FormationQ today announced the launch of a new applied quantum program in collaboration with the Cavendish Laboratory at the University of Cambridge. Powered by IonQ—the world's leading quantum ...

‘An artistic schematic of the investigation of a single spin in hexagonal boron nitride via confocal microscopy, showing the objective lens focussing the laser light on the sample with a coil for spin ...

In a study published in Nature Materials, scientists at Cavendish Laboratory have found two new approaches to enhancing organic semiconductors. Emptying of valence and deeper-valence bands through ...

Click to open image viewer. Replicas of Cavendish Lab. Apparatus (5, l. to r.); obj. ID no. EM.N-08013-A Thompson's cathode ray tube #2, EM.318206 Thompson's cathode ray tube #3, EM.N-08019 Rutherford ...

Click to open image viewer. Replicas of Cavendish Lab. Apparatus (5, l. to r.); obj. ID no. EM.N-08013-A Thompson's cathode ray tube #2, EM.318206 Thompson's cathode ray tube #3, EM.N-08019 Rutherford ...

Quantum technology research at the Cavendish Laboratory will benefit from a new collaboration with FormationQ, an independent platform for quantum adoption and application, to help speed translation ...

Researchers have discovered that a 'single atomic defect' in a layered 2D material can hold onto quantum information for microseconds at room temperature. This underscores the broader potential of 2D ...