Nobel Prize winners showcase quantum tunnelling in macroscopic circuits, paving the way for quantum computing.

This year's Nobel Prize in Physics honors a trio whose 1980s experiments made quantum circuits—and today’s quantum ...

Their experiment proved that quantum effects can exist in large, tangible systems, not just at the subatomic level.

The Nobel Prize winners didn't just make a scientific discovery. They opened a doorway to the future -- a future where the ...

Think of it this way: if you roll a ball toward a wall, it will bounce back. That’s normal physics. But in the quantum world, a tiny particle might sometimes pass straight through the wall, as if the ...

Charity Chingondo, 24, recently completed a four-month electrical installation training at Mbera Community Skills Development ...

But perhaps this was because the academy’s announcement had committed the journalist’s faux pas of burying the lead: the science led to the invention of a crucial part of the technology for making ...

How the study of the tunnel effect at the macro level will help to create a new generation of computers and sensors ...

Industrial tech veteran Peter Herweck, who was CEO at Schneider Electric before a senior team reshuffle late last year, has ...

Harbor Freight is a great place to go when looking to round out your shop or garage's tool complement on the cheap, but it's ...

John Clarke, Michel Devoret and John Martinis get the award for demonstrating quantum mechanical effects at the macroscale ...

John Clarke of UC Berkeley and Michel H. Devoret and John M. Martinis of UC Santa Barbara won the Nobel Prize in physics for ...