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    Journals >Chinese Journal of Quantum Electronics >Volume 40 >Issue 1 >Page 133 > Article
    • Chinese Journal of Quantum Electronics
    • Vol. 40, Issue 1, 133 (2023)
    Analysis of negative dispersion characteristics of a novel circular doped photonic crystal fiber
    Zhiqiang RUAN*, Lei ZHANG, Xinyu ZHAO, and Xingfang JIANG
    Author Affiliations
  • [in Chinese]
    • show less
    DOI: 10.3969/j.issn.1007-5461.2023.01.016 Cite this Article
    RUAN Zhiqiang, ZHANG Lei, ZHAO Xinyu, JIANG Xingfang. Analysis of negative dispersion characteristics of a novel circular doped photonic crystal fiber[J]. Chinese Journal of Quantum Electronics, 2023, 40(1): 133 Copy Citation Text show less
    References

    [1] Zhang P F. Research on Dispersion Compensation and Modulation Mode of DWDM System [D]. Taiyuan: Taiyuan University of Technology, 2013.

    [2] Huang W T, Zhou C C, Lü X, et al. Dispersive optical solitons for the Schrdinger-Hirota equation in optical fibers [J]. Modern Physics Letters B, 2021, 35(3): 2150060.

    [3] Wang L, Luan Z, Zhou Q, et al. Effects of dispersion terms on optical soliton propagation in a lossy fiber system [J]. Nonlinear Dynamics, 2021, 104(1): 629-637.

    [4] Maji P S, Chaudhuri P R. Designing broad band dispersion compensation with square lattice PCF and applications to ASE suppression with ultra negative dispersion [J]. Optik, 2016, 127(5): 2603-2607.

    [5] Zhang L C, Hou L T, Zhou G Y, et al. Analysis of dispersion compensation characteristics of octagonal photonic crystal fibers [J]. Acta Physica Sinica, 2011, 60(5): 054217.

    [6] Jundt D H. Temperature-dependent Sellmeier equation for the index of refraction, ne, in congruent lithium niobate [J]. Optics Letters, 1997, 22(20): 1553-1555.

    [7] Malitson I H. Interspecimen comparison of the refractive index of fused silica [J]. JOSA, 1965, 55(10): 1205-1209.

    [8] Uranus H P, Hoekstra H, Van Groesen E. Galerkin finite element scheme with Bayliss-Gunzburger-Turkel-like boundary conditions for vectorial optical mode solver [J]. Journal of Nonlinear Optical Physics & Materials, 2004, 13(2): 175-194.

    [9] Saitoh K, Koshiba M. Full-vectorial imaginary-distance beam propagation method based on a finite element scheme: Application to photonic crystal fibers [J]. IEEE Journal of Quantum Electronics, 2002, 38(7): 927-933.

    [10] Saitoh K, Koshiba M. Full-vectorial finite element beam propagation method with perfectly matched layers for anisotropic optical waveguides [J]. Journal of Lightwave Technology, 2001, 19(3): 405-413.

    [11] Uranus H P, Hoekstra H. Modelling of microstructured waveguides using a finite-element-based vectorial mode solver with transparent boundary conditions [J]. Optics Express, 2004, 12(12): 2795-2809.

    [12] Kong X M, Li X L, Jiang X F, et al. Dual core photonic crystal fiber with large negative dispersion [J]. Journal of Quantum Optics, 2015, 21(4): 380-384.

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    RUAN Zhiqiang, ZHANG Lei, ZHAO Xinyu, JIANG Xingfang. Analysis of negative dispersion characteristics of a novel circular doped photonic crystal fiber[J]. Chinese Journal of Quantum Electronics, 2023, 40(1): 133
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