Quantitative Speckle Analysis to Estimate Surface Particle Size Distribution

Qihang Zhang; Janaka C. Gamekkanda; Ajinkya Pandit; Wenlong Tang; Charles Papageorgiou; Neda Nazemifard; Yihui Yang; Michael Schwaerzler; Tolutola Oyetunde; Richard D. Braatz; Allan S. Myerson; George Barbastathis; George Barbastathis

doi:10.1364/COSI.2023.CW5B.4

Optica Imaging Congress (3D, COSI, DH, FLatOptics, IS, pcAOP)
Technical Digest Series (Optica Publishing Group, 2023),
paper CW5B.4
•https://doi.org/10.1364/COSI.2023.CW5B.4

Quantitative Speckle Analysis to Estimate Surface Particle Size Distribution

Qihang Zhang, Janaka C. Gamekkanda, Ajinkya Pandit, Wenlong Tang, Charles Papageorgiou, Neda Nazemifard, Yihui Yang, Michael Schwaerzler, Tolutola Oyetunde, Richard D. Braatz, Allan S. Myerson, and George Barbastathis

Computational Optical Sensing and Imaging 2023

Boston, Massachusetts United States
14–17 August 2023
ISBN: 978-1-957171-28-9

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Imaging Through Dynamic Scattering Media (CW5B)

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Q. Zhang, J. C. Gamekkanda, A. Pandit, W. Tang, C. Papageorgiou, N. Nazemifard, Y. Yang, M. Schwaerzler, T. Oyetunde, R. D. Braatz, A. S. Myerson, and G. Barbastathis, "Quantitative Speckle Analysis to Estimate Surface Particle Size Distribution," in Optica Imaging Congress (3D, COSI, DH, FLatOptics, IS, pcAOP), Technical Digest Series (Optica Publishing Group, 2023), paper CW5B.4.

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Abstract

We established a relationship between speckle autocorrelations and surface statistics. A machine learning algorithm is developed based on this relationship to estimate the powder particle size distribution from laser speckle patterns.

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