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    Journals >Acta Optica Sinica >Volume 40 >Issue 15 >Page 1519001 > Article
    • Acta Optica Sinica
    • Vol. 40, Issue 15, 1519001 (2020)
    Nonlinear Propagation of Intense Femtosecond Laser Pulses in a Foggy and Cloudy Environment
    Qingwei Zeng1, Lei Liu1、*, Shuai Hu1, Kejin Zhang1, Kai Ai2, and Ming Chen3
    Author Affiliations
  • 1College of Meteorology and Oceanography, National University of Defense Technology, Nanjing, Jiangsu 211101, China
  • 266199 Troops of PLA, Beijing 100089, China
  • 331110 Troops of PLA, Nanjing, Jiangsu 211101, China
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    DOI: 10.3788/AOS202040.1519001 Cite this Article Set citation alerts
    Qingwei Zeng, Lei Liu, Shuai Hu, Kejin Zhang, Kai Ai, Ming Chen. Nonlinear Propagation of Intense Femtosecond Laser Pulses in a Foggy and Cloudy Environment[J]. Acta Optica Sinica, 2020, 40(15): 1519001 Copy Citation Text show less
    Simulation results of turbulence phase screen. (a) Before compensation; (b) after compensation
    Fig. 1. Simulation results of turbulence phase screen. (a) Before compensation; (b) after compensation
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    Illustration of aerosol particle scattering[24]
    Fig. 2. Illustration of aerosol particle scattering[24]
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    Illustration of layered scattering medium transfer model
    Fig. 3. Illustration of layered scattering medium transfer model
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    Illustration of time grid Δt in time direction
    Fig. 4. Illustration of time grid Δt in time direction
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    Parameters of femtosecond laser transmission. (a) Intensity on optical axis; (b) electron density on optical axis; (c) beam radius; (d) pulse energy
    Fig. 5. Parameters of femtosecond laser transmission. (a) Intensity on optical axis; (b) electron density on optical axis; (c) beam radius; (d) pulse energy
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    Variation of on-axis intensity and laser pulse energy flux along x direction with transmission distance
    Fig. 6. Variation of on-axis intensity and laser pulse energy flux along x direction with transmission distance
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    Distribution of cross-sectional energy flux at different transmission distances
    Fig. 7. Distribution of cross-sectional energy flux at different transmission distances
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    Simulation results of femtosecond laser transmission in cloud and fog environment with different particle number concentration. (a) Intensity on optical axis; (b) electron density on optical axis; (c) beam radius; (d) pulse energy
    Fig. 8. Simulation results of femtosecond laser transmission in cloud and fog environment with different particle number concentration. (a) Intensity on optical axis; (b) electron density on optical axis; (c) beam radius; (d) pulse energy
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    Simulation results of femtosecond laser transmission in cloud and fog environment with different particle radiuses. (a) Intensity on optical axis; (b) electron density on optical axis; (c) beam radius; (d) pulse energy
    Fig. 9. Simulation results of femtosecond laser transmission in cloud and fog environment with different particle radiuses. (a) Intensity on optical axis; (b) electron density on optical axis; (c) beam radius; (d) pulse energy
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    Qingwei Zeng, Lei Liu, Shuai Hu, Kejin Zhang, Kai Ai, Ming Chen. Nonlinear Propagation of Intense Femtosecond Laser Pulses in a Foggy and Cloudy Environment[J]. Acta Optica Sinica, 2020, 40(15): 1519001
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    Paper Information
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