Control of randomly scattered surface plasmon polaritons for multiple-input and multiple-output plasmonic switching devices

Authors
Choi, WonjunJo, YonghyeonAhn, JoonmoSeo, EunsungPark, Q-HanJhon, Young MinChoi, Wonshik
Issue Date
2017-03
Publisher
Nature Publishing Group
Citation
Nature Communications, v.8
Abstract
Merging multiple microprocessors with high-speed optical networks has been considered a promising strategy for the improvement of overall computation power. However, the loss of the optical communication bandwidth is inevitable when interfacing between optical and electronic components. Here we present an on-chip plasmonic switching device consisting of a two-dimensional (2D) disordered array of nanoholes on a thin metal film that can provide multiple-input and multiple-output channels for transferring information from a photonic to an electronic platform. In this device, the surface plasmon polaritons (SPPs) generated at individual nanoholes become uncorrelated on their way to the detection channel due to random multiple scattering. We exploit this decorrelation effect to use individual nanoholes as independent antennas, and demonstrated that more than 40 far-field incident channels can be delivered simultaneously to the SPP channels, an order of magnitude improvement over conventional 2D patterned devices.
Keywords
OPTICAL NANOCIRCUITS; FIELD; INTERFEROMETERS; ILLUMINATION; LITHOGRAPHY; MICROSCOPY; NETWORKS; CIRCUITS; MEDIA; scattered surface plasmon; polaritons; switching devices
ISSN
2041-1723
URI
https://pubs.kist.re.kr/handle/201004/123015
DOI
10.1038/ncomms14636
Appears in Collections:
KIST Article > 2017
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