Paul Delaney scite author profile

The nitrogen-vacancy (NV) colour centre in diamond is an important physical system for emergent quantum technologies, including quantum metrology, information processing and communications, as well as for various nanotechnologies, such as biological and sub-diffraction limit imaging, and for tests of entanglement in quantum mechanics. Given this array of existing and potential applications and the almost 50 years of NV research, one would expect that the physics of the centre is well understood, however, the study of the NV centre has proved challenging, with many early assertions now believed false and many remaining issues yet to be resolved. This review represents the first time that the key empirical and ab initio results have been extracted from the extensive NV literature and assembled into one consistent picture of the current understanding of the centre. As a result, the key unresolved issues concerning the NV centre are identified and the possible avenues for their resolution are examined.Comment: Review article, 101 pages, 31 figures, and 18 table

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The negatively charged nitrogen-vacancy centre in diamond: the electronic solution

Doherty

et al. 2011

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The negatively charged nitrogen-vacancy centre is a unique defect in diamond that possesses properties highly suited to many applications, including quantum information processing, quantum metrology, and biolabelling. Although the unique properties of the centre have been extensively documented and utilised, a detailed understanding of the physics of the centre has not yet been achieved. Indeed there persists a number of points of contention regarding the electronic structure of the centre, such as the ordering of the dark intermediate singlet states. Without a detailed model of the centre's electronic structure, the understanding of the system's unique dynamical properties can not effectively progress. In this work, the molecular model of the defect centre is fully developed to provide a self consistent model of the complete electronic structure of the centre. The application of the model to describe the effects of electric, magnetic and strain interactions, as well as the variation of the centre's fine structure with temperature, provides an invaluable tool to those studying the centre and a means to design future empirical and ab initio studies of this important defect.PACS numbers: 31.15.xh; 76.30.Mi Submitted to: New J. Phys.

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Correlated Electron Transport in Molecular Electronics

2004

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Broken symmetry and pseudogaps in ropes of carbon nanotubes

Delaney

Choi

Ihm

et al. 1998

Nature

364

178

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Spin-Polarization Mechanisms of the Nitrogen-Vacancy Center in Diamond

2010

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The nitrogen-vacancy (NV) center in diamond has shown great promise for quantum information due to the ease of initializing the qubit and of reading out its state. Here we show the leading mechanism for these effects gives results opposite from experiment; instead both must rely on new physics. Furthermore, NV centers fabricated in nanometer-sized diamond clusters are stable, motivating a bottom-up qubit approach, with the possibility of quite different optical properties to bulk.

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Paul Delaney

The nitrogen-vacancy colour centre in diamond

The negatively charged nitrogen-vacancy centre in diamond: the electronic solution

Correlated Electron Transport in Molecular Electronics

Broken symmetry and pseudogaps in ropes of carbon nanotubes

Spin-Polarization Mechanisms of the Nitrogen-Vacancy Center in Diamond

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