Graphene-based tunable plasmonic Bragg reflector with a broad bandwidth

Jin Tao; Xuechao Yu; Bin Hu; Alexander Dubrovkin; Qi Jie Wang

doi:10.1364/OL.39.000271

Graphene-based tunable plasmonic Bragg reflector with a broad bandwidth

Jin Tao
, Xuechao Yu
, Bin Hu
, Alexander Dubrovkin
, Qi Jie Wang^*

^*Corresponding author for this work

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

110 Citations (Scopus)

Abstract

We propose and numerically analyze a plasmonic Bragg reflector formed in a graphene waveguide. The results show that the graphene plasmonic Bragg reflector can produce a broadband stopband that can be tuned over a wide wavelength range by a small change in the Fermi energy level of graphene. By introducing a defect into the Bragg reflector, we can achieve a Fabry-Perot-like microcavity with a quality factor of 50 for the defect resonance mode formed in the stopband. The proposed Bragg reflector could be used as a broadband ultrafast tunable integrated filter and a broadband modulator. In addition, the defect microcavity may find applications in graphene-based resonators.

Original language	English
Pages (from-to)	271-274
Number of pages	4
Journal	Optics Letters
Volume	39
Issue number	2
DOIs	https://doi.org/10.1364/OL.39.000271
Publication status	Published - 15 Jan 2014
Externally published	Yes

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AU - Tao, Jin

AU - Yu, Xuechao

AU - Hu, Bin

AU - Dubrovkin, Alexander

AU - Wang, Qi Jie

PY - 2014/1/15

Y1 - 2014/1/15

N2 - We propose and numerically analyze a plasmonic Bragg reflector formed in a graphene waveguide. The results show that the graphene plasmonic Bragg reflector can produce a broadband stopband that can be tuned over a wide wavelength range by a small change in the Fermi energy level of graphene. By introducing a defect into the Bragg reflector, we can achieve a Fabry-Perot-like microcavity with a quality factor of 50 for the defect resonance mode formed in the stopband. The proposed Bragg reflector could be used as a broadband ultrafast tunable integrated filter and a broadband modulator. In addition, the defect microcavity may find applications in graphene-based resonators.

AB - We propose and numerically analyze a plasmonic Bragg reflector formed in a graphene waveguide. The results show that the graphene plasmonic Bragg reflector can produce a broadband stopband that can be tuned over a wide wavelength range by a small change in the Fermi energy level of graphene. By introducing a defect into the Bragg reflector, we can achieve a Fabry-Perot-like microcavity with a quality factor of 50 for the defect resonance mode formed in the stopband. The proposed Bragg reflector could be used as a broadband ultrafast tunable integrated filter and a broadband modulator. In addition, the defect microcavity may find applications in graphene-based resonators.

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ER -

Graphene-based tunable plasmonic Bragg reflector with a broad bandwidth

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