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Acta Optica Sinica, Volume. 42, Issue 17, 1706003(2022)

28.09 Tbit/s 12000 km Ultra-High Capacity-Distance Product Single-Mode Optical Fiber Transmission System

Lin Jiang1,4, Anlin Yi1, Xingchen He1, Zhengyu Pu1, Youren Yu1, Wei Pan1, Jie Luo2, Liangming Xiong2, Chengpeng Fu3, Qianggao Hu3, and Lianshan Yan1,4、*
Author Affiliations
  • 1Center for Information Photonics & Communications, Southwest Jiaotong University, Chengdu 611756, Sichuan, China
  • 2State Key Laboratory of Optical Fiber and Cable Manufacture Technology, Yangtze Optical Fiber and Cable Company Ltd., Wuhan 430070, Hubei, China
  • 3Accelink Technologies Co., Ltd., Wuhan 430205, Hubei, China
  • 4Peng Cheng Laboratory, Shenzhen 518000, Guangdong, China
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    AbstractGet PDF(in Chinese)
    Figures&Tables (9)
    Equations (0)
    References (30)
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    Paper Information
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    Figures & Tables(9)
    Experimental setup of transoceanic optical fiber loop transmission system

    Fig. 1. Experimental setup of transoceanic optical fiber loop transmission system

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    Digital signal processing module in receiver

    Fig. 2. Digital signal processing module in receiver

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    Principle of adaptive dispersion estimation algorithm

    Fig. 3. Principle of adaptive dispersion estimation algorithm

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    Schematic diagram of digital backward transmission algorithm

    Fig. 4. Schematic diagram of digital backward transmission algorithm

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    Optical spectrum at transmitter, and optical spectrum after 12000 km transmission. (a) Optical spectrum at transmitter;(b) optical spectrum after 12000 km transmission

    Fig. 5. Optical spectrum at transmitter, and optical spectrum after 12000 km transmission. (a) Optical spectrum at transmitter;(b) optical spectrum after 12000 km transmission

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    Estimated chromatic dispersion values with different wavelength channels

    Fig. 6. Estimated chromatic dispersion values with different wavelength channels

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    BER results for all channels after 12000 km single-mode fiber transmission

    Fig. 7. BER results for all channels after 12000 km single-mode fiber transmission

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    • Table 1. Main experimental results of ultra-high capacity-distance product space division multiplexing optical fiber transmission system

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      Table 1. Main experimental results of ultra-high capacity-distance product space division multiplexing optical fiber transmission system

      ConditionYearFiber typeWavelength /nm

      Type of

      amplifier

      Modulation

      format

      		Capacity /(Tbit·s-1Distance /kmProduct /(Pbit·s-1·km)Country

      Ref.

      No.

      Ultra-high

      capacity

      (>1000 Tbit·s-1

      2017

      32C-

      MCF

      		46

      C band

      EDFA

      16-QAM

      (quadrature

      amplitude

      modulation)

      		1001205.6205.8

      Japan

      (NTT)

      		6
      2018

      19C-6M-

      FM-MCF

      		739

      C+L band

      EDFA

      		16/64-QAM1016011.3114.808

      Japan

      (KDDI)

      		7
      2019

      4C-3M-

      FM-MCF

      		368

      C+L band

      EDFA

      		256-QAM12003.374.044

      Japan

      (NICT)

      		8
      2020

      38C-3M-

      FM-MCF

      		368

      C+L band

      EDFA

      		64/256-QAM1066013138.58

      Japan

      (NICT)

      		9
      2020

      38C-3M-

      FM-MCF

      		368

      C+L band

      EDFA

      		4/16/64-QAM620065403

      Japan

      (NICT)

      		10

      Ultra-long

      distance

      (>3000 km)

      		201612C-WC-MCF90

      C band

      EDFA

      		8D-APSK105.1143501508.2

      USA

      (TE)

      		11
      201612C-WC-MCF270

      C+L band

      EDFA

      		16-APSK52088304591.6

      USA

      (TE)

      		12
      201912C-WC-MCF152

      C band

      EDFA

      8D-QPSK

      (quadrature

      phase shift

      keying)

      		130.8127001661.16

      USA

      (TE)

      		13
      20214C-CC-MCF552

      C+L+S band

      E/TDFA+Raman

      		16QAM3193001957.319

      Japan

      (NICT)

      		14
      20214C-CC-MCF152

      C band

      EDFA

      		QPSK50.479150461.8

      Japan

      (KDDI)

      		15
      20224C-CC-MCF552

      C+L+S band

      E/TDFA+Raman

      		QPSK184.880271483.389

      Japan

      (NICT)

      		16

    • Table 2. Main experimental results of ultra-high capacity-distance product single-mode optical fiber transmission system

      View table

      Table 2. Main experimental results of ultra-high capacity-distance product single-mode optical fiber transmission system

      YearWavelength /nm

      Type of

      amplifier

      Modulation

      format

      		Capacity /(Tbit·s-1Distance /kmProduct /(Pbit·s-1·km)Country

      Ref.

      No.

      2017332

      C+L band

      EDFA

      		Opt32QAM50.96211185570

      USA

      (NEC)

      		17
      2017179

      C+L band

      EDFA

      		PS-64QAM656600429

      France

      (Bell Lab)

      		18
      2018295

      C+L band

      EDFA

      		PS-40APSK51.517107881

      USA

      (TE)

      		19
      2020306

      C+L band

      Raman/EDFA

      		GS-64QAM74.386300468.6

      UK

      (UCL)

      		20
      202180

      C band

      Raman

      		16QAM1610000160

      China

      (CICT)

      		21
      2022129

      C band

      EDFA

      		PS-16QAM28.28191231

      China

      (SWJTU)

      		22
      2022552

      C+L+S band

      E/TDFA/Raman

      		QPSK43.510072438.132

      Japan

      (NICT)

      		23
      2022129

      C band

      EDFA

      		PS-16QAM28.0912000337

      China

      (SWJTU)

      		This work
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    Lin Jiang, Anlin Yi, Xingchen He, Zhengyu Pu, Youren Yu, Wei Pan, Jie Luo, Liangming Xiong, Chengpeng Fu, Qianggao Hu, Lianshan Yan. 28.09 Tbit/s 12000 km Ultra-High Capacity-Distance Product Single-Mode Optical Fiber Transmission System[J]. Acta Optica Sinica, 2022, 42(17): 1706003

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    Paper Information

    Category: Fiber Optics and Optical Communications

    Received: Jul. 8, 2022

    Accepted: Jul. 28, 2022

    Published Online: Sep. 16, 2022

    The Author Email: Yan Lianshan (lsyan@home.swjtu.edu.cn)

    DOI:10.3788/AOS202242.1706003

    Topics

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