4.5 Article

Tunable multiband metamaterial coherent perfect absorber based on graphene and vanadium dioxide

期刊

OPTICS COMMUNICATIONS
卷 523, 期 -, 页码 -

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ELSEVIER
DOI: 10.1016/j.optcom.2022.128691

关键词

Coherent perfect absorber; Plasmon resonance mode; Graphene; Vanadium dioxide

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资金

  1. National Natural Science Founda-tion of China [11664020]
  2. Natural Science Foundation of Hunan Province, China [2019JJ40533]
  3. Opening Foundation of Hunan Province Key Laboratory of Materials Surface & Interface Science and Technology [KFBJM2019001]

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This paper proposes a tunable multiband metamaterial coherent perfect absorber using graphene and VO2 particles' plasmon resonance modes. The absorption spectrum exhibits three high absorptivity peaks, with the range of absorption peak adjustment based on graphene's plasmon resonance mode being 7.88 µm. The absorption peak stemming from the plasmon resonance mode of VO2 particle disappears as VO2 transitions from the metal phase to the insulating phase. Modulation depth of absorption peak can reach 98.85% by controlling the relative phase of two coherent light beams. The resonance wavelengths and intensities of absorption peaks are influenced by array period, side length of VO2 particle, and silica layer thickness. The findings in this study are important for the engineering of actively tunable nano plasmonic devices and metamaterials.
In this paper, we propose a tunable multiband metamaterial coherent perfect absorber, where vanadium dioxide (VO2) square particles are periodically arranged on the two sides of polysilicon-silica-graphene-silica- polysilicon structure. The absorption spectrum of our absorber exhibits three peaks with high absorptivity which are originated from the plasmon resonance modes of graphene and VO2 particle. Benefitting from the tunable conductivity of graphene, the adjustment range of the absorption peak based on the first-order plasmon resonance mode of graphene is as much as 7.88 mu m when the Fermi level of graphene is increased from 0.3 to 1 eV. As VO2 is changed from metal phase to insulating phase, the absorption peak stemming from the plasmon resonance mode of VO(2 )particle disappears. The modulation depth of absorption peak can achieve up to 98.85% by tuning the relative phase of two coherent light beams. The resonance wavelengths and intensities of absorption peaks are also dependent on the array period, side length of VO2 particle and the thickness of silica layer. In addition, the change of surrounding refractive index causes a shift of the absorption peak corresponding to VO2 particle. Our findings are helpful for the engineering of actively tunable nano plasmonic devices and metamaterials.

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