Optimized algorithm to limit receiving range of polarized light forward propagation into scattering media

Xiangwei Zeng; Yahong Li; Jinkui Chu; Yan Zhang

doi:10.3788/IRLA20210158

[1] V Sankaran, J T Walsh, D J Maitland. Polarized light propagation through tissue phantoms containing densely packed scatterers. Optics Letters, 25, 239-241(2000).

[2] X W Zeng, J K Chu, W D Cao, et al. Visible–IR transmission enhancement through fog using circularly polarized light. Applied Optics, 57, 6817-6822(2018).

[3] J Fade, S Panigrahi, A Carre, et al. Long-range polarimetric imaging through fog. Applied Optics, 53, 3854-3865(2014).

[4] Z Y Guo, X Y Wang, D K Li, et al. Advances on theory and application of polarization information propagation(Invited). Infrared and Laser Engineering, 49, 20201013(2020).

[5] C Collin, S Pattanaik, P LiKamWa, et al. Discrete ordinate method for polarized light transport solution and subsurface BRDF computation. Computers & Graphics, 45, 17-27(2014).

[6] R Tapimo, H T T Kamdem, D Yemele. A discrete spherical harmonics method for radiative transfer analysis in inhomogeneous polarized planar atmosphere. Astrophysics and Space Science, 363, 52(2018).

[7] Y Zhang, Y Zhang, H J Zhao. A skylight polarization model of various weather conditions. Journal of Infrared and Millimeter Waves, 36, 453-459(2017).

[8] J C Ramella-Roman, S A Prahl, S L Jacques. Three Monte Carlo programs of polarized light transport into scattering media: Part I. Optics Express, 13, 4420-4438(2005).

[9] V A Markel. Two-stream theory of light propagation in amplifying media. JOSA B, 35, 533-544(2018).

[10] Ven der laan J D, Wright J B, Scrymgeour D A, et al. Variation of linear circular polarization persistence f changing field of view collection area in a fward scattering environment[C]International Society f Optics Photonics, 2016.

[11] der laan J D Ven, J B Wright, D Scrymgeour, et al. Effects of collection geometry variations on linear and circular polarization persistence in both isotropic-scattering and forward-scattering environments. Applied Optics, 55, 9042-9048(2016).

[12] Ven der laan J D. Evolution persistence of circular linear polarization in scattering environments[D]. Tucson: University of Arizona, 2015.

[13] Slade W H, Agrawal Y C, Mikkelsen O A. Comparison of measured theetical scattering polarization properties of narrow size range irregular sediment particles[C]IEEE, 2013.

[14] N Ghosh, P K Gupta, H S Patel, et al. Depolarization of light in tissue phantoms – effect of collection geometry. Optics Communications, 222, 93-100(2003).

[15] Zeng X W, Chu J K, Wu Q M, et al. Polarization state persistence acteristics in wet haze within PM2.5 f fward transmission[C]2019 International Conference on Optical Instruments Technology: Optical Communication Optical Signal Processing, 2020, 11435: 1143509.

[16] J K Chu, Q M Wu, X W Zeng, et al. Forward transmission characteristics in polystyrene solution with different concentrations by use of circularly and linearly polarized light. Applied Optics, 58, 6750-6754(2019).