气溶胶的近场单散射计算:敏感性研究

3区 物理与天体物理 Q1 Materials Science Progress in Optics Pub Date : 2023-06-14 DOI:10.3390/opt4020028
N. A. Arreyndip, K. Kandler, Aryasree Sudharaj
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引用次数: 0

摘要

我们模拟了气溶胶的光敏参数对其光学性质的影响,为进一步的实验和理论研究提供了坚实的框架。用球形尘埃粒子研究了环境介质、粒径、表面粗糙度、波长和复折射率虚部的影响。模拟了5个不同长径比的高斯随机球,研究了气溶胶光散射特性与粒子形状分布的关系。为了研究成分的影响,我们模拟了从西南撒哈拉收集的两种典型的高岭石样颗粒(纯和复合),在不同的混合状态下含有0%和2%的赤铁矿。利用离散偶极近似的方法,以Mueller矩阵元素、散射、吸收、消光效率、单散射反照率和线性退极化比为指标,进行了比较研究。对于单个微尘粒子,进行近场计算。结果表明,与干燥空气相比,水中的后向散射强度和散射效率有所降低。可见光范围内的光对气溶胶散射实验更有效。样品中少量杂质会增加其吸收性能,但一般来说,散射效率强烈依赖于单颗粒混合状态。直径与入射光波长相当的小颗粒比大颗粒具有更高的散射效率,但后向散射强度较低,而表面粗糙度会强烈改变颗粒的极化率,但对其单次散射反照率的影响可以忽略不计。此外,不同的形状对线极化程度有很强的影响,但一般来说,使用球形比椭圆形状模型可以低估散射效率高达4%。最后,复RI虚部的变化对单次散射反照率的低估可达35.8%。
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Near-Field Single-Scattering Calculations of Aerosols: Sensitivity Studies
We model the effects of the photosensitive parameters of aerosols on their optical properties to provide a solid framework for further experimental and theoretical studies. A spherical dust particle is used to study the effects of the ambient medium, size, surface roughness, wavelength, and imaginary part of the complex refractive index. Five Gaussian random spheres with different aspect ratios are simulated to study the dependence of aerosol light scattering properties on particle shape distribution. To investigate the influence of composition, we model two typical kaolinite-like particles (pure and composite) collected from Southwest Sahara, with 0 and 2% hematite at different mixing states. Using the method of discrete-dipole approximation in DDSCAT, a comparative study is performed with the Mueller matrix elements, scattering, absorption, extinction efficiencies, single scattering albedo, and linear depolarization ratio as indicators. For single, microscopic dust particles, near-field calculations are carried out. The results show that the intensity of backscattering and the scattering efficiency decreases in water compared to dry air. Light in the visible range is more efficient for aerosol scattering experiments. A small number of impurities in the sample will increase its absorbing properties, but, in general, the scattering efficiencies strongly depend on the single-particle mixing state. Smaller particles with a diameter comparable to the wavelength of incident light show higher scattering efficiencies but lower backscattering intensities than larger particles, while surface roughness is shown to strongly alter the polarizability of the particle but has a negligible effect on its single-scattering albedo. Moreover, different shapes have a strong effect on the degree of linear polarization, but, in general, using the spherical over elliptic shape model can underestimate the scattering efficiencies by up to 4%. Finally, variation in the imaginary part of the complex RI can underestimate the single scattering albedo by up to 35.8%.
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来源期刊
Progress in Optics
Progress in Optics 物理-光学
CiteScore
4.50
自引率
0.00%
发文量
8
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