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 ...

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 ...

Januar 2026From battery development and drug research to environmental modeling: With the Quantum Use Challenge and two other Helmholtz ...

In a scientific breakthrough, an international research team from Germany's Forschungszentrum Jülich and Korea's IBS Center for Quantum Nanoscience (QNS) developed a quantum sensor capable of ...

Physicists have unveiled a breakthrough in quantum sensing by demonstrating a 2D material as a versatile platform for next-generation nanoscale vectorial magnetometry. A team of physicists at the ...

Making certain that tiny, nanoscale transistors are performing correctly, understanding the properties of nanomaterials, or testing nano-scale medical devices all require the ability to measure ...

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 ...

Experimental set-up of hBN quantum sennsor. (Image: RMIT University) To date, quantum sensing chips have been made from diamond as it’s a very robust platform. The limitations of diamond-based sensors ...

The startup Mesa Quantum aims to commercialize its quantum sensors, which target more robust position, navigation and timing applications in miniaturized atomic clocks. It’s now one step closer to ...