Beyond the hybridization effects in plasmonic nanoclusters: diffraction-induced enhanced absorption and scattering.

Mohsen Rahmani Andrey E Miroshnichenko Dang Yuan Lei Boris Luk'yanchuk Michael I Tribelsky Arseniy I Kuznetsov Yuri S Kivshar Yan Francescato Vincenzo Giannini Minghui Hong Stefan A Maier

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Data Storage Institute, A*STAR (Agency for Science Technology and Research), DSI Building, 5 Engineering Drive 1, 117608, Singapore; Department of Physics, Imperial College London, London, SW7 2AZ, United Kingdom; Department of Electrical and Computer Engineering, National University of Singapore, 117576, Singapore.

Published: February 2014

It is demonstrated herein both theoretically and experimentally that Young's interference can be observed in plasmonic structures when two or three nanoparticles with separation on the order of the wavelength are illuminated simultaneously by a plane wave. This effect leads to the formation of intermediate-field hybridized modes with a character distinct of those mediated by near-field and/or far-field radiative effects. The physical mechanism for the enhancement of absorption and scattering of light due to plasmonic Young's interference is revealed, which we explain through a redistribution of the Poynting vector field and the formation of near-field subwavelength optical vortices.

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http://dx.doi.org/10.1002/smll.201301419	DOI Listing

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