Imagine carrying a device in your pocket that can measure sea level rise with pinpoint accuracy, detect earthquakes hundreds of kilometers away, or even help hunt for elusive dark matter. For decades, ...

A new theory developed by Johns Hopkins (Baltimore, Maryland) researchers, if harnessed, could lead to cooler computer chips and better biosensors. According to the researchers when atoms in the ...

Researchers at UNSW have found a way to make atomic nuclei communicate through electrons, allowing them to achieve entanglement at scales used in today’s computer chips. This breakthrough brings ...

Researchers have demonstrated entanglement between atomic nuclei separated by 20 nanometres, using electrons as mediators, advancing prospects for large-scale quantum computing on silicon. (Nanowerk ...

The relentless shrinking of silicon components has led to exponential improvements in chip performance, but we’re starting to hit physical limits. Now researchers have developed a way to integrate ...

Working memory chips just 10 atoms thick could lead to radically larger storage capacity in electronic devices like smartphones. After decades of miniaturisation, current computer chips now have ...

Bring me the horizon. Or faster and more power-efficient chips, one of the two. When you purchase through links on our site, we may earn an affiliate commission. Here’s how it works. Add us as a ...

Like their conventional counterparts, quantum computers can also break down. They can sometimes lose the atoms they manipulate to function, which can stop calculations dead in their tracks. But ...

Researchers made iron telluride into a superconducting thin film by reducing crystal distortion, enabling use in quantum chips at very low temperatures. (Nanowerk News) If quantum computing is going ...