Numerous component technologies are in use today to realize the range of passive and active functions needed for optical transmission systems. Many companies hope to provide lower prices and increased ...

Researchers use microscopic defects inside a diamond to build a chain of three qubits (pictured as small circles with arrows) that they can use for quantum sensing. They start from a central defect, ...

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 paper has solved a major hurdle facing researchers working with diamond by creating a novel way of bonding diamonds directly to materials that integrate easily with either quantum or conventional ...

The Quantum Systems Accelerator (QSA), a National Quantum Information Science Research Center funded by the U.S. Department of Energy Office of Science, takes a science-first approach to exploring new ...

A research team affiliated with UNIST has unveiled a quantum device, capable of ultra-fast operation, a key step toward ...

Scientists at the University of Sydney (USyd) have revealed a new way of assessing the performance of quantum devices that adapts techniques used in autonomous vehicles and robotics testing. Quantum ...

Most of today's quantum computers rely on qubits with Josephson junctions that work for now but likely won't scale as needed ...

A new technique can control a larger number of microscopic defects in a diamond. These defects can be used as qubits for quantum sensing applications, and being able to control a greater number of ...

A new paper from the UChicago Pritzker School of Molecular Engineering’s High Lab and Argonne National Laboratory shows a novel way of bonding diamonds directly to materials that integrate easily with ...

(Nanowerk News) In quantum sensing, atomic-scale quantum systems are used to measure electromagnetic fields, as well as properties like rotation, acceleration, and distance, far more precisely than ...

(Nanowerk News) Synthetic diamond is durable, inert, rigid, thermally conductive and chemically well-behaved – an elite material for both quantum and conventional electronics. But there’s one problem.