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Reuven Gordon
Researcher at University of Victoria
Publications - 302
Citations - 11318
Reuven Gordon is an academic researcher from University of Victoria. The author has contributed to research in topics: Surface plasmon & Plasmon. The author has an hindex of 49, co-authored 291 publications receiving 9999 citations. Previous affiliations of Reuven Gordon include Universidade Estadual de Maringá & University of Toronto.
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Surface plasmon sensor based on the enhanced light transmission through arrays of nanoholes in gold films
TL;DR: Arrays of nanoholes in a gold film were used to monitor the binding of organic and biological molecules to the metallic surface, which found the sensitivity was found to be 400 nm per refractive index unit, which is comparable to other grating-based surface plasmon resonance (SPR) devices.
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Roadmap on structured light
Halina Rubinsztein-Dunlop,Andrew Forbes,Michael V Berry,Mark R. Dennis,David L. Andrews,Masud Mansuripur,Cornelia Denz,Christina Alpmann,Peter Banzer,Thomas Bauer,Ebrahim Karimi,Lorenzo Marrucci,Miles J. Padgett,Monika Ritsch-Marte,Natalia M. Litchinitser,Nicholas P. Bigelow,Carmelo Rosales-Guzmán,Aniceto Belmonte,Juan P. Torres,Tyler W. Neely,Mark Baker,Reuven Gordon,Alexander B. Stilgoe,Jacquiline Romero,Andrew White,Robert Fickler,Alan E. Willner,Guodong Xie,Benjamin J. McMorran,Andrew M. Weiner +29 more
TL;DR: In this paper, the key fields within structured light from the perspective of experts in those areas, providing insight into the current state and the challenges their respective fields face, as well as the exciting prospects for the future that are yet to be realized.
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A new generation of sensors based on extraordinary optical transmission.
TL;DR: Recent advances in the optical and spectroscopic properties of nanohole arrays in thin gold films and their applications for chemical sensing and enhanced spectroscopy are described.
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Self -induced back-action optical trapping of dielectric nanoparticles
TL;DR: In this paper, an approach in which the target particle itself plays an active part now achieves this using a lower light intensity, which means that heat-sensitive targets such as viruses could be manipulated directly.
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Strong polarization in the optical transmission through elliptical nanohole arrays.
TL;DR: Strong polarization dependence is observed in the optical transmission through nanohole arrays in metals and the depolarization ratio shows a squared dependence on the aspect ratio of the holes, which is discussed in terms of coupling into and out of the surface plasmon modes.