[1] Jun DAI, Jianqi SHEN. Application of genetic algorithm in particle size measurement technology based on forward light scattering. Acta Photonica Sinica, 50, 0512002(2021).
[2] Z A STEELMAN, D S HO, K K CHU et al. Light-scattering methods for tissue diagnosis. Optica, 6, 479-489(2019).
[4] Tan LI, Mingxu SU, Ju CHEN et al. Effect of particle shape on particle size measurement in multi-wavelength light extinction method. Laser and Optoelectronics Progress, 53, 269-276(2016).
[5] Y ZHAO, R AMBROSE. A real-time method for sensing suspended dust concentration from the light extinction coefficient. Journal of Loss Prevention in the Process Industries, 67, 104242(2020).
[6] H ZHOU, L LI. Experimental research on size distribution of suspended particles in water based on Mie scattering theory. IOP Conference Series Earth and Environmental Science, 769, 042063(2021).
[7] Y ZHOU, J CHEN, H N YANG et al. Influence of spheroidal particle shape on particle size characterization by multi-wavelength light extinction method. Results in Physics, 22-27(2018).
[8] Fushui LIU, Yujie DAI, Xu HE et al. Application of a novel uncollimated light extinction for soot concentration measurement. Transactions of Beijing Institute of Technology, 34, 1283-1288(2014).
[9] Bing FENG, Miao HU, Peng LI et al. Monte-Carlo simulation and experimental study of side-scattered lidar echo signals. Acta Photonica Sinica, 47, 1028002(2018).
[10] J JONSSON, E BERROCAL. Multi-scattering software: part I: online accelerate Monte Carlo simulation of light transport through scattering media. Optical Express, 28, 37612-37638(2020).
[11] Qiong WU, Bo WANG, Tao WANG et al. Analysis of underwater wireless optical transmission characteristics based on Monte Carlo method. Acta Photonica Sinica, 50, 0406002(2021).
[12] Y MA, W LIU, Y CUI et al. Multiple-scattering effects of atmosphere aerosols on light-transmission measurements. Optical Review, 24, 590-599(2017).
[13] Tianhua ZHOU, Tingwei FAN, Jian MA et al. Influence of beam parameters on propagation of blue-green laser underwater. Journal of Atmospheric and Environmental Optics, 15, 40-47(2020).
[14] J CHEN, H WANG, J X SHEN. Light scattering of particles illuminated by a divergent beam. Optics and Lasers in Engineering, 50, 1410-1415(2012).
[15] Z WANG, J ZHANG, H GAO. Impacts of laser beam divergence on lidar multiple scattering polarization returns from water clouds. Journal of Quantitative Spectroscopy and Radiative Transfer, 268, 107618(2021).
[16] Z VALI, A GHOLAMI, D G MICHELSON et al. Use of gaussian beam divergence to compensate for misalignment of underwater wireless optical communication links. IET Optoelectronics, 11, 171-175(2017).
[17] M LI, T VU, G SANKII et al. Internal-Illumination photoacoustic tomography enhanced by a graded-scattering fiber diffuser. IEEE Transactions on Medical Imaging, 40, 346-356(2021).
[18] S NICO, R SIEGFRIED, A SERGIY. Investigations on the capability of the statistical extinction method for the determination of mean particle sizes in concentrated particle systems. Particle & Particle Systems Characterization, 35, 1800191(2018).
[19] Qianqian ZHANG, Jun GAO, Xiaohong XU et al. Analysis of multiple scattering polarization transmission properties. Chinese Journal of Lasers, 39, 190-197(2012).
[20] L G HENYEY, J L GREENSTEIN. Diffuse radiation in the galaxy. The Astrophysical Journal, 93, 70-83(1940).
[21] L H ZHANG, P Q PAN, S P ZHANG. On the local and superlinear convergence of a parameterized DFP method. Numerical Functional Analysis and Optimization, 35, 111-131(2014).
[22] J S ROBERT, L H SANDRA. Applied numerical methods for engineers using MATLAB and C(2004).