Researchers at University of Tsukuba have successfully measured electric fields near the surfaces of two-dimensional layered ...

Nearly all light emitted by nitrogen-vacancy centres can be collected, providing a boost for these room-temperature quantum ...

A series of sulfides/carbon composites with sulfur vacancies-rich sulfides heterointerfaces are well-designed and developed via a simple one-pot carrageenan-assistant cations-regulated strategy.

Diamond has long been the go-to material for quantum sensing due to its coherent nitrogen-vacancy centres, controllable spin, sensitivity to magnetic fields, and ability to be used at room temperature ...

Physicists at Purdue University have levitated nanoscale diamonds, hit them with lasers to make them flash and sent them spinning at an incredible 1.2 billion rpm. The experiments aren’t just about ...

Tin-vacancy (Sn-V) centers in diamond have the potential to function as quantum nodes in quantum networks to transmit information. However, they pose limitations while showing optical properties to ...

NV diamond sensor. Courtesy: Ella Marushchenko for Norman Yao’s group Quantum sensors based on nitrogen vacancy (NV) colour centres in diamond can be used to probe the magnetic and structural ...

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 ...

Researchers have discovered a novel way to manipulate defects in semiconductors. The study holds promising opportunities for novel forms of precision sensing, or the transfer of quantum information ...