A quantum bus for large-scale diamond quantum computers. This project aims to experimentally demonstrate a device needed to bus quantum information between defect clusters in large scale quantum computers. Quantum computers could transcend limits of today’s ‘classical’ computers. Diamond is a proven platform for small-scale quantum computing and simple quantum algorithms have already been demonstrated using small clusters of diamond defects. To build a large-scale quantum computer that can reali ....A quantum bus for large-scale diamond quantum computers. This project aims to experimentally demonstrate a device needed to bus quantum information between defect clusters in large scale quantum computers. Quantum computers could transcend limits of today’s ‘classical’ computers. Diamond is a proven platform for small-scale quantum computing and simple quantum algorithms have already been demonstrated using small clusters of diamond defects. To build a large-scale quantum computer that can realise the potential of quantum computing, a device must be invented to bus quantum information between defect clusters. This project will experimentally demonstrate physical mechanisms that were theoretically identified for the operation of such a device. This is expected to make a quantum bus for large-scale diamond quantum computers possible.Read moreRead less
Mechanical control of defect spins in diamond and its applications in quantum technology. This project will demonstrate the mechanical control of optically addressable defect spins in diamond in order to rapidly exploit innovative approaches to quantum technologies, including high sensitivity metrology and information processing. This will be achieved by capitalising on the proven quantum applications of the nitrogen-vacancy defect centre in diamond and the performance of both fundamental inquir ....Mechanical control of defect spins in diamond and its applications in quantum technology. This project will demonstrate the mechanical control of optically addressable defect spins in diamond in order to rapidly exploit innovative approaches to quantum technologies, including high sensitivity metrology and information processing. This will be achieved by capitalising on the proven quantum applications of the nitrogen-vacancy defect centre in diamond and the performance of both fundamental inquiry into the effects of mechanical stress on this centre and the design, fabrication and operation of simple nano-mechanical devices. Read moreRead less