中国光学(中英文)2026,Vol.19Issue(1):85-95,11.DOI:10.37188/CO.2025-0126
Mie-T矩阵耦合的沙尘多次散射效应表征与Monte Carlo验证
Characterization of multiple scattering effects in dust particles via Mie-T-Matrix coupling and Monte Carlo verification
摘要
Abstract
To accurately quantify the attenuation of visible light in urban optoelectronic systems during dust weather,we establish a predictive model that integrates corrections for non-spherical particles,using the Ho-hhot region as a case study.Utilizing Mie scattering theory alongside scanning electron microscopy and en-ergy-dispersive X-ray spectroscopy data from local dust samples,the extinction characteristics of dust particles in typical red green and blue wavebands were calculated.Scattering parameters for non-spherical particles were corrected via the T-matrix method.Photon multiple scattering was then simulated with the Monte Carlo method to systematically compare attenuation rates between single and multiple scattering mod-els.The results demonstrate that the single-scattering model systematically overestimates the attenuation rate,with a maximum error of 18.3%in the blue band.After multiple scattering correction,the attenuation rate de-creased by an average of 12.4%.In this case,when the visibility is 400 meters,the attenuation rate for blue light was approximately 95 dB/km,significantly exceeding the value of 70 dB/km for red light.The hybrid model developed significantly enhances the prediction accuracy for visible light attenuation in dusty environ-ments,elucidating the critical roles of multiple scattering effects.This work provides a reliable theoretical and data-driven foundation for optimizing urban optoelectronic systems in dust-prone conditions.关键词
沙尘天气/消光系数/Mie散射理论/T矩阵法/Monte Carlo模拟/可见光Key words
dust weather/extinction coefficient/Mie scattering theory/T-matrix method/Monte Carlo simu-lation/visible light propagation分类
信息技术与安全科学引用本文复制引用
汤牧云,朝克夫,华文成,崔存森..Mie-T矩阵耦合的沙尘多次散射效应表征与Monte Carlo验证[J].中国光学(中英文),2026,19(1):85-95,11.基金项目
国家自然科学基金(No.12164034),鄂尔多斯市重点研发计划(No.YF20240032)Supported by National Natural Science Foundation of China(No.12164034) (No.12164034)
Key Research and Development Program of Ordos(No.YF20240032) (No.YF20240032)
