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Acta Photonica Sinica, Volume. 50, Issue 5, 112(2021)

Fabrication and Experiment of a Small-size Anti-bending Optical Fiber

Shanshan CAO1,2, Chaoyang GUO3, Haitao XU2, Guanglei YOU2, Zhizhong LIU2, Jiajin ZHENG1, and Wei WEI1
Author Affiliations
  • 1College of Electronic and Optical Engineering & College of Microelectronics, Nanjing University of Posts and Telecommunications, Nanjing20023, China
  • 2Zhongtian Technology Fibre Optics Co., Ltd, Nantong, Jiangsu6009, China
  • 3Zhongtian Technology Marine Systems Co., Ltd, Nantong, Jiangsu226010, China
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    References(18)

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    [2] SATO F, TAKAMI M, MASAKAZU T et al. Design of ultra-high-density 2000-optical fiber cable with pliable 8-fiber ribbons for underground deployment[J]. Sei Technical Review, 22-26(2015).

    [3] XIA Zhilang, ZHOU Jianjun, LI Zhanan等. On the development and application of microtubule and microcable technology[J]. Telecom Power Technology, 36, 139-140(2019).

    [4] ZHOU Juan, XIE Shuhong, CHEN Jianfei等. High fiber density and small diameter air blowing micro cable and pipeline capacity analysis[J]. Modern Transmission, 186, 43-46(2018).

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    [6] SUGIZAKI R, MORIMOTO M, SUEMATSU K et al. Bend Insensitive small diameter fibers for optical interconnection systems[C], 25-27(2008).

    [7] KOBAYASHI K. Study of microbending loss in thin coated fibers and fiber ribbons[C], 386-392(1993).

    [8] An overview of macrobending and microbending of optical fibers[webpage]. http://www.corning.com

    [9] HAO Changping. Design and development of small size-mode fiber with mini - G[D](652).

    [10] NING Siping, DUAN Linlin, WANG Bin. Study of 200 μm fiber character impacted by coating diameter[J]. Optical Communication Technology, 43, 11-15(2019).

    [11] SATO F, SUZUKI Y, TAKAMI M et al. Ultra-high-density microduct optical cable with 200 μm freeform ribbons for air-blown installation[J]. Sei Technical Review, 89, 17-21(2019).

    [12] TSURITANI T, SOMA D, WAKAYAMA Y et al. Field test of installed high-density optical fiber cable with multi-core fibers toward practical deployment[C](2019).

    [13] SENIOR J M[M]. Optical fiber communications: principles and practice, 100-101(2009).

    [14] CAO Shanshan, GUO Chaoyang, WANG Zhen等. Structure design and bending loss of a novel fiber for low temperature environment[J]. Acta Photonica Sinica, 48, 1148018(2019).

    [15] CAO Shanshan, GUO Chaoyang, ZHANG Xu et al. Design and experimental verification of a novel optical fiber for the full ocean depth communication[J]. Optics Communications, 478, 126398(2021).

    [16] SHE Shengfei, LIU Bo, CHANG Chang等. Characterization and properties of large-core fluorine-doped fibers based on Depressed inner cladding design[J]. Acta Photonica Sinica, 48, 1148013(2019).

    [17] WANG X, LOU S, LU W. Bend-resistant large-mode-area photonic crystal fiber with a triangular-core[J]. Applied Optics, 52, 4323-4328(2013).

    [18] SONG Zhituo, SONG Wen. The compatibility of fiber optic cable links composed of different types single-mode fiber[J]. Optical Fiber & Electric Cable, 23-27(2011).

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    Shanshan CAO, Chaoyang GUO, Haitao XU, Guanglei YOU, Zhizhong LIU, Jiajin ZHENG, Wei WEI. Fabrication and Experiment of a Small-size Anti-bending Optical Fiber[J]. Acta Photonica Sinica, 2021, 50(5): 112

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    Paper Information

    Category: Fiber Optics and Optical Communications

    Received: Nov. 24, 2020

    Accepted: Mar. 9, 2021

    Published Online: Jun. 22, 2021

    The Author Email:

    DOI:10.3788/gzxb20215005.0506001

    Topics

    laser devices and laser physics
    Lasers and Laser Optics
    Laser physics
    laser manufacturing
    Instrumentation, Measurement and Metrology