest frontier in accelerator technology is smaller than a fingernail. By etching ...

The age of room-sized (and larger) colliders may be coming to an end now that researchers from Stanford have developed a nano-scale particle accelerator that fits on a single silicon chip. Share on ...

In the case of the most recalcitrant by-product of the nuclear industry, physics has never been the bottleneck. It has been ...

Built in 1945, Electronic Numerical Integrator And Computer, or ENIAC, was the world’s first digital, programmable computer—it also weighed 30 tons and was the size of a small room. Today, computers ...

Banks of computer screens stacked two and three high line the walls. The screens are covered with numbers and graphs that are unintelligible to an untrained eye. But they tell a story to the operators ...

Texas A&M University professor Peter McIntyre and his colleagues want to build a particle accelerator around the rim of the Gulf of Mexico in order to discover the most fundamental building blocks of ...

This sample of niobium has been treated in a process that is typical for preparing particle accelerator components. Tests have revealed how adding oxygen to such components makes them more efficient.

Semiconductor chips are among the smallest and most detailed objects humans can manufacture. Shrinking the scale and upping the complexity is a fight against the limits of physics, and optical ...

With every new particle accelerator built for research, scientists have an opportunity to push the limits of discovery. But this is only true if new particle accelerators deliver the desired ...

This orientation map of a nitrogen-doped sample of niobium shows the formation of niobium nitrides (rainbow-colored shards) within grains and along grain boundaries (the grain boundaries shown are the ...