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    Journals >Optical Communication Technology >Volume 44 >Issue 10 >Page 1 > Article
    • Optical Communication Technology
    • Vol. 44, Issue 10, 1 (2020)
    Key technologies of multi-dimensional multiplexed optical network
    ZHAO Yongli, NING Yunxiao, ZHAO Zipiao, YU Xiaosong, and ZHANG Jie
    Author Affiliations
  • [in Chinese]
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    DOI: 10.13921/j.cnki.issn1002-5561.2020.10.001 Cite this Article
    ZHAO Yongli, NING Yunxiao, ZHAO Zipiao, YU Xiaosong, ZHANG Jie. Key technologies of multi-dimensional multiplexed optical network[J]. Optical Communication Technology, 2020, 44(10): 1 Copy Citation Text show less
    References

    [1] MIZUNO T. MIYAMOTO Y. High-capacity dense space division multiplexing transmission[J]. Optical Fiber Technology, 2016. DOI: 10.1016/j.yofte.2016.09.015.

    [3] ESSIAMBRE R J, RYF R, FONTAINE N K, et al. Breakthroughs in Photonics 2012: Space-Division Multiplexing in Multimode and Multicore Fibers for High-Capacity Optical Communication[J]. IEEE Photonics Journal, 2013, 5(2): 0701307-1-0701307-8.

    [7] HAYASHI T. Design and Fabrication of Ultra-Low Crosstalk and Low-Loss Multi-Core Fiber[J]. Opt. Express, 2011, 19(17): 576-592.

    [8] ZHU B. Seven-Core Multi-core Fiber Transmissions for Passive Optical Network[J]. Optics Express. 2010, 18(21): 117-122.

    [9] TAKENAGA K, ARAKAWA Y, SASAKI Y, et al. A Large Effective AreaMulti-CoreFiber with anOptimized Cladding Thickness[J]. Optics Express, 2011, 19(26): B543-B550.

    [10] KURKOVA S, BABIN S A, LOBACH I A, et al. New mechanism of the mode couplingin multi-core fiber lasers[J]. Optics Letters, 2008, 33(l): 61-63.

    [11] Nokia Bell Lab. Nokia Bell Labs’ world records and innovations in fiber optics to enable faster and higher capacity 5G networks of the future[EB/OL].(2020-03-13)[2020-09-03]. https://www.nokia.com/about-us/news/releases/2020/03/13/nokia-bell-labs-world-records-and-innovations-in-fiber-optics-to-enable-faster-and-higher-capacity-5g-networks-of-the-fure/.

    [14] WILLNER A E, MOLISCH A F, BAO C, et al. Optical communications using orbital angular momentum beams[J]. Advances in Optics & Photonics, 2015, 7(1): 66-106.

    [19] ROTTONDI C, BOFFI P, MARTELLI P, et al. Optimal resource allocation in distance-adaptive few-modes backbone networks with flexible grid[C]//Asia Communications and Photonics, October 19-23, 2015, Hong Kong, China. Hong Kong: OSA, 2015: 1-3.

    [20] YAO Q, YANG H, XIAO H, et al. Crosstalk-aware routing, spectrum, and core assignment in space-division multiplexing optical networks with multicore fibers[J]. Optical Engineering, 2019. DOI: 10.1117/1.OE.58.11.116110.

    [21] ZHAO Y, HU L, ZHU R, et al. Crosstalk-Aware Spectrum Defragmentation Based on Spectrum Compactness in Space Division Multiplexing Enabled Elastic Optical Networks With Multicore Fiber[J]. IEEE Access, 2018(6): 15346-15355.

    [22] ZHAO Y, HU L, ZHU R, et al. Crosstalk-aware spectrum defragmentation by re-provisioning advance reservation requests in space division multiplexing enabled elastic optical networks with multi-core fiber[J]. Optics Express, 2019, 27(4): 5014-5032.

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    ZHAO Yongli, NING Yunxiao, ZHAO Zipiao, YU Xiaosong, ZHANG Jie. Key technologies of multi-dimensional multiplexed optical network[J]. Optical Communication Technology, 2020, 44(10): 1
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