Larger enhancement in four-wave mixing from graphene embedded in one-dimensional photonic crystals

Lei Wang; Tiecheng Wang; Shihao Zhang; Ping Xie; Xiangdong Zhang

doi:10.1364/JOSAB.34.002000

Larger enhancement in four-wave mixing from graphene embedded in one-dimensional photonic crystals

Lei Wang, Tiecheng Wang, Shihao Zhang, Ping Xie, Xiangdong Zhang^*

^*Corresponding author for this work

School of Physics

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

3 Citations (Scopus)

Abstract

We demonstrate theoretically that the efficiency of four-wave mixing (FWM) can be enhanced by more than several orders in monolayer graphene by inserting it in a properly designed photonic crystal (PC). Two kinds of cases are considered. One is monolayer graphene embedded in defect PC, and the other is a stack of monolayer graphene in a dielectric multilayer structure. It is found that a larger enhancement of the efficiency in the FWM from the monolayer graphene can be obtained in two cases. Such an effective enhancement utilizes the improved field localization within the defect state or at the band-edge state. Due to the presence of a feedback mechanism at each interface of the multilayer, we demonstrate that the tunable phase conjugation by an external voltage can be effectively generated when only one pump wave is used.

Original language	English
Pages (from-to)	2000-2010
Number of pages	11
Journal	Journal of the Optical Society of America B: Optical Physics
Volume	34
Issue number	9
DOIs	https://doi.org/10.1364/JOSAB.34.002000
Publication status	Published - 1 Sept 2017

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abstract = "We demonstrate theoretically that the efficiency of four-wave mixing (FWM) can be enhanced by more than several orders in monolayer graphene by inserting it in a properly designed photonic crystal (PC). Two kinds of cases are considered. One is monolayer graphene embedded in defect PC, and the other is a stack of monolayer graphene in a dielectric multilayer structure. It is found that a larger enhancement of the efficiency in the FWM from the monolayer graphene can be obtained in two cases. Such an effective enhancement utilizes the improved field localization within the defect state or at the band-edge state. Due to the presence of a feedback mechanism at each interface of the multilayer, we demonstrate that the tunable phase conjugation by an external voltage can be effectively generated when only one pump wave is used.",

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AU - Wang, Tiecheng

AU - Zhang, Shihao

AU - Xie, Ping

AU - Zhang, Xiangdong

PY - 2017/9/1

Y1 - 2017/9/1

N2 - We demonstrate theoretically that the efficiency of four-wave mixing (FWM) can be enhanced by more than several orders in monolayer graphene by inserting it in a properly designed photonic crystal (PC). Two kinds of cases are considered. One is monolayer graphene embedded in defect PC, and the other is a stack of monolayer graphene in a dielectric multilayer structure. It is found that a larger enhancement of the efficiency in the FWM from the monolayer graphene can be obtained in two cases. Such an effective enhancement utilizes the improved field localization within the defect state or at the band-edge state. Due to the presence of a feedback mechanism at each interface of the multilayer, we demonstrate that the tunable phase conjugation by an external voltage can be effectively generated when only one pump wave is used.

AB - We demonstrate theoretically that the efficiency of four-wave mixing (FWM) can be enhanced by more than several orders in monolayer graphene by inserting it in a properly designed photonic crystal (PC). Two kinds of cases are considered. One is monolayer graphene embedded in defect PC, and the other is a stack of monolayer graphene in a dielectric multilayer structure. It is found that a larger enhancement of the efficiency in the FWM from the monolayer graphene can be obtained in two cases. Such an effective enhancement utilizes the improved field localization within the defect state or at the band-edge state. Due to the presence of a feedback mechanism at each interface of the multilayer, we demonstrate that the tunable phase conjugation by an external voltage can be effectively generated when only one pump wave is used.

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Larger enhancement in four-wave mixing from graphene embedded in one-dimensional photonic crystals

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