个人简介

David Andrews first joined UEA as a Lecturer, following doctoral studies in Chemistry, and a Research Associate position in the Department of Mathematics, both at University College London. At UEA, he gained a Chair in Chemical Physics in 1996. He has held Visiting Fellowships at University of Canterbury in New Zealand, and twice at the University of Western Ontario in Canada. Professor Andrews was elected a Fellow of the Royal Society of Chemistry in 1988, a Fellow of the Institute of Physics in 1999, and a Fellow of SPIE, the International Society for Optical Engineering, in 2006. He is now a member of the Board of Directors of SPIE, where he is strongly involved in conference organization. Professor Andrews leads the nanophotonics and quantum electrodynamics research group at UEA. The interests of his research group broadly concern developing the theory of molecular interactions - with each other, and with light - in terms of quantum electrodynamics (QED). Quantum electrodynamics is essentially the study of how matter interacts with light, treating both matter and light quantum mechanically. The QED group at UEA has been at the forefront in applications ranging from spectroscopy and nonlinear optics to the intermolecular transport of energy. Present research topics fall into four main areas: Molecular energy transfer and light harvesting; Nonlinear optics and photonics; Structured light and optical vortices; Laser-induced optical binding and inter-particle forces. The group enjoys strong international links, particularly with groups in Canada, Italy, Lithuania, New Zealand and the United States. Prof. Andrews has over 300 research papers and also a dozen books to his name, including as author a widely adopted textbook on Lasers in Chemistry, and as Editor-in-Chief a five-volume series entitled Comprehensive Nanoscience and Technology. He serves on the Editorial Boards of several international journals.

研究领域

Nanomanipulation with Light Optical Energy Harvesting

The current focus of his research group is on novel mechanisms for optical nanomanipulation and switching, and light-harvesting in nanostructured molecular systems. The group enjoys strong international links, particularly with groups in Canada, Lithuania, New Zealand and the United States. David Andrews leads research on fundamental molecular photonics and energy transport, optomechanical forces and nonlinear optical phenomena.

近期论文

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Bradshaw, D., Andrews, D.(2016)Chiral separation and twin-beam photonicsin Proceedings of SPIE9764. Full Text UEA Repository(Article) Williams, M., Bradshaw, D., Andrews, D.(2016)Quantum issues with structured light Full Text UEA Repository(Paper)Weeraddana, D., Premaratne, M., Andrews, D. L.(2016)Quantum electrodynamics of resonance energy transfer in nanowire systemsin Physical Review B93. Full Text UEA Repository(Article) Williams, M., Bradshaw, D., Andrews, D.(2016)On the emergence of Raman signals characterizing multicenter nanoscale interactionsin Proceedings of SPIE9884. Full Text UEA Repository(Article) Williams, M. D., Bradshaw, D. S., Andrews, D. L.(2016)Raman scattering mediated by neighboring moleculesin The Journal of Chemical Physics144. Full Text UEA Repository(Article) Schmidt, A., Andrews, D., Rohrbach, A., Gohn-Kreuz, C., Shatokhin, V., Kiselev, V., Hennig, J., von Elverfeldt, D., Hövener, J.(2016)Do twisted laser beams evoke nuclear hyperpolarization?in Journal of Magnetic Resonance268.pp. 58-67 Full Text UEA Repository(Article) Forbes, K. A., Williams, M. D., Andrews, D. L.(2016)Quantum theory for the nanoscale propagation of light through stacked thin film layersSPIE PressISBN 9781510601291 Full Text(Conference contribution)Forbes, K. A., Bradshaw, D. S., Andrews, D. L.(2016)Identifying diamagnetic interactions in scattering and nonlinear opticsin Physical Review A94. Full Text UEA Repository(Article) Weeraddana, D., Premaratne, M., Gunapala, S. D., Andrews, D. L.(2016)Quantum electrodynamical theory of high-efficiency excitation energy transfer in laser-driven nanostructure systemsin Physical Review B94. Full Text UEA Repository(Article) Andrews, D., Bradshaw, D., Dinshaw, R., Scholes, G.(2015)Resonance Energy TransferWileypp. 101-128ISBN 978-1-118-22552-3 UEA Repository(Chapter)Bradshaw, D., Andrews, D.(2015)Laser optical separation of chiral moleculesin Optics Letters40.pp. 677-680 Full Text UEA Repository(Article) Bradshaw, D., Andrews, D.(2015)Electromagnetic trapping of chiral molecules: Orientational effects of the irradiating beamin Journal of the Optical Society of America B32.pp. B25-B31 Full Text UEA Repository(Article) Andrews, D., Bradshaw, D.(2015)The viability of achieving chiral separation through the optical manipulation of molecules Full Text UEA Repository(Chapter)Bradshaw, D. S., Leeder, J. M., Coles, M., Andrews, D. L.(2015)Signatures of material and optical chirality: Origins and measuresin Chemical Physics Letters626.pp. 106–110 Full Text UEA Repository(Article) Liu, R., Phillips, D. B., Li, F., Williams, M. D., Andrews, D. L., Padgett, M. J.(2015)Discrete emitters as a source of orbital angular momentumin Journal of Optics17. Full Text UEA Repository(Article) Bradshaw, D., Forbes, K., Leeder, J., Andrews, D., Atomic and Molecular Physics, and Optics(2015)Chirality in optical trapping and optical bindingin Photonics2.pp. 483-497 Full Text UEA Repository(Article) Bradshaw, D., Coles, M., Andrews, D.(2015)Challenges concerning the discriminatory optical force for chiral moleculesin ArXiv e-prints UEA Repository(Article) Forbes, K. A., Andrews, D. L.(2015)Chiral discrimination in optical bindingin Physical Review A (PRA)91. Full Text UEA Repository(Article) Forbes, K., Bradshaw, D., Andrews, D.(2015)Discriminatory effects in the optical binding of chiral nanoparticlesin Proceedings of SPIE9548. Full Text UEA Repository(Article) Andrews, D., Leeder, J., Bradshaw, D.(2015)Advanced electrodynamic mechanisms for the nanoscale control of light by lightin Proceedings of SPIE9546. Full Text UEA Repository(Article)