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    Journals >Laser & Optoelectronics Progress >Volume 58 >Issue 14 >Page 1411001 > Article
    • Laser & Optoelectronics Progress
    • Vol. 58, Issue 14, 1411001 (2021)
    Ocean Wave Spectrum Modeling-Based Sea Surface Polarization Simulation
    Dezhi Su1, Shiyong Wu1, Liang Liu2、*, and Lingshun Liu1
    Author Affiliations
  • 1College of Basic Sciences for Aviation, Naval Aviation University, Yantai, Shandong 264001, China
  • 2Coast Guard College, Naval Aviation University, Yantai, Shandong 264001, China
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    DOI: 10.3788/LOP202158.1411001 Cite this Article Set citation alerts
    Dezhi Su, Shiyong Wu, Liang Liu, Lingshun Liu. Ocean Wave Spectrum Modeling-Based Sea Surface Polarization Simulation[J]. Laser & Optoelectronics Progress, 2021, 58(14): 1411001 Copy Citation Text show less
    Model of sea water infrared radiation
    Fig. 1. Model of sea water infrared radiation
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    24-hours curve of sea-surface temperature
    Fig. 2. 24-hours curve of sea-surface temperature
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    Simulation of sea water infrared radiation
    Fig. 3. Simulation of sea water infrared radiation
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    Radiance of seawater, sky and atmosphere with average degree of polarization in different time. (a) Radiance of seawater, sky and atmosphere in 24 h; (b) average degree of polarization of sea surface in 24 h
    Fig. 4. Radiance of seawater, sky and atmosphere with average degree of polarization in different time. (a) Radiance of seawater, sky and atmosphere in 24 h; (b) average degree of polarization of sea surface in 24 h
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    Average and maximum degree of polarization in different time. (a) Average degree of polarization; (b) maximum degree of polarization
    Fig. 5. Average and maximum degree of polarization in different time. (a) Average degree of polarization; (b) maximum degree of polarization
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    Degree of polarization versus detecting angle with different wind speeds. (a) PM; (b) Elfouhaily; (c) Jonswap
    Fig. 6. Degree of polarization versus detecting angle with different wind speeds. (a) PM; (b) Elfouhaily; (c) Jonswap
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    Comparison of polarization degree of the sea surface at wind speed of 5 m/s and 10 m/s. (a) Wind speed of 5 m/s; (b) wind speed of 10 m/s
    Fig. 7. Comparison of polarization degree of the sea surface at wind speed of 5 m/s and 10 m/s. (a) Wind speed of 5 m/s; (b) wind speed of 10 m/s
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    Distribution of incident angles of micro panels at the detecting angle of 60°. (a) PM; (b) Elfouhaily; (c) Jonswap
    Fig. 8. Distribution of incident angles of micro panels at the detecting angle of 60°. (a) PM; (b) Elfouhaily; (c) Jonswap
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    Distribution of incident angles of micro panels at wind speed of 10 m/s and detection angle of 60°
    Fig. 9. Distribution of incident angles of micro panels at wind speed of 10 m/s and detection angle of 60°
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    Degree of polarization versus wind speeds with different detecting angles. (a) PM; (b) Elfouhaily; (c) Jonswap
    Fig. 10. Degree of polarization versus wind speeds with different detecting angles. (a) PM; (b) Elfouhaily; (c) Jonswap
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    Difference of degree of polarization versus detecting angle. (a) PM; (b) Elfouhaily; (c) Jonswap
    Fig. 11. Difference of degree of polarization versus detecting angle. (a) PM; (b) Elfouhaily; (c) Jonswap
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    Abstract
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    Dezhi Su, Shiyong Wu, Liang Liu, Lingshun Liu. Ocean Wave Spectrum Modeling-Based Sea Surface Polarization Simulation[J]. Laser & Optoelectronics Progress, 2021, 58(14): 1411001
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    Paper Information
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