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    Journals >Acta Optica Sinica >Volume 37 >Issue 11 >Page 1123002 > Article
    • Acta Optica Sinica
    • Vol. 37, Issue 11, 1123002 (2017)
    Mode Properties of Metal-Insulator-Metal Waveguide Bragg Grating
    Yilin Chen, Ji Xu, Nannan Shi, Yu Zhang, Yunfan Wang, Xu Gao, and Yunqing Lu
    Author Affiliations
  • School of Opto-Electronic Engineering, Nanjing University of Posts and Telecommunications, Nanjing, Jiangsu 210023, China
    • show less
    DOI: 10.3788/AOS201737.1123002 Cite this Article Set citation alerts
    Yilin Chen, Ji Xu, Nannan Shi, Yu Zhang, Yunfan Wang, Xu Gao, Yunqing Lu. Mode Properties of Metal-Insulator-Metal Waveguide Bragg Grating[J]. Acta Optica Sinica, 2017, 37(11): 1123002 Copy Citation Text show less
    Structure schematic of MIM type waveguide
    Fig. 1. Structure schematic of MIM type waveguide
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    (a) Effective refractive index neff and (b) dispersion diagram of antisymmetric bound mode and symmetric bound mode in MIM waveguide; when the incident wavelength is 1310 nm, Ex distributions of (c) antisymmetric bound mode and (d) symmetric bound mode of air; Exdistributions of (e) antisymmetric bound mode and (f) symmetric bound mode of SiO2; when the incident wavelength is 1550 nm, Ex distributions of (g) antisymmetric bound mode and (h) symmetric bound mode of air; Ex distributions of (i) an
    Fig. 2. (a) Effective refractive index neff and (b) dispersion diagram of antisymmetric bound mode and symmetric bound mode in MIM waveguide; when the incident wavelength is 1310 nm, Ex distributions of (c) antisymmetric bound mode and (d) symmetric bound mode of air; Exdistributions of (e) antisymmetric bound mode and (f) symmetric bound mode of SiO2; when the incident wavelength is 1550 nm, Ex distributions of (g) antisymmetric bound mode and (h) symmetric bound mode of air; Ex distributions of (i) an
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    Structure schematic of MIM WBG
    Fig. 3. Structure schematic of MIM WBG
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    (a) Dispersion diagram and (b) transmission spectrum of MIM WBG
    Fig. 4. (a) Dispersion diagram and (b) transmission spectrum of MIM WBG
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    Ex distributions of symmetric bound mode with the energy of (a) 0.68 eV, (b) 0.72 eV, (c) 0.8 eV, (d) 0.94 eV and(e) 1.07 eV, respectively; Ex distributions of antisymmetric bound mode for with the energy of (f) 0.8 eV and (g) 0.94 eV, respectively
    Fig. 5. Ex distributions of symmetric bound mode with the energy of (a) 0.68 eV, (b) 0.72 eV, (c) 0.8 eV, (d) 0.94 eV and(e) 1.07 eV, respectively; Ex distributions of antisymmetric bound mode for with the energy of (f) 0.8 eV and (g) 0.94 eV, respectively
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    Dispersion diagram of MIM WBG with different refractivity deviations
    Fig. 6. Dispersion diagram of MIM WBG with different refractivity deviations
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    ParameterValue /eVParameterValue /eVParameterValue /eV
    ωp9.010f00.845Γ00.048
    ω10.816f10.065Γ13.386
    ω24.481f20.124Γ20.452
    ω38.185f30.011Γ30.065
    ω49.083f40.840Γ40.916
    ω520.290f55.646Γ52.419
    Table 1. Parameters of Lorentz-Drude model
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    Yilin Chen, Ji Xu, Nannan Shi, Yu Zhang, Yunfan Wang, Xu Gao, Yunqing Lu. Mode Properties of Metal-Insulator-Metal Waveguide Bragg Grating[J]. Acta Optica Sinica, 2017, 37(11): 1123002
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