1) optical cross section
光学截面
1.
Numerical calculation of optical cross section and scattering matrix for soot aggregation particles;
烟尘簇团粒子光学截面和散射矩阵的数值计算
2.
Calculation of optical cross sections and infraed emissivity spectra of ZnS microparticle;
ZnS微粒子的光学截面及红外发射率光谱的计算
3.
The relationships between optical cross section of soot particles and the changing incident angles were analyzed combining with the Muller matrix.
基于离散偶极子近似方法,计算了烟尘粒子的光学特性,得到了烟尘粒子的光学截面随入射角的变化关系,结合Muller散射矩阵,给出了不同入射角情况下烟尘粒子散射强度和极化度的角分布,为研究电磁信号在烟尘中的传输提供了一种理论方法。
2) Optic section
光学截面
1.
Moreover,the distributions of scattering intensity and scattering angle,polarization rate and scattering angle,scattering intensity and size parameter X,optic section and particle\'s radius were presented.
应用Mie散射理论对紫外光下TiO2微粒光散射特性进行了理论分析与数值计算,得到了散射强度分布、偏振度与散射角、散射强度与参数X以及光学截面与粒子半径的关系。
3) Cross section polishing
截面抛光
4) Extinction section
消光截面
5) intensity distribution in cross-section
截面光强
1.
Based on the theory of diffraction integral,the optical field distribution of plane wave passing through an axicon is given,and he intensity distribution in cross-section of Bessel beam is simulated.
由衍射积分理论给出平行光通过轴棱锥后的光场分布表达式,模拟得到Bessel光束截面光强分布图。
6) extinction cross section
消光截面
1.
The extinction cross section, scattering cross section, and scattering intensity distribution function of Al 2O 3micro-particles imbedded in polymer have been calculated using Aden s and Kerker s theory on Mie scattering.
Kerker微粒子 Mie散射理论计算了处于高分子介质中的Al2 O3微粒子的消光截面、散射截面以及散射强度分布函数 ,并和它们在空气介质中的结果进行了比较。
2.
Under the correspond-ing conditions of the three methods,the caiculated scattering and extinction cross sections arein ged agreement with those of MIE theory.
在三种近似各自适用的条件下,计算的散射与消光截面同MlE解符合很好,最后对粒子尺寸及波长与结果的相关性以及三种近似的运用范围进行了讨论。
补充资料:Cu/NbTi加工锭截面
Cu/NbTi加工锭截面
Cu/NbTi加工锭截面
说明:补充资料仅用于学习参考,请勿用于其它任何用途。
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