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    Journals >Laser & Optoelectronics Progress >Volume 59 >Issue 5 >Page 0501001 > Article
    • Laser & Optoelectronics Progress
    • Vol. 59, Issue 5, 0501001 (2022)
    Effect of Tropospheric Water Cloud on Detection Performance of Quantum Interferometric Radar and Its Simulation
    Min Nie1, Jin Wang1、*, Guang Yang1, Meiling Zhang1, Aijing Sun1, and Changxing Pei2
    Author Affiliations
  • 1School of Communication and Information Engineering, Xi'an University of Post and Telecommunications, Xi'an , Shannxi 710121, China
  • 2State Key Laboratory of Integrated Service Networks, Xidian University, Xi'an , Shannxi 710071, China
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    DOI: 10.3788/LOP202259.0501001 Cite this Article Set citation alerts
    Min Nie, Jin Wang, Guang Yang, Meiling Zhang, Aijing Sun, Changxing Pei. Effect of Tropospheric Water Cloud on Detection Performance of Quantum Interferometric Radar and Its Simulation[J]. Laser & Optoelectronics Progress, 2022, 59(5): 0501001 Copy Citation Text show less
    Quantum interferometric radar system
    Fig. 1. Quantum interferometric radar system
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    Transmission model of polarized light in water cloud
    Fig. 2. Transmission model of polarized light in water cloud
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    Relationship between water content of water cloud and extinction coefficient
    Fig. 3. Relationship between water content of water cloud and extinction coefficient
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    Elliptical polarization with ellipticity angle of ω in the ground states H and V
    Fig. 4. Elliptical polarization with ellipticity angle of ω in the ground states H and V
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    Relationship between the ellipticity angle and the quantum bit error rate due to phase delay
    Fig. 5. Relationship between the ellipticity angle and the quantum bit error rate due to phase delay
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    Relationship between the deviation ratio and the bit error rate of the system
    Fig. 6. Relationship between the deviation ratio and the bit error rate of the system
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    Relationship between water cloud attenuation coefficient, transmission distance and photon energy
    Fig. 7. Relationship between water cloud attenuation coefficient, transmission distance and photon energy
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    Relationship between the number of pulsed photons and the angular resolution under different optical thicknesses of water clouds
    Fig. 8. Relationship between the number of pulsed photons and the angular resolution under different optical thicknesses of water clouds
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    Relationship between the number of detectable points and the radar survival function under different water cloud interference intensities
    Fig. 9. Relationship between the number of detectable points and the radar survival function under different water cloud interference intensities
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    Types of water cloudrmax /μmaαbreff /μm
    St Ⅰ2332.124.81.375.69
    St Ⅱ2938.381.80.86.0
    Sc Ⅰ1919.746.411.835.14
    Sc Ⅱ320.00189.371.259.9
    Table 1. Microphysical properties of four kinds of water clouds
    Abstract
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    Figures&Tables (10)
    Equations (28)
    References (25)
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    Min Nie, Jin Wang, Guang Yang, Meiling Zhang, Aijing Sun, Changxing Pei. Effect of Tropospheric Water Cloud on Detection Performance of Quantum Interferometric Radar and Its Simulation[J]. Laser & Optoelectronics Progress, 2022, 59(5): 0501001
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    Paper Information
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