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    Journals >Acta Optica Sinica >Volume 40 >Issue 11 >Page 1101001 > Article
    • Acta Optica Sinica
    • Vol. 40, Issue 11, 1101001 (2020)
    Propagation Properties of Radially-Polarized Vector Beams Under a Turbulent Atmosphere
    Jianqiang Zhang1,2, Yanwang Zhai1,2, Shiyao Fu1,2, and Chunqing Gao1,2,*
    Author Affiliations
  • 1School of Optics and Photonics, Beijing Institute of Technology, Beijing 100081, China
  • 2Key Laboratory of Photonic Information Technology, Ministry of Industry and Information Technology, Beijing 100081, China
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    DOI: 10.3788/AOS202040.1101001 Cite this Article Set citation alerts
    Jianqiang Zhang, Yanwang Zhai, Shiyao Fu, Chunqing Gao. Propagation Properties of Radially-Polarized Vector Beams Under a Turbulent Atmosphere[J]. Acta Optica Sinica, 2020, 40(11): 1101001 Copy Citation Text show less
    Combination synthetic diagram of radially-polarized vector beams. (a) Combined by circularly-polarized beams; (b) combined by linearly-polarized beams (p=0,l=1)
    Fig. 1. Combination synthetic diagram of radially-polarized vector beams. (a) Combined by circularly-polarized beams; (b) combined by linearly-polarized beams (p=0,l=1)
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    Propagation system of radially-polarized vector beam under different atmospheric turbulences
    Fig. 2. Propagation system of radially-polarized vector beam under different atmospheric turbulences
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    Atmospheric turbulence phase screens. (a) Weak turbulence phase screen; (b) strong turbulence phase screen
    Fig. 3. Atmospheric turbulence phase screens. (a) Weak turbulence phase screen; (b) strong turbulence phase screen
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    Stokes vectors of the 1st order radially-polarized vector beam under weak turbulence and strong turbulence
    Fig. 4. Stokes vectors of the 1st order radially-polarized vector beam under weak turbulence and strong turbulence
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    Stokes vectors of the 5th order radially-polarized vector beam under weak turbulence and strong turbulence
    Fig. 5. Stokes vectors of the 5th order radially-polarized vector beam under weak turbulence and strong turbulence
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    Stokes vectors of the 9th order radially-polarized vector beam under weak turbulence and strong turbulence
    Fig. 6. Stokes vectors of the 9th order radially-polarized vector beam under weak turbulence and strong turbulence
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    Intensity distributions of the scalar vortex beam under atmospheric turbulence
    Fig. 7. Intensity distributions of the scalar vortex beam under atmospheric turbulence
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    SI of vector beams and the scalar beam under atmospheric turbulence at different propagation distances. (a) Weak turbulence; (b) strong turbulence
    Fig. 8. SI of vector beams and the scalar beam under atmospheric turbulence at different propagation distances. (a) Weak turbulence; (b) strong turbulence
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    Absolute average gradient SI of vector beams under different atmospheric turbulences
    Fig. 9. Absolute average gradient SI of vector beams under different atmospheric turbulences
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    Radial deviations of vector beams and the scalar beam under different atmospheric turbulences at different propagation distances. (a) Weak turbulence; (b) strong turbulence
    Fig. 10. Radial deviations of vector beams and the scalar beam under different atmospheric turbulences at different propagation distances. (a) Weak turbulence; (b) strong turbulence
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    Propagation distance100 m200 m300 m400 m500 m600 m700 m800 m900 m1000 m
    l=1, weak turbulence0.04470.05950.13530.22000.29110.41600.53370.71810.85801.0956
    l=1, strong turbulence0.19630.53401.12712.14222.98964.31355.52416.93858.24009.1586
    l=3, weak turbulence0.04370.07950.13830.22590.30270.42480.51040.66820.82591.0568
    l=3, strong turbulence0.19540.60171.10742.09192.97334.28685.49016.77908.08448.9351
    l=5, weak turbulence0.04290.05760.11860.20080.29250.42420.53650.69170.84241.0222
    l=5, strong turbulence0.19460.66941.11942.01822.93834.15555.38846.73387.97708.7683
    l=7, weak turbulence0.04220.07440.12840.21650.28900.39490.48920.63670.78781.0153
    l=7, strong turbulence0.19390.67241.16141.99082.94434.11805.36576.67327.91968.6863
    l=9, weak turbulence0.04140.07420.12830.20080.26980.38450.47320.61350.78431.0381
    l=9, strong turbulence0.19330.68441.19882.01432.97454.12575.28976.60557.72618.4927
    Table 1. Scintillation indexes of vector beams under different atmospheric turbulences at different propagation distances
    Propagation distance100 m200 m300 m400 m500 m600 m700 m800 m900 m1000 m
    l=1, weak turbulence0.00110.00480.00930.01470.02100.02740.03680.04630.05670.0697
    l=1, strong turbulence0.00460.01160.02490.04430.06990.08980.11630.13830.16630.1979
    l=3, weak turbulence0.00060.00420.00880.01410.02050.02640.03590.04490.05490.0678
    l=3, strong turbulence0.00420.00930.01970.03540.05650.07160.09320.11060.13310.1574
    l=5, weak turbulence0.00070.00440.00900.01480.02160.02790.03780.04710.05760.0708
    l=5, strong turbulence0.00370.00780.01630.02920.04670.05820.07560.08870.10610.1249
    l=7, weak turbulence0.00100.00480.00980.01610.02390.03120.04170.05170.06320.0770
    l=7, strong turbulence0.00320.00600.01250.02260.03650.04460.05790.06700.07980.0938
    l=9, weak turbulence0.00130.00510.01030.01710.02560.03360.04460.05520.06740.0819
    l=9, strong turbulence0.00260.00420.00900.01660.02740.03250.04250.04860.05780.0681
    Table 2. Radial deviations of vector beams at different propagation distancesmm
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    Jianqiang Zhang, Yanwang Zhai, Shiyao Fu, Chunqing Gao. Propagation Properties of Radially-Polarized Vector Beams Under a Turbulent Atmosphere[J]. Acta Optica Sinica, 2020, 40(11): 1101001
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