F. Rzayeva, A. M. Efendiyev, Nargiz A. Isayeva, Amirullah M.Mamedov
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引用次数: 1
摘要
用T矩阵法求解了复折射率为1.33018-2:09 x 10i(浸入水中)的随机取向非球面非均匀结构的电磁问题。球型红细胞/白细胞在各种情况下的光散射特性是用所谓的米氏理论得到的。在本研究中,假设球形红细胞的半径为2:78 mm;使其体积相当于实际红细胞的平均体积,并由1 / 4 873 nm的平面波照射。在每种情况下,T矩阵元素通过数值积分得到。对含氧血红蛋白的红细胞/白细胞和浸泡在水中的红细胞/白细胞的比较,以及对大的、随机定向的球体的结果表明,散射过程的适用范围取决于折射率的虚部,并且随着散射矩阵的不同元素而改变。
Mie Tyndal scattering of spheroidal RBC and WBC: T-matrix calculations
The electromagnetic problem has been solved for randomly oriented nonspherical and inhomogeneous structures with complex refractive indices 1.33018–2:09 x 10i (immersed in water) due to the T -matrix method. The light scattering properties of spheroidal erythrocytes/leukocytes for each condition were obtained using so-called Mie theory. In this study, the spheroidal erythrocyte is assumed to have a radius of 2:78 mm; giving it a volume equivalent to the average actual erythrocyte, and is illuminated by a plane wave of l 1⁄4 873 nm: The T -matrix elements are obtained by numerical integration in each condition. Comparisons for erythrocytes/leukocytes with oxygenated hemoglobin and immersed in water, and its results for large, randomly oriented spheroids, show that the applicability range of the scattering process depends on the imaginary part of the refractive index and is changed for different elements of the scattering matrix.
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