The generalized Lorenz-Mie scattering theory and algorithm of Gaussian beam

机译：高斯光束的广义Lorenz-Mie散射理论和算法

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This paper According to the local approximate solution and finite series expression to the beam coefficients presented by Gouesbet and otherwise, we put forword a comprehensive recursive continued fraction algorithm and modify the defect of the existing algorithm, three key functions in scattering light intensity are recursively operated respectively, Mie scattering coefficient is obtained by using backward-recursive continued fraction algorithm, the highest recursive term is created automatically by computer and data fitting, the operation of angle function is carried out with Time forward-recurrence method, the beam coefficients equal to the local approximate solution and finite series expression, the relationship between scattering light intensity, gridling radius, particle size parameterer, relative refractive index and scattering angle is simulated based on MATLAB program and numerical calculation.

机译：本文根据Gouesbet等人提出的光束系数的局部近似解和有限级表达式，提出了一种综合递归连续分数算法，并修正了现有算法的缺陷，对散射光强度的三个关键函数进行了递归运算。分别使用后向递归连续分数算法获得Mie散射系数，通过计算机和数据拟合自动创建最高递归项，使用时间前向递归方法进行角度函数运算，射束系数等于利用MATLAB程序和数值计算方法，通过局部近似解和有限级数表达式，散射光强度，网格半径，粒度参数，相对折射率和散射角之间的关系得到了模拟。

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来源
《International symposium on photoelectronic detection and imaging;ISPDI 2011》|2012年|p.81961R.1-81961R.4|共4页
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BI Yi-ming; WANG Lian-fen; LI Yu-xin; ZHAO Jian-gang;
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中图分类光电子技术的应用;
关键词
atmosphere scattering; scattering intensity; numerical calculation; recursion algorithm;

机译：大气散射散射强度数值计算递归算法;

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专利

1. Cylindrical localized approximation to speed up computations for Gaussian beams in the generalized Lorenz-Mie theory for cylinders, with arbitrary location and orientation of the scatterer [J] . Gerard Gouesbet, Kuan Fang Ren, Loic Mees Applied optics . 1999,第12期

机译：圆柱局部近似，可加快广义Lorenz-Mie圆柱理论中高斯光束的计算，并具有任意位置和方向的散射体
2. Scattering of a Gaussian beam by an infinite cylinder in the framework of generalized Lorenz-Mie theory: formulation and numerical results [J] . K. E Ren, G. Gréhan, G. Gouesbet Journal of the Optical Society of America, A. Optics, image science, and vision . 1997,第11a12期

机译：广义Lorenz-Mie理论框架内无限圆柱对高斯光束的散射：公式和数值结果
3. Fundamentals of negative refractive index optical trapping: forces and radiation pressures exerted by focused Gaussian beams using the generalized Lorenz-Mie theory [J] . Leonardo A. Ambrosio, Hugo E. Hernández-Figueroa Biomedical Optics Express . 2010,第5期

机译：负折射率光学陷阱的基本原理：使用广义Lorenz-Mie理论的聚焦高斯光束施加的力和辐射压力
4. Progress in light scattering theory (generalized Lorenz-Mie theory) and applications to optical particle sizing [C] . G.Gouesbet, G.Grehan International conference on fluid dynamic measurement and its applications;ICFDMA . 1997

机译：光散射理论（广义Lorenz-Mie理论）的进展及其在光学粒子定径中的应用
5. Scattering of sound by sound from Gaussian beams and parametric reception near a reflecting surface. [D] . Darvennes, Corinne Marcelle L. 1989

机译：来自高斯光束的声音和反射表面附近的参数接收对声音的散射。
6. Fundamentals of negative refractive index optical trapping: forces and radiation pressures exerted by focused Gaussian beams using the generalized Lorenz-Mie theory [O] . Leonardo A. Ambrosio, Hugo E. Hernández-Figueroa 2010

机译：负折射率光学陷阱的基本原理：使用广义Lorenz-Mie理论的聚焦高斯光束施加的力和辐射压力
7. Fundamentals of negative refractive index optical trapping: forces and radiation pressures exerted by focused Gaussian beams using the generalized Lorenz-Mie theory [O] . Ambrosio, LA, Hernandez-Figueroa, HE 2015

机译：负折射率光学陷阱的基本原理：使用广义Lorenz-Mie理论的聚焦高斯光束施加的力和辐射压力

The generalized Lorenz-Mie scattering theory and algorithm of Gaussian beam

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