Multi-Band-Stop Filter for Single-Photon Transport Based on a One-Dimensional Waveguide Side Coupled with Optical Cavities

Guangda Dong; Yongyou Zhang; John F. Donegan; Bingsuo Zou; Yong Song

doi:10.1007/s11468-014-9718-z

Multi-Band-Stop Filter for Single-Photon Transport Based on a One-Dimensional Waveguide Side Coupled with Optical Cavities

Guangda Dong, Yongyou Zhang^*, John F. Donegan, Bingsuo Zou, Yong Song

^*此作品的通讯作者

科研成果: 期刊稿件 › 文章 › 同行评审

5 引用（Scopus）

摘要

A model of a multi-band-stop filter is proposed for single-photon transport, using a one-dimensional waveguide side coupled with a series of optical cavities. Its transmission behavior is theoretically studied by a real-space model Hamiltonian and is found to depend on cavity mode frequencies, cavity relative phases, as well as cavity number and the coupling strength between the waveguide and the optical cavities. With proper cavity-mode frequencies and relative phases, the proposed model shows multi-band-stop regions and a rectangular transmission spectrum. Based on these phenomena, optical filters with more than one band-stop regions are simulated with gold material in the THz and communication band.

源语言	英语
页（从-至）	1085-1089
页数	5
期刊	Plasmonics
卷	9
期	5
DOI	https://doi.org/10.1007/s11468-014-9718-z
出版状态	已出版 - 1 10月 2014

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title = "Multi-Band-Stop Filter for Single-Photon Transport Based on a One-Dimensional Waveguide Side Coupled with Optical Cavities",

abstract = "A model of a multi-band-stop filter is proposed for single-photon transport, using a one-dimensional waveguide side coupled with a series of optical cavities. Its transmission behavior is theoretically studied by a real-space model Hamiltonian and is found to depend on cavity mode frequencies, cavity relative phases, as well as cavity number and the coupling strength between the waveguide and the optical cavities. With proper cavity-mode frequencies and relative phases, the proposed model shows multi-band-stop regions and a rectangular transmission spectrum. Based on these phenomena, optical filters with more than one band-stop regions are simulated with gold material in the THz and communication band.",

keywords = "Electromagnetically induced transparency, Multi-band-stop filter, One-dimensional waveguide",

author = "Guangda Dong and Yongyou Zhang and Donegan, {John F.} and Bingsuo Zou and Yong Song",

note = "Publisher Copyright: {\textcopyright} 2014, Springer Science+Business Media New York.",

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T1 - Multi-Band-Stop Filter for Single-Photon Transport Based on a One-Dimensional Waveguide Side Coupled with Optical Cavities

AU - Dong, Guangda

AU - Zhang, Yongyou

AU - Donegan, John F.

AU - Zou, Bingsuo

AU - Song, Yong

PY - 2014/10/1

Y1 - 2014/10/1

N2 - A model of a multi-band-stop filter is proposed for single-photon transport, using a one-dimensional waveguide side coupled with a series of optical cavities. Its transmission behavior is theoretically studied by a real-space model Hamiltonian and is found to depend on cavity mode frequencies, cavity relative phases, as well as cavity number and the coupling strength between the waveguide and the optical cavities. With proper cavity-mode frequencies and relative phases, the proposed model shows multi-band-stop regions and a rectangular transmission spectrum. Based on these phenomena, optical filters with more than one band-stop regions are simulated with gold material in the THz and communication band.

AB - A model of a multi-band-stop filter is proposed for single-photon transport, using a one-dimensional waveguide side coupled with a series of optical cavities. Its transmission behavior is theoretically studied by a real-space model Hamiltonian and is found to depend on cavity mode frequencies, cavity relative phases, as well as cavity number and the coupling strength between the waveguide and the optical cavities. With proper cavity-mode frequencies and relative phases, the proposed model shows multi-band-stop regions and a rectangular transmission spectrum. Based on these phenomena, optical filters with more than one band-stop regions are simulated with gold material in the THz and communication band.

KW - Electromagnetically induced transparency

KW - Multi-band-stop filter

KW - One-dimensional waveguide

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SN - 1557-1955

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JO - Plasmonics

JF - Plasmonics

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ER -

Multi-Band-Stop Filter for Single-Photon Transport Based on a One-Dimensional Waveguide Side Coupled with Optical Cavities

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