Mobile
Log In Sign Up
Home > chinese-english > "mie theory" in English

English translation for "mie theory"

米氏理论

Related Translations:
mie:  米氏三边三柄三江三枝三重县心肌梗塞延展主中断启动苋咩 乜 灭
mie nanamori:  七森美江写真集
odagi mie:  美惠
mie scatter:  米氏散射
namori mie:  七森
mie prefecture:  三重县
mie hama:  滨美枝
mie scattering:  米散射米氏散射
mie university:  三重大学
mie chiba:  千叶美惠
Example Sentences:
1.When the diameter of the particles satisfied some conditions , mie theory is approximate to fraunhofer diffraction theory
当颗粒粒径满足一定条件时,米氏光散射可以用夫琅和费衍射来近似。
2.For a single sphere , t matrix method is compared with mie theory in both equation expression and numerical results
首先从理论公式及数值计算两方面分别对单个球形粒子的t矩阵与经典的mie理论进行了比较,讨论了其各自的适用范围。
3.To solve this problem , the method based on scattering is deduced in this paper . this method can work effectively when the concentration is low . based on mie theory , this method measure the concentration by calculating the scattering light intensity
为了解决透射法无法很好测量低浓度粉尘的问题,本文主要研究了基于光散射测量粉尘浓度的方法,该方法能解决上面的低浓度测量时的问题。
4.On the basis of lorenz - mie theory , this paper is devoted to the research on characteristics of intensity and spectrum distributions of each order rainbow for a homogeneous particle , with the usage of geometric optics theory , airy theory and debye theory
本文基于小粒子散射的lorenz mie理论,结合彩虹的其它理论(几何光学理论、 airy理论、 debye理论)研究了均匀球、柱粒子各阶彩虹强度分布和频谱特点。
5.The simulation of debye theory and the experimental results can prove the results obtained . the relation of ripple frequency of the second rainbow with the diameter of particle is simulated by lorenz - mie theory , and used in particle sizing with high precision
利用lorenz mie理论模拟了均匀粒子二阶彩虹的ripple频率与粒子直径的关系,获得了ripple频率与直径的经验公式,并用于粒子直径的实验测量中,测量精度很高。
6.The characteristics of each rainbow for an inhomogeneous particle are studied here using lorenz - mie theory . the relation of the positions of airy peaks to each order rainbow with the profile of refractive index is simulated and discussed , which is compared with the results simulated by ray tracing theory
本文还利用lorenz mie理论分析了非均匀球粒子各阶彩虹的强度和频谱分布特点,利用ifft方法重建了各阶彩虹的强度分布;分析研究了各阶彩虹的airy峰角位置与折射率分布的关系,并与非均匀粒子射线追迹理论的模拟结果进行比较。
7.In the first part , the basic knowledge of particle scattering in meteorology and physics was introduced . the particles to be discussed include aerosol particles , fog droplets and raindrops and the em wave band in the discussion is near - infrared . in the second part , the mie theory was briefly reviewed and was applied to investigate the scattering characteristics of spherical atmospheric particles , the result shows that in the visibility measurement meter using forward - scattering method , when the working wavelegth is between 0 . 8 m ~ 2 m , the scattering angle is between 25 ~ 40 , the distinguishability and the relative scattering intensity would be better than those under other conditions . in the third part , the superellipsoid was used to describe a wide range of shapes such as spheres . ellipsoids and cylinders . an improved t - matrix method which can be used to calculate arbitry shaped particle ' s scattering field was introduced , and the scattering characteristics of non - spherical atmospheric particles was investigated with this method
计算结果表明,从相对散射强度、同一方向上不同粒子散射的可区分程度来看,在散射式能见度探测仪器中,工作波长介于0 . 86 m 2 m ,探测角度选取前向25度40度时,探测的结果将会是比较理想的。第三部分中,使用超椭球方程来统一描述各种非球形粒子的形状,然后使用t矩阵方法计算了一些形状的非球形粒子的近红外散射特性。另外,在本文中还针对球形粒子的散射场提供了一种三维可视化方法,使对散射场强度的空间分布的理解更加简单,直观。
8.We find that the change of distance between lens and sample cell will result in the change of lower limit of measurement . analysis of mie theory indicate that , at the position of 7 ? angle relative to optical axis , normalization light scattering energy increases followed by the increase of particle size , but at the angle of 35 ? , the trend is opposite
并从理论上分析了亚微米级颗粒粒径与归一化散射光能量的关系,指出在与光轴成7夹角的位置,归一化散射光能量随着粒径的减小而减小;在35角处,归一化散射光能量随着粒径的减小而增大。
Similar Words:
"mie scattering intensity" English translation, "mie scattering parameter" English translation, "mie sonozaki" English translation, "mie suzuki" English translation, "mie takahashi" English translation, "mie university" English translation, "mie watanabe" English translation, "mie yamamoto" English translation, "mie yoshida" English translation, "mie zaki" English translation