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    Journals >Laser & Optoelectronics Progress >Volume 59 >Issue 3 >Page 0306003 > Article
    • Laser & Optoelectronics Progress
    • Vol. 59, Issue 3, 0306003 (2022)
    Research on Properties of Highly Nonlinear Bi2O3-GeO2-Ga2O3 Photonic Crystal Fiber
    Fang Tan1, Pengfei Xu2, Dechun Zhou2、*, Qiang Yang1, Lili Wang1, and Xiangyang Song2
    Author Affiliations
  • 1School of Science, Changchun University, Changchun , Jilin 130022, China
  • 2School of Materials Science and Engineering, Changchun University of Science and Technology, Changchun , Jilin 130013, China
    • show less
    DOI: 10.3788/LOP202259.0306003 Cite this Article Set citation alerts
    Fang Tan, Pengfei Xu, Dechun Zhou, Qiang Yang, Lili Wang, Xiangyang Song. Research on Properties of Highly Nonlinear Bi2O3-GeO2-Ga2O3 Photonic Crystal Fiber[J]. Laser & Optoelectronics Progress, 2022, 59(3): 0306003 Copy Citation Text show less
    Section structure of EBR-PCF
    Fig. 1. Section structure of EBR-PCF
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    Mode filed of EBR-PCF
    Fig. 2. Mode filed of EBR-PCF
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    Distribution of X-polarization mode field
    Fig. 3. Distribution of X-polarization mode field
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    Effective refractive index curves of EBR-PCF. (a) X polarization; (b) Y polarization
    Fig. 4. Effective refractive index curves of EBR-PCF. (a) X polarization; (b) Y polarization
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    Effective refractive index curves of EBR-PCF with different ellipticities. (a) X polarization; (b) Y polarization
    Fig. 5. Effective refractive index curves of EBR-PCF with different ellipticities. (a) X polarization; (b) Y polarization
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    Relationship between birefringence coefficient and wavelength of EBR-PCF
    Fig. 6. Relationship between birefringence coefficient and wavelength of EBR-PCF
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    Dispersion characteristics of EBR-PCF in mode field. (a) X polarization; (b) Y polarization
    Fig. 7. Dispersion characteristics of EBR-PCF in mode field. (a) X polarization; (b) Y polarization
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    Limiting loss curves of EBR-PCF with different structures. (a) X polarization; (b) Y polarization
    Fig. 8. Limiting loss curves of EBR-PCF with different structures. (a) X polarization; (b) Y polarization
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    Mode field power density curve (M=0.6, e=0.6)
    Fig. 9. Mode field power density curve (M=0.6, e=0.6)
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    Temperature field isotherm of EBR-PCF
    Fig. 10. Temperature field isotherm of EBR-PCF
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    Temperature field distribution curve of the central axis of the mode field
    Fig. 11. Temperature field distribution curve of the central axis of the mode field
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    M=d /ΛAeffx /μm2γx /(103 W-1⋅km-1Aeffy /μm2γy /(103 W-1⋅km-1
    (1)2.22973.28282.34123.1266
    (2)2.23113.28082.19533.3343
    (3)2.41363.03272.17593.3641
    (4)2.58412.83272.58182.8352
    (5)2.23113.28092.14923.4058
    (6)2.13723.42491.94333.7667
    Table 1. Effective area and nonlinear coefficients of mode field in photonic crystal fibers with different structures at 1.55 μm
    Abstract
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    References (22)
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    Fang Tan, Pengfei Xu, Dechun Zhou, Qiang Yang, Lili Wang, Xiangyang Song. Research on Properties of Highly Nonlinear Bi2O3-GeO2-Ga2O3 Photonic Crystal Fiber[J]. Laser & Optoelectronics Progress, 2022, 59(3): 0306003
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    Paper Information
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