Multiparameter Spectrophotometry Platform for Turbid Sample Measurement by Robust Solutions of Radiative Transfer Problems
Autor: | Jun Q. Lu, Xin-Hua Hu, Yonghong Qin, Stephen M. Mutisya, Lin Zhao, Jiahong Jin, Peng Tian |
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Rok vydání: | 2021 |
Předmět: |
Physics
Scattering Mie scattering 020208 electrical & electronic engineering Monte Carlo method Inverse 02 engineering and technology Light scattering Computational physics Robustness (computer science) 0202 electrical engineering electronic engineering information engineering Radiative transfer SPHERES Electrical and Electronic Engineering Instrumentation |
Zdroj: | IEEE Transactions on Instrumentation and Measurement. 70:1-10 |
ISSN: | 1557-9662 0018-9456 |
DOI: | 10.1109/tim.2020.3032184 |
Popis: | Multiparameter spectrophotometer instruments based on the radiative transfer (RT) theory differ fundamentally from conventional ones in their ability to determine absorption and scattering coefficients and anisotropy factor. Ease of use and robustness of inverse solutions are of necessity for general-purpose applications. We have developed a new instrument platform design incorporating a compact three-photodiode detection configuration without integrating spheres, four-channel signal-processing unit, and Monte Carlo (MC) simulation-based software for accurate and rapid inverse solutions. To verify the platform design, two sphere suspension samples of different size distributions were measured and RT parameters were determined by a sample model with the Henyey and Greenstein (HG) phase function between 460 and 1000 nm. System validation is achieved by comparison of the RT parameters and spectral dependence against the results by Mie theory for single-sized spheres of nominal diameter values. Five wavelengths from 560 to 960 nm were selected for quantitative evaluation of the robustness of the HG sample model and two Mie theory-based sample models assuming light scattering by independent and single spheres. We found that only the HG-based sample model yields high accuracy and strong robustness for inverse determination of RT parameters even for the cases of sphere suspensions in which the assumptions of sample uniformity and scattering by independent and single spheres are not satisfied. These results demonstrate that the new platform with MC simulation-based inverse algorithm combined with the HG sample model is capable of robust and rapid measurement of RT parameters for turbid samples with optical thickness up to 30. |
Databáze: | OpenAIRE |
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