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研究领域

1. New technologies that explaoit quantum physics: quantum sensors, quantum communications, and quantum computing. Theory to support the developement of these technologies on various platforms, including novel silicon and diamond based materials. 2. Energy harvesting, transfer and storage understood at the quantum level. Modelling of energy flow phenomena in both artificial and living (e.g. photosynthetic) systems.

近期论文

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Nickerson, N., Li, Y. and Benjamin, S. C., 'Topological quantum computing with a very noisy network and local error rates approaching one percent' Nature Communications 4, Article 1756 (2013) OPEN article http://www.nature.com/ncomms/journal/v4/n4/full/ncomms2773.html Li, Y., Barrett, S., Stace, T. and Benjamin, S. 'Long range failure-tolerant entanglement distribution' New J. Phys. 15 023012 (2013) Knee, G. C., Briggs, G. A. D., Benjamin, S. C. and Gauger, E. M., 'Quantum sensors based on weak-value amplification cannot overcome decoherence, Phys. Rev. A 87, 012115 (2013) Ping, Y., Lovett, B. W., Benjamin, S. C. and Gauger, E. M., Practicality of spin chain 'wiring' in diamond quantum technologies, Phys. Rev. Lett. 110, 100503 (2013) Ping, Y., Gauger, E. M., and Benjamin, S. C. 'Measurement-based quantum computing with a spin ensemble coupled to a stripline cavity' New J. Phys. 14, 013030 (2012) Knee, G. et al, 'Violation of a Leggett–Garg inequality with ideal non-invasive measurements' Nature Communications 3, Article number: 606 (2012) OPEN article

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