All-optical logic gates based on nanoscale plasmonic slot waveguides

Yulan Fu; Xiaoyong Hu; Cuicui Lu; Song Yue; Hong Yang; Qihuang Gong

doi:10.1021/nl303095s

All-optical logic gates based on nanoscale plasmonic slot waveguides

Yulan Fu, Xiaoyong Hu^*, Cuicui Lu, Song Yue, Hong Yang, Qihuang Gong

^*Corresponding author for this work

Peking University

Research output: Contribution to journal › Article › peer-review

335 Citations (Scopus)

Abstract

We report realizations of nanoscale integrated all-optical XNOR, XOR, NOT, and OR logic gates using plasmonic slot waveguides based on linear interference between surface plasmon polariton modes. The miniature device size with lateral dimensions smaller than 5 μm, precisely controlled optical phase difference, and quasi-monochromatic surface plasmon polariton modes excited by a continuous wave 830 nm laser beam ensure a high intensity contrast ratio of 24 dB between the output logic states "1" and "0". Compared with previous reported results, the intensity contrast ratio is enhanced 4-fold, whereas the lateral dimension is reduced 4-fold. These compact logic devices are stable, robust, free from environmental impact, and much suitable for practical on-chip applications. These also provide a means to construct all-optical logic devices and nanophotonic processors.

Original language	English
Pages (from-to)	5784-5790
Number of pages	7
Journal	Nano Letters
Volume	12
Issue number	11
DOIs	https://doi.org/10.1021/nl303095s
Publication status	Published - 14 Nov 2012
Externally published	Yes

Keywords

Surface plasmon polaritons
all-optical logic gates
linear interference effect
plasmonic slot waveguide

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10.1021/nl303095s

Cite this

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title = "All-optical logic gates based on nanoscale plasmonic slot waveguides",

abstract = "We report realizations of nanoscale integrated all-optical XNOR, XOR, NOT, and OR logic gates using plasmonic slot waveguides based on linear interference between surface plasmon polariton modes. The miniature device size with lateral dimensions smaller than 5 μm, precisely controlled optical phase difference, and quasi-monochromatic surface plasmon polariton modes excited by a continuous wave 830 nm laser beam ensure a high intensity contrast ratio of 24 dB between the output logic states {"}1{"} and {"}0{"}. Compared with previous reported results, the intensity contrast ratio is enhanced 4-fold, whereas the lateral dimension is reduced 4-fold. These compact logic devices are stable, robust, free from environmental impact, and much suitable for practical on-chip applications. These also provide a means to construct all-optical logic devices and nanophotonic processors.",

keywords = "Surface plasmon polaritons, all-optical logic gates, linear interference effect, plasmonic slot waveguide",

author = "Yulan Fu and Xiaoyong Hu and Cuicui Lu and Song Yue and Hong Yang and Qihuang Gong",

year = "2012",

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TY - JOUR

T1 - All-optical logic gates based on nanoscale plasmonic slot waveguides

AU - Fu, Yulan

AU - Hu, Xiaoyong

AU - Lu, Cuicui

AU - Yue, Song

AU - Yang, Hong

AU - Gong, Qihuang

PY - 2012/11/14

Y1 - 2012/11/14

N2 - We report realizations of nanoscale integrated all-optical XNOR, XOR, NOT, and OR logic gates using plasmonic slot waveguides based on linear interference between surface plasmon polariton modes. The miniature device size with lateral dimensions smaller than 5 μm, precisely controlled optical phase difference, and quasi-monochromatic surface plasmon polariton modes excited by a continuous wave 830 nm laser beam ensure a high intensity contrast ratio of 24 dB between the output logic states "1" and "0". Compared with previous reported results, the intensity contrast ratio is enhanced 4-fold, whereas the lateral dimension is reduced 4-fold. These compact logic devices are stable, robust, free from environmental impact, and much suitable for practical on-chip applications. These also provide a means to construct all-optical logic devices and nanophotonic processors.

AB - We report realizations of nanoscale integrated all-optical XNOR, XOR, NOT, and OR logic gates using plasmonic slot waveguides based on linear interference between surface plasmon polariton modes. The miniature device size with lateral dimensions smaller than 5 μm, precisely controlled optical phase difference, and quasi-monochromatic surface plasmon polariton modes excited by a continuous wave 830 nm laser beam ensure a high intensity contrast ratio of 24 dB between the output logic states "1" and "0". Compared with previous reported results, the intensity contrast ratio is enhanced 4-fold, whereas the lateral dimension is reduced 4-fold. These compact logic devices are stable, robust, free from environmental impact, and much suitable for practical on-chip applications. These also provide a means to construct all-optical logic devices and nanophotonic processors.

KW - Surface plasmon polaritons

KW - all-optical logic gates

KW - linear interference effect

KW - plasmonic slot waveguide

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All-optical logic gates based on nanoscale plasmonic slot waveguides

Abstract

Keywords

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