• High Power Laser Science and Engineering
  • Vol. 9, Issue 2, 02000e23 (2021)
Xin Zhang1, Shoufei Gao2, Yingying Wang2, Wei Ding2, and Pu Wang1、*
Author Affiliations
  • 1National Center of Laser Technology, Institute of Laser Engineering, Beijing University of Technology, Beijing100124, China
  • 2Institute of Photonics Technology, Jinan University, Guangzhou510632, China
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    (a) Schematic cross-section of the proposed fiber structure. (b) Refractive index profile of the proposed optical fiber.
    Fig. 1. (a) Schematic cross-section of the proposed fiber structure. (b) Refractive index profile of the proposed optical fiber.
    (a) Surface profile of the power flow of the FM and the first HOM of the two fibers at 1.06 μm. (b) Modal refractive indices of the FM (green), first HOM (red), and ARE FM (blue) as a function of d/D. (c) Modal refractive indices of the FM (solid), first HOM (dashed), and ARE FM (dashed and dotted) of Fiber 1 (red) and Fiber 2 (black) at 1 μm.
    Fig. 2. (a) Surface profile of the power flow of the FM and the first HOM of the two fibers at 1.06 μm. (b) Modal refractive indices of the FM (green), first HOM (red), and ARE FM (blue) as a function of d/D. (c) Modal refractive indices of the FM (solid), first HOM (dashed), and ARE FM (dashed and dotted) of Fiber 1 (red) and Fiber 2 (black) at 1 μm.
    (a) The FM (solid) and first HOM (dashed) leakage loss for Fiber 1 (red) and Fiber 2 (black). (b) HOM suppression for the fibers in (a).
    Fig. 3. (a) The FM (solid) and first HOM (dashed) leakage loss for Fiber 1 (red) and Fiber 2 (black). (b) HOM suppression for the fibers in (a).
    (a) The FM (solid) and first HOM (dashed) leakage loss under D = 40 μm (red), 60 μm (green), 80 μm (blue), and 100 μm (navy). (b) HOM suppression for the fibers in (a). (c) The FM (square) and first HOM (triangle) leakage loss with increased core diameter. (d) HOM suppression under different core sizes.
    Fig. 4. (a) The FM (solid) and first HOM (dashed) leakage loss under D = 40 μm (red), 60 μm (green), 80 μm (blue), and 100 μm (navy). (b) HOM suppression for the fibers in (a). (c) The FM (square) and first HOM (triangle) leakage loss with increased core diameter. (d) HOM suppression under different core sizes.
    The legend of some structures described in Table 2 .
    Fig. 5. The legend of some structures described in Table 2 .
    (a) The FM (squares) and first HOM (triangles) leakage loss for three index depression values with increasing core diameter. (b) HOM suppression for different Δn.
    Fig. 6. (a) The FM (squares) and first HOM (triangles) leakage loss for three index depression values with increasing core diameter. (b) HOM suppression for different Δn.
    D40 μm50 μm60 μm70 μm80 μm90 μm100 μm
    d/D0.660.660.660.660.660.660.7
    N6666665
    Table 1. Summary of fiber parameters for mode area scaling.
    D = 40 μmD = 50 μmD = 60 μmD = 70 μmD = 80 μmD = 90 μmD = 100 μm
    $\Delta n$d/DNd/DNd/DNd/DNd/DNd/DNd/DN
    00.6660.6660.6660.6660.6660.6660.75
    $-5\times {10}^{-5}$0.670.5870.5670.5380.580.4880.468
    $-1\times {10}^{-4}$0.5570.5270.4880.4580.4290.3990.3611
    Table 2. Summary of fiber parameters for refractive index depression of the core.