Marina Radulaski's lab at the UC Davis Department of Electrical and Computer Engineering is developing devices for quantum networking. Quantum computing technology is moving closer to wide application ...

(Nanowerk News) A promising route towards larger quantum computers is to orchestrate multiple task-optimised smaller systems. To dynamically connect and entangle any two systems, photonic interference ...

WASHINGTON, D.C., October 1, 2018 -- Silicon carbide (SiC), a material known for its toughness with applications from abrasives to car brakes, to high-temperature power electronics, has enjoyed ...

This is a preview. Log in through your library . Abstract Point defects in silicon carbide are rapidly becoming a platform of great interest for single-photon generation, quantum sensing, and quantum ...

Details of a microns-thick photonic device. UC Davis engineers have developed a new technique for creating quantum devices called color centers in silicon carbide, potentially opening up new ways to ...

A promising route towards larger quantum computers is to orchestrate multiple task-optimised smaller systems. To dynamically connect and entangle any two systems, photonic interference emerges as a ...

John Palmour, CTO at Cree, sat down with Semiconductor Engineering to talk about silicon carbide, how it compares to silicon, what’s different from a design and packaging standpoint, and where it’s ...

The growing adoption of silicon carbide (SiC) for a variety of automotive chips has reached the tipping point where most chipmakers now consider it a relatively safe bet, setting off a scramble to ...

Research into superfast quantum computers is now well advanced, but it is not yet possible to connect the individual processors. An international research team has now shown a way to scale quantum ...