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Prof John Morton

BA, MA, MEng, DPhil, FInstP

Professor of Nanoelectronics/Nanophotonics

2C5 LCN, 17-19 Gordon Street

Address:London Centre for Nanotechnology
17-19 Gordon Street
London WC1H 0AH
Research Group:Electronic Materials and Devices
Telephone: +44 (0)20 7679 2367 / 32367 (internal)  
Fax:+44 (0)20 7388 9325

Dr John Morton has been a Royal Society University Research Fellow since 2008, and moved from Oxford University to UCL in 2012, where he leads the Quantum Spin Dynamics research group.

John came up to Cambridge Univeristy to read Natural Sciences, and ended up graduating in Electrical and Information Engineering (EIST), receiving his BA/MEng in 2002. He obtained his D.Phil (PhD) in Materials at Oxford University for his thesis, entitled “Electron spins in fullerenes as prospective qubits”. This was awarded the First Prize by the IoP Quantum Electronics and Photonics division in 2006. From 2005 to 2009 he held a Junior Research Fellowship at St. John’s College, Oxford, and then a Science Research Fellowship there from 2010-2012.

John serves on the editorial board of Scientific Reports, and is Physical Sciences chair in Nature Index. In 2008 he was awarded the Nicholas Kurti European Science prize for research involving low temperatures and high magnetic fields and received the Cavendish Medal for Physics at SET for Britain 2008. In 2011, John received a European Research Council Starter Grant. To date, John has graduated 6 PhD students, and has a current group of five PhD students, plus postdoctoral research fellow support. He has published 61 papers with over 2200 citations and has an h-index of 24. He is the recipient of the 2013 IoP Moseley Medal, awarded to early-career researchers for exceptional work in experimental physics.

John has been active in the public engagement of science, and presented an exhibit at the Royal Society Summer Exhibit 2012 entitled "Quantum of Spin".

John's research involves the coherent control of electron and nuclear spins in solid state materials and devices, with a focus on quantum technologies. Quantum technologies are ones which exploit quantum superposition and entanglement to achieve major advances over current technologies in areas including communication, sensing and information processing.

The systems John studies include donors in silicon (including bulk measurements and transport through nanoscale devices) as well as custom-designed molecules which exhibit particular spin interactions. Specific research interests include: the transfer of quantum information between different degrees of freedom, understanding and mitigating spin decoherence mechanisms, the interaction of nuclear spins with transient electron spins and robust methods for generating spin entanglement.

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