Propagation and transmission of optical vortex beams through turbid scattering wall with orbital angular momentums

Abstract: Light scattering and transmission of optical Laguerre Gaussian (LG) vortex beams with different orbital angular momentum (OAM) states in turbid scattering media were investigated in comparison with Gaussian (G) beam. The scattering media used in the experiments consist of various sizes and concentrations of latex beads in water solutions. The LG beams were generated using a spatial light modulator in reflection mode. The ballistic transmissions of LG and G beams were measured with different ratios of thickness… Show more

“…These beams carry an orbital angular momentum (OAM) of mℏ per photon due to its azimuthal phase, where m is the order or topological charge defined as number of helices completed in one wavelength. The propagation of these light beams through various media such as turbid media [17,18], turbulence atmosphere [19,20], and under water [21,22] have attracted lot of interest in recent days for utilizing them for communication applications [23][24][25][26][27][28][29][30]. The vortices can be generated using computer generated holography [31,32] along with the help of spatial light modulator [33,34], spiral phase plate [35,36], and using an astigmatic mode converter [37].…”

Correlations in Scattered Phase Singular Beams

“…These beams carry an orbital angular momentum (OAM) of mℏ per photon due to its azimuthal phase, where m is the order or topological charge defined as number of helices completed in one wavelength. The propagation of these light beams through various media such as turbid media [17,18], turbulence atmosphere [19,20], and under water [21,22] have attracted lot of interest in recent days for utilizing them for communication applications [23][24][25][26][27][28][29][30]. The vortices can be generated using computer generated holography [31,32] along with the help of spatial light modulator [33,34], spiral phase plate [35,36], and using an astigmatic mode converter [37].…”

Correlations in Scattered Phase Singular Beams

Reduction of Scattering Clutters in an Underwater Lidar System by Using an Optical Vortex