Researchers developed a quantum-dot circularly polarized light sensor using chiral charge transport layers, spanning ultraviolet to short-wave infrared wavelengths.

Quantum sensors leverage quantum phenomena to offer dramatically increased sensitivity compared to traditional sensors. The growing suite of quantum sensors available today opens a diverse range of ...

The highly integrated vector magnetometer developed by the Fraunhofer Institute for Applied Solid State Physics IAF is based on nitrogen vacancies (NV) in diamond and provides access to the smallest ...

Quantum sensing is an emerging field that exploits the unique properties of quantum systems to develop highly sensitive and precise sensors. By harnessing quantum effects such as superposition, ...

Quantum sensors, which leverage quantum phenomena to dramatically increase sensitivity compared to traditional sensors, open a plethora of new applications for electric vehicles (EVs), GPS-denied ...

Quantum computing has been touted as a revolutionary advance that uses our growing scientific understanding of the subatomic world to create a machine with powers far ...

SBQuantum, a Canadian company, is set to launch a quantum diamond magnetometer to space ...

What’s the sensing aspect of quantum technology, and what potential it promises within the quantum computing domain? How can engineers create production-ready quantum sensing products? Where do ...

Quantum sensors are fascinating instruments that reveal nature to us in ways that were unthinkable just a few years ago. These are relatively small devices that help investigate items of scientific ...

Quantum computing research is evolving fast, but there a significant doubts if these devices will be relevant to the average ...