Numerical investigation of a bidirectional wave coupler based on plasmonic Bragg gratings in the near infrared domain

Zhan Fu; Qiaoqiang Gan; Kailu Gao; Zhongqi Pan; Filbert J. Bartoli

doi:10.1109/JLT.2008.927793

Numerical investigation of a bidirectional wave coupler based on plasmonic Bragg gratings in the near infrared domain

Zhan Fu, Qiaoqiang Gan, Kailu Gao, Zhongqi Pan, Filbert J. Bartoli

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

35 Scopus citations

Abstract

In this paper, we present a theoretical discussion of the design of bidirectional wave couplers based on plasmonic Bragg gratings in the near infrared domain. A key feature in the design of the plasmonic Bragg gratings is the dependence of the effective refractive index on the thickness of the dielectric layer. These gratings, which function as band rejection filters, enable directional coupling of different SPP modes. By placing two gratings with different band gaps on opposite sides of a subwavelength metallic slit, a bidirectional plasmonic surface wave coupler can be realized. Two-dimensional (2-D) FDTD simulations were performed to elucidate the properties of the device, and were found to agree well with the theoretical predictions. Finally, the wave confinement properties of the plasmonic Bragg gratings are studied further by introducing the equivalent 1-D photonic crystal band structures. © 2008 IEEE.

Original language	English (US)
Pages (from-to)	3699-3703
Number of pages	5
Journal	Journal of Lightwave Technology
Volume	26
Issue number	22
DOIs	https://doi.org/10.1109/JLT.2008.927793
State	Published - Dec 1 2008
Externally published	Yes

ASJC Scopus subject areas

Atomic and Molecular Physics, and Optics

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10.1109/JLT.2008.927793

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title = "Numerical investigation of a bidirectional wave coupler based on plasmonic Bragg gratings in the near infrared domain",

abstract = "In this paper, we present a theoretical discussion of the design of bidirectional wave couplers based on plasmonic Bragg gratings in the near infrared domain. A key feature in the design of the plasmonic Bragg gratings is the dependence of the effective refractive index on the thickness of the dielectric layer. These gratings, which function as band rejection filters, enable directional coupling of different SPP modes. By placing two gratings with different band gaps on opposite sides of a subwavelength metallic slit, a bidirectional plasmonic surface wave coupler can be realized. Two-dimensional (2-D) FDTD simulations were performed to elucidate the properties of the device, and were found to agree well with the theoretical predictions. Finally, the wave confinement properties of the plasmonic Bragg gratings are studied further by introducing the equivalent 1-D photonic crystal band structures. {\textcopyright} 2008 IEEE.",

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AU - Gao, Kailu

AU - Pan, Zhongqi

AU - Bartoli, Filbert J.

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N2 - In this paper, we present a theoretical discussion of the design of bidirectional wave couplers based on plasmonic Bragg gratings in the near infrared domain. A key feature in the design of the plasmonic Bragg gratings is the dependence of the effective refractive index on the thickness of the dielectric layer. These gratings, which function as band rejection filters, enable directional coupling of different SPP modes. By placing two gratings with different band gaps on opposite sides of a subwavelength metallic slit, a bidirectional plasmonic surface wave coupler can be realized. Two-dimensional (2-D) FDTD simulations were performed to elucidate the properties of the device, and were found to agree well with the theoretical predictions. Finally, the wave confinement properties of the plasmonic Bragg gratings are studied further by introducing the equivalent 1-D photonic crystal band structures. © 2008 IEEE.

AB - In this paper, we present a theoretical discussion of the design of bidirectional wave couplers based on plasmonic Bragg gratings in the near infrared domain. A key feature in the design of the plasmonic Bragg gratings is the dependence of the effective refractive index on the thickness of the dielectric layer. These gratings, which function as band rejection filters, enable directional coupling of different SPP modes. By placing two gratings with different band gaps on opposite sides of a subwavelength metallic slit, a bidirectional plasmonic surface wave coupler can be realized. Two-dimensional (2-D) FDTD simulations were performed to elucidate the properties of the device, and were found to agree well with the theoretical predictions. Finally, the wave confinement properties of the plasmonic Bragg gratings are studied further by introducing the equivalent 1-D photonic crystal band structures. © 2008 IEEE.

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Numerical investigation of a bidirectional wave coupler based on plasmonic Bragg gratings in the near infrared domain

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