光学学报, 2020, 40 (11): 1101001, 网络出版: 2020-06-10
径向偏振矢量光束在大气湍流下的传输分析 下载: 1313次
Propagation Properties of Radially-Polarized Vector Beams Under a Turbulent Atmosphere
图 & 表
图 1. 径向偏振矢量光束的合成示意图。(a)圆偏光合成;(b)线偏光合成(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)
图 2. 径向偏振矢量光束的大气湍流传输系统
Fig. 2. Propagation system of radially-polarized vector beam under different atmospheric turbulences
图 3. 大气湍流相位屏。(a)弱湍流相位屏;(b)强湍流相位屏
Fig. 3. Atmospheric turbulence phase screens. (a) Weak turbulence phase screen; (b) strong turbulence phase screen
图 4. 1阶径向偏振矢量光束在弱湍流与强湍流下的Stokes矢量
Fig. 4. Stokes vectors of the 1st order radially-polarized vector beam under weak turbulence and strong turbulence
图 5. 5阶径向偏振矢量光束在弱湍流与强湍流下的Stokes矢量
Fig. 5. Stokes vectors of the 5th order radially-polarized vector beam under weak turbulence and strong turbulence
图 6. 9阶径向偏振矢量光束在弱湍流与强湍流下的Stokes矢量
Fig. 6. Stokes vectors of the 9th order radially-polarized vector beam under weak turbulence and strong turbulence
图 7. 标量涡旋光束在大气湍流下的光强分布图像
Fig. 7. Intensity distributions of the scalar vortex beam under atmospheric turbulence
图 8. 弱湍流、强湍流下径向偏振矢量光束与标量光束在各个传输距离下的闪烁指数。(a)弱湍流下;(b)强湍流下
Fig. 8. SI of vector beams and the scalar beam under atmospheric turbulence at different propagation distances. (a) Weak turbulence; (b) strong turbulence
图 9. 弱湍流、强湍流下各阶矢量光束闪烁指数变化率绝对值均值
Fig. 9. Absolute average gradient SI of vector beams under different atmospheric turbulences
表 1不同湍流下各阶矢量光束在各个传输距离节点的闪烁指数
Table1. Scintillation indexes of vector beams under different atmospheric turbulences at different propagation distances
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表 2不同湍流下各阶矢量光束在各个传输距离节点的光束中心径向偏移量
Table2. Radial deviations of vector beams at different propagation distancesmm
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张建强, 翟焱望, 付时尧, 高春清. 径向偏振矢量光束在大气湍流下的传输分析[J]. 光学学报, 2020, 40(11): 1101001. 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.