The controlled generation of single photons is an essential element of numerous quantum technology applications, such as ...

Scientists are steadily advancing toward a future where quantum communication networks could revolutionize how ...

Under the direction of Prof. Dr. Tim Schröder, a research team from the Joint Lab Diamond Nanophotonics at the Ferdinand-Braun-Institut (FBH) in Berlin and the Integrated Quantum Photonics working ...

What happens if you embed an ultrafast quantum computer inside a diamond (you know, aside from qualifying for sale in one of Tiffany’s catalogues and inviting “forever” computing quips)? Answer: You ...

A new quantum system called giant superatoms could protect quantum information and enable entanglement between multiple ...

Inside most photonic chips, light races through tiny optical wires. It carries information far faster than electricity can in many conventional systems.

A small mathematical revision to quantum mechanics could effectively limit the purported infinite capacities of quantum computers—if validated, that is.

Quantum computers could solve certain problems that would take traditional classical computers an impractically long time to solve. At the Japan Advanced Institute of Science and Technology (JAIST), ...

What once took up the entire space in IBM’s lab in the 60’s, now fits on a chip. With tech. breakthroughs, it’s been about the how and when — as will quantum on a chip.

After 30 months of fast-paced innovation in quantum algorithms, six research groups are hoping to hit paydirt. But there can be only one big winner—if there is a winner at all.

The synthetic diamond market is transforming, with technology-grade diamonds driving growth as lab-grown gemstone prices plummet. Key investments exceed $4 billion, focusing on AI chip cooling, ...