Plasmonic slow light waveguide with hyperbolic metamaterials claddings

Shuhai Liang; Chuhao Jiang; Zhiqiang Yang; Dacheng Li; Wending Zhang; Ting Mei; Dawei Zhang

doi:10.1088/2040-8986/aabc18

Plasmonic slow light waveguide with hyperbolic metamaterials claddings

Shuhai Liang, Chuhao Jiang, Zhiqiang Yang, Dacheng Li, Wending Zhang, Ting Mei, Dawei Zhang

School of Physical Science and Technology

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

18 Scopus citations

Abstract

Plasmonic waveguides with an insulator core sandwiched between hyperbolic metamaterials (HMMs) claddings, i.e. HIH waveguide, are investigated for achieving wide slow-light band with adjustable working wavelength. The transfer matrix method and the finite-difference-time-domain simulation are employed to study waveguide dispersion characteristics and pulse propagation. By selecting proper silver filling ratios for HMMs, the hetero-HIH waveguide presents a slow-light band with a zero group velocity dispersion wavelength of 1.55 μm and is capable of buffering pulses with pulse width as short as ∼20 fs. This type of waveguides might be applicable for ultrafast slow-light application.

Original language	English
Article number	065001
Journal	Journal of Optics (United Kingdom)
Volume	20
Issue number	6
DOIs	https://doi.org/10.1088/2040-8986/aabc18
State	Published - Jun 2018

Keywords

metamaterials
planar
plasmonics
slow light
surface plasmons
waveguides

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10.1088/2040-8986/aabc18

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title = "Plasmonic slow light waveguide with hyperbolic metamaterials claddings",

abstract = "Plasmonic waveguides with an insulator core sandwiched between hyperbolic metamaterials (HMMs) claddings, i.e. HIH waveguide, are investigated for achieving wide slow-light band with adjustable working wavelength. The transfer matrix method and the finite-difference-time-domain simulation are employed to study waveguide dispersion characteristics and pulse propagation. By selecting proper silver filling ratios for HMMs, the hetero-HIH waveguide presents a slow-light band with a zero group velocity dispersion wavelength of 1.55 μm and is capable of buffering pulses with pulse width as short as ∼20 fs. This type of waveguides might be applicable for ultrafast slow-light application.",

keywords = "metamaterials, planar, plasmonics, slow light, surface plasmons, waveguides",

author = "Shuhai Liang and Chuhao Jiang and Zhiqiang Yang and Dacheng Li and Wending Zhang and Ting Mei and Dawei Zhang",

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T1 - Plasmonic slow light waveguide with hyperbolic metamaterials claddings

AU - Liang, Shuhai

AU - Jiang, Chuhao

AU - Yang, Zhiqiang

AU - Li, Dacheng

AU - Zhang, Wending

AU - Mei, Ting

AU - Zhang, Dawei

PY - 2018/6

Y1 - 2018/6

N2 - Plasmonic waveguides with an insulator core sandwiched between hyperbolic metamaterials (HMMs) claddings, i.e. HIH waveguide, are investigated for achieving wide slow-light band with adjustable working wavelength. The transfer matrix method and the finite-difference-time-domain simulation are employed to study waveguide dispersion characteristics and pulse propagation. By selecting proper silver filling ratios for HMMs, the hetero-HIH waveguide presents a slow-light band with a zero group velocity dispersion wavelength of 1.55 μm and is capable of buffering pulses with pulse width as short as ∼20 fs. This type of waveguides might be applicable for ultrafast slow-light application.

AB - Plasmonic waveguides with an insulator core sandwiched between hyperbolic metamaterials (HMMs) claddings, i.e. HIH waveguide, are investigated for achieving wide slow-light band with adjustable working wavelength. The transfer matrix method and the finite-difference-time-domain simulation are employed to study waveguide dispersion characteristics and pulse propagation. By selecting proper silver filling ratios for HMMs, the hetero-HIH waveguide presents a slow-light band with a zero group velocity dispersion wavelength of 1.55 μm and is capable of buffering pulses with pulse width as short as ∼20 fs. This type of waveguides might be applicable for ultrafast slow-light application.

KW - metamaterials

KW - planar

KW - plasmonics

KW - slow light

KW - surface plasmons

KW - waveguides

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Plasmonic slow light waveguide with hyperbolic metamaterials claddings

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