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    Journals >Laser & Optoelectronics Progress >Volume 61 >Issue 9 >Page 0900007 > Article
    • Laser & Optoelectronics Progress
    • Vol. 61, Issue 9, 0900007 (2024)
    Summary of Research on Polarization Transmission in Three Atypical Environments
    Xindong Sun, Fengxun Meng, Wensen Xun, Dong Wang, Xueye Chen, and Xiangwei Zeng*
    Author Affiliations
  • Jiaotong College, Ludong University, Yantai 264025, Shandong , China
    • show less
    DOI: 10.3788/LOP231374 Cite this Article Set citation alerts
    Xindong Sun, Fengxun Meng, Wensen Xun, Dong Wang, Xueye Chen, Xiangwei Zeng. Summary of Research on Polarization Transmission in Three Atypical Environments[J]. Laser & Optoelectronics Progress, 2024, 61(9): 0900007 Copy Citation Text show less
    Stokes parameters of the radially polarized beam[11] .(a) Experimental measurement results; (b) theoretical simulation results
    Fig. 1. Stokes parameters of the radially polarized beam[11] .(a) Experimental measurement results; (b) theoretical simulation results
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    Chebyshev particle model[28]
    Fig. 2. Chebyshev particle model[28]
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    Concentric sphere model[36]
    Fig. 3. Concentric sphere model[36]
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    Extinction and absorption efficiency curves of visible band uniform mixing model with different mixing ratios[39]. (a) f=1.25×10-4; (b) f=0.125; (c) f=0.729
    Fig. 4. Extinction and absorption efficiency curves of visible band uniform mixing model with different mixing ratios[39]. (a) f=1.25×10-4; (b) f=0.125; (c) f=0.729
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    Extinction diagram for uniform mixing with core-shell mixing ratios[39]. (a) f=1/20; (b) f=1/10; (c) f=1/2; (d) f=9/10
    Fig. 5. Extinction diagram for uniform mixing with core-shell mixing ratios[39]. (a) f=1/20; (b) f=1/10; (c) f=1/2; (d) f=9/10
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    Other particle structure models. (a) Concentric Chebyshev-shaped particle model with ellipsoidal nuclei[42]; (b) multi-layer spherical particle model[43]
    Fig. 6. Other particle structure models. (a) Concentric Chebyshev-shaped particle model with ellipsoidal nuclei[42]; (b) multi-layer spherical particle model[43]
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    Relationship between polarization characteristics of scattered light and concentration of turbid medium at different incidence of vibrating light[49]. (a) Linearly polarized light; (b) circularly polarized light
    Fig. 7. Relationship between polarization characteristics of scattered light and concentration of turbid medium at different incidence of vibrating light[49]. (a) Linearly polarized light; (b) circularly polarized light
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    Curves of polarization degree and polarization purity index with standard deviation[55]. (a) (b) The middle infrared bands; (c) (d) long infrared bands
    Fig. 8. Curves of polarization degree and polarization purity index with standard deviation[55]. (a) (b) The middle infrared bands; (c) (d) long infrared bands
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    Proposed timeTypePresenterApplication
    2004Multi-layer confocal ellipsoid particle modelZhang40The far-field scattering field and scattering cross-section were calculated using this model
    2009Non-concentric bilayer spherical particle modelYan41Non-concentric spherical particles have studied the scattering intensity and efficiency of scattering on the axis Gaussian beam
    2019Concentric Chebyshev-shaped particle model with ellipsoidal nucleiYe et al42In the actual physiological environment of the human body, affected by the disturbance of extracellular fluid, the outer layer of the granulocyte spherical shape is deformed, which is a non-standard spherical shape, and it is more suitable to describe it by Chebyshev shape
    2022Multi-layer spherical particle modelPan et al43Simulate the geometry of spherical cells and calculate their phase function
    Table 1. Different structural models
    Abstract
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    Xindong Sun, Fengxun Meng, Wensen Xun, Dong Wang, Xueye Chen, Xiangwei Zeng. Summary of Research on Polarization Transmission in Three Atypical Environments[J]. Laser & Optoelectronics Progress, 2024, 61(9): 0900007
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    Paper Information
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