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    Journals >Optical Communication Technology >Volume 48 >Issue 4 >Page 9 > Article
    • Optical Communication Technology
    • Vol. 48, Issue 4, 9 (2024)
    Polarization -insensitive grating coupler designed for TFLN platform based on improved PSO algorithm
    LI Jianping1, DENG Ye1, WANG Lie1,2,3, and ZHANG Zhenrong1,2,3
    Author Affiliations
  • 1[in Chinese]
  • 2[in Chinese]
  • 3[in Chinese]
    • show less
    DOI: 10.13921/j.cnki.issn1002-5561.2024.04.002 Cite this Article
    LI Jianping, DENG Ye, WANG Lie, ZHANG Zhenrong. Polarization -insensitive grating coupler designed for TFLN platform based on improved PSO algorithm[J]. Optical Communication Technology, 2024, 48(4): 9 Copy Citation Text show less
    References

    [1] JIANG W, PATEL R N, MAYOR F M, et al. Lithium niobate piezo-optomechanical crystals[J]. Optica, 2019, 6(7): 845-853.

    [2] QI Y, LI Y. Integrated lithium niobate photonics[J]. Nanophotonics, 2020,9(6): 1287-1320.

    [3] TAILLAERT D, CHONG H, BOREL P I, et al. A compact two-dimensional grating coupler used as a polarization splitter[J]. IEEE Photonics Technology Letters, 2003, 15(9): 1249-1251.

    [4] WANG Z, CHEN G, RUAN Z, et al. Silicon-lithium niobate hybrid intensity and coherent modulators using a periodic capacitively loaded traveling-wave electrode[J]. ACS Photonics, 2022, 9(8): 2668-2675.

    [5] KHONINA S N, KAZANSKIY N L, BUTT M A, et al. Optical multiplexingtechniquesandtheirmarriage foron-chipandopticalfiber communication:areview[J].Opto-ElectronicAdvances,2022,5(8):210127-1-210127-25.

    [6] LIN Z, LIN Y, LI H, et al. High-performance polarization management devices based on thin-film lithium niobate[J]. Light: Science & Applications,2022, 11(1): 93-102.

    [7] CHEN B, RUAN Z, CHEN K, et al. One-dimensional grating coupler on lithium-niobate-on-insulator for high-efficiency and polarization-independent coupling[J]. Optics Letters, 2023, 48(6): 1434-1437.

    [8] MA X, ZHUANG C, ZENG R, et al. Polarization-independent one-dimensional grating coupler design on hybrid silicon/LNOI platform[J]. Optics Express, 2020, 28(11): 17113-17121.

    [9] WANG X, YU H, HUANG Q, et al. Polarization-independent fiber-chip grating couplers optimized by the adaptive genetic algorithm[J]. Optics Letters,2021, 46(2): 314-317.

    [11] WANG D, TAN D, LIU L. Particle swarm optimization algorithm: an overview[J]. Soft Computing, 2018, 22: 387-408.

    [12] ZHANG B, SCHILLER M, AL QUBAISI K, et al. Polarization-insensitive 1D grating coupler based on a zero-birefringence subwavelength corelet waveguide[J]. Optics Letters, 2022, 47(13): 3167-3170.

    [13] CHEN B, RUAN Z, HU J, et al. Two-dimensional grating coupler on an X-cut lithium niobate thin-film[J]. Optics Express, 2021, 29(2): 1289-1295.

    [14] ZOU J, YU Y, ZHANG X. Single step etched two dimensional gratingcoupler based on the SOI platform[J]. Optics Express, 2015, 23(25): 32490-32495.

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    LI Jianping, DENG Ye, WANG Lie, ZHANG Zhenrong. Polarization -insensitive grating coupler designed for TFLN platform based on improved PSO algorithm[J]. Optical Communication Technology, 2024, 48(4): 9
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