Chinese translation for "散射现象"

scattering phenomenon

Related Translations:

窗散射:  window scattering

散射电势:  scattering potential

线性散射:  linear scattering

自然散射:  natural scattering

散射频率:  scattering frequency

散射阈:  scattering threshold

光学散射:  optical scattering

散射噪声:  scattered noisescattering noise

异常散射:  anomalous scattering

散射角:  angle of dispersionangle of incidenceangle of scatteringscatter anglescattered anglescattering anglescatteringangle

Example Sentences:

	1.	So scattering cannot explain why coarse sand looks darker 所以，散射现象并不能用来解释为什么粗沙看来较深色。
	2.	In this paper , we do research about the nonideal scattering centers 本文的研究围绕各种非理想散射现象而展开。
	3.	The study of nano - materials has attracted tremendous attentions because of their potential utilities in many fields 利用其优良的共振光散射现象，建立了测定生物大分子的新的体系。
	4.	For examples , observation of the gravitational lens phenomenon and the scattering phenomenon produced by microwave background radiation and hot plasmas from galaxies clusters ，例如利用引力透镜现象及微波背景辐射与星系团的热等离子体造成的散射现象等等。
	5.	( 4 ) light - induced scattering in sbn : 61 : cr crystals under applied fields and its suppression are studied . a new method is proposed that the scattering light can be suppressed through erasure of scattering gratings by higher power pump beam ( coherent or incoherent ) ( 4 )讨论了sbn 61 cr晶体在外加直流电场作用下的光感应光散射现象及其消除方法，提出通过引入另外一束相对高强度的光束(相干或者非相干) ，利用其对散射光栅的擦除作用消除信号光束的散射。
	6.	The research work presented in this dissertation provides an efficient approach to analyze the dielectric objects and metal - nonmetal composite objects ’ transient electromagnetic scattering phenomena , as well as a solid foundation for the further development in this subject 本文的工作为分析介质体、金属非金属组合目标时域电磁散射现象提供了有效的方法途径,也为运用时域积分方程求解结构更为复杂、尺寸更为电大的金属非金属组合目标的研究打下了坚实的基础。
	7.	A monte carlo algorithm was presented to model the relation between the scattering phenomenon , depolarization changes and sea water depth , it is discovered that the radius of scattering point and the degree of depolarization increase with increasing of the sea water depth . at last , a optical engineering software ( lighttools ) is introduced to simulate optical scattering in the deep sea water , and studys the corelation between scattering and relative refractive index , particle density and particle size in the sea water . the experiment results show that the intensity of scattering will increase evidently with the increasing of particle size , particle density and relative refractive index . the methods and results in the article provide the basic theory and experiment validation for improving performance of communication , detection and imaging under sea water 本文以球形粒子的mie散射理论、 stokes矢量法以及mueller矩阵来研究海水的散射特性和散射中的退偏振度变化;通过montecarlo方法模拟蓝绿激光在海水传输过程中的散射现象以及散射中的退偏度变化与海水深度的关系,发现随着海水深度的增加,散射后的光斑半径、退偏振度将逐渐增大。最后通过光学工程软件( lighttools )对海水中的散射进行仿真实验,研究散射与海水中粒子密度、粒子大小和相对折射率的关系。实验结果表明,随着粒子半径、粒子密度和相对折射率的增加,散射的强度将显著增加。
	8.	When various diameter particles are irradiated by a collimated laser light beam , light scattering phenomenon takes place , and the scattering light parameter include the information of the particles size distribution . mie scattering theory is the fundamental principle of the particle size measuring instruments and its computations are complicate 微型化雾粒粒径分布测量仪的测量原理是米氏光散射理论，当不同粒径的颗粒被平行激光束照射后，发生光散射现象，散射光的参数包含有被测颗粒粒径的信息，但其数值计算量大且复杂。
	9.	As far back as the 19th century , the english scientist lord rayleigh studied how light bounces off molecules air molecules included and pointed out that the amount of such scattering , i . e . change from the original direction of light , varies inversely with the wavelength in technical terms , inversely proportional to the 4th power of the wavelength 早于19世纪，英国科学家雷利勋爵研究光线遇上分子包括空气分子时会出现改变方向的散射现象，并指出其散射程度与波长成反比。严格来说，应是和波长四次方成反比。
	10.	As far back as the 19th century , the english scientist lord rayleigh studied how light bounces off molecules ( air molecules included ) and pointed out that the amount of such scattering , i . e . change from the original direction of light , varies inversely with the wavelength ( in technical terms , inversely proportional to the 4th power of the wavelength ) 早于19世纪，英国科学家雷利勋爵研究光线遇上分子（包括空气分子）时会出现改变方向的散射现象，并指出其散射程度与波长成反比。 （严格来说，应是和波长四次方成反比） 。

Similar Words：

"散射误差" Chinese translation, "散射吸收" Chinese translation, "散射吸收系数" Chinese translation, "散射系泊定位钻井船" Chinese translation, "散射系数" Chinese translation, "散射线" Chinese translation, "散射线屏蔽" Chinese translation, "散射线束" Chinese translation, "散射线遮挡" Chinese translation, "散射响应抗扰性" Chinese translation