Over the past decades, quantum scientists have introduced various technologies that operate leveraging quantum mechanical effects, including quantum sensors, computers and memory devices. Most of ...

Quantum sensors leverage control over fundamental particles to enable highly sensitive measurements of a range of physical properties, including electric and magnetic fields, current, gravity, linear ...

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 ...

The tree diagram shows three perspectives for evaluating the sensitivity limits (green leaves). These perspectives are interconnected (red dashed lines) and are constrained by fundamental principles ...

The highly integrated vector magnetometer is based on nitrogen vacancies (NV) in diamond and provides access to the smallest magnetic fields with a previously unattainable degree of flexibility and ...

Researchers at the University of Science and Technology of China have demonstrated that quantum entanglement between pairs of ...

A startup company called SBQuantum (SBQ) is attempting to revolutionise navigation in locations where GPS is unavailable. The business creates and markets diamond-based quantum magnetometers for ...

Key players, technologies, applications, materials, and 20-year granular quantum sensor market forecasts for: atomic clocks, quantum magnetic field sensors ...

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 ...