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    Journals >Chinese Journal of Quantum Electronics >Volume 41 >Issue 5 >Page 830 > Article
    • Chinese Journal of Quantum Electronics
    • Vol. 41, Issue 5, 830 (2024)
    Design of microstructure octagonal photonic crystal fiber
    LIAO Kun, YAN Yixuan, XIN Zheng, and LI Fang
    Author Affiliations
  • School of Mechanical and Electronic Engineering, Pingxiang University, Pingxiang 337055, China
    • show less
    DOI: 10.3969/j.issn.1007-5461.2024.05.013 Cite this Article
    Kun LIAO, Yixuan YAN, Zheng XIN, Fang LI. Design of microstructure octagonal photonic crystal fiber[J]. Chinese Journal of Quantum Electronics, 2024, 41(5): 830 Copy Citation Text show less
    Cross section structure of microstructural photonic crystal fiber
    Fig. 1. Cross section structure of microstructural photonic crystal fiber
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    Relationship between the dispersion coefficient of the fundamental mode of the fiber and air aperture d
    Fig. 2. Relationship between the dispersion coefficient of the fundamental mode of the fiber and air aperture d
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    Relationship between the nonlinear coefficient of the fundamental mode of the fiber and air aperture d
    Fig. 3. Relationship between the nonlinear coefficient of the fundamental mode of the fiber and air aperture d
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    Relationship between the confinement loss of the fundamental mode of the fiber and air aperture d
    Fig. 4. Relationship between the confinement loss of the fundamental mode of the fiber and air aperture d
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    Relationship between the dispersion of the fundamental mode of the fiber and the spacing Λ2 of the air hole in the inner octagon
    Fig. 5. Relationship between the dispersion of the fundamental mode of the fiber and the spacing Λ2 of the air hole in the inner octagon
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    Relationship between the nonlinear coefficient of the fundamental mode of the fiber and the spacing Λ2 of the air hole in the inner octagon
    Fig. 6. Relationship between the nonlinear coefficient of the fundamental mode of the fiber and the spacing Λ2 of the air hole in the inner octagon
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    Relationship between the confinement loss of the fundamental mode of the fiber and the spacing Λ2 of the air hole in the inner octagon
    Fig. 7. Relationship between the confinement loss of the fundamental mode of the fiber and the spacing Λ2 of the air hole in the inner octagon
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    Dispersion (a), nonlinear coefficient (b), confinement loss (c) curves of the fundamental mode of the octagonal photonic crystal fiber
    Fig. 8. Dispersion (a), nonlinear coefficient (b), confinement loss (c) curves of the fundamental mode of the octagonal photonic crystal fiber
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    Abstract
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    Kun LIAO, Yixuan YAN, Zheng XIN, Fang LI. Design of microstructure octagonal photonic crystal fiber[J]. Chinese Journal of Quantum Electronics, 2024, 41(5): 830
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