Topics covered include atomic clocks, quantum magnetic field sensors, quantum gyroscopes, quantum accelerometers, quantum gravimeters, quantum RF sensors, single photon detectors, quantum imaging, and ...

As technology matures, early adopters will gain a competitive edge by harnessing unprecedented computational power to drive ...

Quantum sensors based on nitrogen–vacancy (NV) centres, a defect found in diamonds, are sensitive detectors of single spins. Jiang-Feng Du’s group uses them to gain new understanding of ...

A sensor that uses the principles of quantum mechanics to detect minuscule changes in motion and electromagnetic fields. Exploiting the energy levels in atoms, quantum sensors are expected to ...

Discover the possibilities of twisted bilayer graphene as a replacement for silicon in integrated circuits and it's potential.

The institute, led by the University of Texas Austin, includes researchers from across CU Boulder. The Colorado-based team will help develop new quantum sensors drawing on JILA’s decades of experience ...

Quantum sensors can be significantly more precise than conventional sensors and are used for Earth observation, navigation, material testing, and chemical or biomedical analysis, for example.

including so-called quantum sensors. Networks of quantum sensors could theoretically be used to measure specific parameters with remarkable precision. These networks leverage a quantum phenomenon ...

You will work in a team of researchers and engineers employed across RMIT and the two industry partners to research and develop radiofrequency (RF) receivers and spectrum analysers that rely on ...