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Acta Optica Sinica, Volume. 43, Issue 12, 1201001(2023)

Influence of Marine Non-Pigment Agglomerated Particles on Performance of Underwater Quantum Communication

Xiuzai Zhang1,2、*, Lijuan Zhou2, Mengsi Zhai2, and Yujie Ge2
Author Affiliations
  • 1Jiangsu Provincial Collaborative Innovation Center of Atmospheric Environment and Equipment Technology, Nanjing University of Information Science & Technology, Nanjing 210044, Jiangsu, China
  • 2School of Electronics and Information Engineering, Nanjing University of Information Science & Technology, Nanjing 210044, Jiangsu, China
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    AbstractGet PDF(in Chinese)
    Figures&Tables (10)
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    References (26)
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    Figures & Tables(10)
    Relationship between scattering and absorption characteristics of marine non-pigment agglomerated particles and optical signal wavelength. (a) Relationship between scattering coefficient and mass concentration and optical signal wavelength; (b) relationship between absorption coefficient and optical signal wavelength

    Fig. 1. Relationship between scattering and absorption characteristics of marine non-pigment agglomerated particles and optical signal wavelength. (a) Relationship between scattering coefficient and mass concentration and optical signal wavelength; (b) relationship between absorption coefficient and optical signal wavelength

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    Relationship among quantum link attenuation, mass concentration of marine non-pigment agglomerated particles, and optical signal wavelength

    Fig. 2. Relationship among quantum link attenuation, mass concentration of marine non-pigment agglomerated particles, and optical signal wavelength

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    Relationship among quantum link attenuation, mass concentration of marine non-pigment agglomerated particles, and transmission distance

    Fig. 3. Relationship among quantum link attenuation, mass concentration of marine non-pigment agglomerated particles, and transmission distance

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    Relationship among quantum security key generation rate, mass concentration of marine non-pigment agglomerated particles, and optical signal wavelength

    Fig. 4. Relationship among quantum security key generation rate, mass concentration of marine non-pigment agglomerated particles, and optical signal wavelength

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    Relationship among quantum security key generation rate, mass concentration of marine non-pigment agglomerated particles, and transmission distance

    Fig. 5. Relationship among quantum security key generation rate, mass concentration of marine non-pigment agglomerated particles, and transmission distance

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    Relationship among quantum channel establishment rate, optical signal wavelength, and fidelity

    Fig. 6. Relationship among quantum channel establishment rate, optical signal wavelength, and fidelity

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    Relationship among quantum channel establishment rate, mass concentration of marine non-pigment agglomerated particles, and fidelity

    Fig. 7. Relationship among quantum channel establishment rate, mass concentration of marine non-pigment agglomerated particles, and fidelity

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    Relationship among amplitude damping channel capacity, mass concentration of marine non-pigment agglomerated particles, and optical signal wavelength

    Fig. 8. Relationship among amplitude damping channel capacity, mass concentration of marine non-pigment agglomerated particles, and optical signal wavelength

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    Relationship among amplitude damping channel capacity, mass concentration of marine non-pigment agglomerated particles, and transmission distance

    Fig. 9. Relationship among amplitude damping channel capacity, mass concentration of marine non-pigment agglomerated particles, and transmission distance

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    • Table 1. Parameter value of quantum security key generation rate

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      Table 1. Parameter value of quantum security key generation rate

      ηoptηdede0Y0PEuu
      0.40.150.010.54×10-610.01
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    Xiuzai Zhang, Lijuan Zhou, Mengsi Zhai, Yujie Ge. Influence of Marine Non-Pigment Agglomerated Particles on Performance of Underwater Quantum Communication[J]. Acta Optica Sinica, 2023, 43(12): 1201001

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    Paper Information

    Category: Atmospheric Optics and Oceanic Optics

    Received: Jul. 25, 2022

    Accepted: Sep. 22, 2022

    Published Online: Jun. 20, 2023

    The Author Email: Zhang Xiuzai (zxzhering@163.com)

    DOI:10.3788/AOS221520

    Topics

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