The size distribution and mean diameter were measured by laser light scattering technique.
动态激光粒度分析仪测定其平均粒径大小和分布;
The influence of the monomer, the ratio of water and acetone on the micelle size was investigated by dynamic laser light scattering.
采用动态激光光散射研究了接枝单体及水与丙酮的配比对胶束尺寸的影响。
Laser light scattering is one of the most efficient approaches exploring the dynamics of polymer and sub-micrometer particles in liquid.
激光散射是研究液体中高分子和亚微米颗粒动态行为的最有效方法之一。
The principle and method of calibrating and aligning the laser light scattering system were presented combined with the author's experience.
结合实践介绍了标定与调试激光光散射系统的原理和方法。
The application of laser light scattering to detect welding fume is theoretically analyzed in this paper as well as the corresponding detecting means is presented.
对应用激光散射方法检测焊接烟尘进行了理论分析,并给出了相应的检测手段。
The apparent molecular weight of the particles and their sizes and distribution were characterized by using static laser light scattering (SLLS) and dynamic laser light scattering (DLLS).
运用静态激光光散射和动态激光光散射对粒子的表观分子量及其粒径大小与分布进行了表征。
The morphological character and particle diameter ofCRVPESP and nano-Se were observed with scanning electron microscope, trans-mission electron microscope and laser light scattering image.
运用扫描、透射电镜和激光散射来观察和测量多糖与纳米硒的形貌特征及纳米粒径;
These techniques include Raman scattering, in which light returns with a shift in wavelength as a result of atomic or molecular laser excitation.
这项技术包含拉曼散射,这种散射指反射光会因为原子或分子的激发而有一个波长上的移动。
The study on laser transmission and scattering characteristics in complex environments is the basis research of light scattering from target and environment.
复杂环境中激光传输和散射特性是目标与环境光散射特性研究的基础。
The space and time interference of transparent polymer gels measured by laser static and dynamic light scattering, respectively.
采用静态和动态激光散射测量了透明聚合物凝胶结构的空间相关性和时间相关性。
The mechanism of coherent stimulated light scattering and the characteristics of the surface ripple in the laser interaction with materials is described.
叙述了激光与材料相互作用过程中引起相干受激光散射的机制,以及形成材料表面波纹的特性。
A detection method for obtaining the micro bulk defect size in semiconductive materials by analyzing near infrared laser scattering light distribution is presented.
提出了利用近红外激光散射光强分布分析来检测半导体材料内部微体缺陷的检测方法。
Because of obvious difference between expanding light source and laser source, it appears different scattering peculiarity while they project to a random rough cylinder.
扩展面光源如太阳光与激光光源有明显的差异,因此它们照射到随机粗糙柱面后的散射特性也不同。
Natural light, scattering light and diffracted ray are removed effectively with those methods. Then, laser spot keeps stable, system precision is improved and an ideal result is obtained.
这些预处理方法有效地消除了自然光线、散射光线和衍射光线对系统的干扰,使激光光斑图像保持稳定,起到提高系统精度的作用,得到了较为理想的结果。
In the present paper, the possibility of generation of Raman spectra using polychromatic light instead of laser is discussed based on the theory of Raman scattering.
探讨用多色光代替激光作为拉曼光源的新型拉曼光谱仪的可能性。
A theoretical model of laser phase - doppler sizing anemometer based on the geometrical optics approximation of light scattering is studied.
研究和建立了以几何光学近似光散射理论为基础的激光相位多普勒空间干涉条纹模型。
Furthermore, we have also studied and discussed the conditions of formation of laser-induced self-diffraction and its competition behavior with photo-induced light scattering.
文中还实验研究与讨论了光感应自衍射的形成条件及其与光感应光散射的竞争关系。
This thesis is mainly concentrated on the light scattering by fogs and it affects control and guide of laser-guided-bomb and the light scattering characteristic of satellite's surface.
本论文较系统地研究了雾粒子散射及其在激光制导炸弹中的应用和卫星表面的光散射特性。
It USES a laser diode as light source and a linear photodiode array to record the light-scattering band, which correlated to the surface roughness.
它利用半导体激光器为光源,光电二极管阵列接收与表面粗糙度具有对应关系的散射光带。
In the aspect of laser guide, when it is low visibility, the light scattering by fogs must affect laser-guided-bomb's work, such as the precision of guide decreases or cannot hit the target.
在激光制导技术方面,由于大气粒子对激光制导炸弹的影响十分明显,在能见度比较低的天气情况下,激光制导炸弹命中目标的精度就会降低以至偏离目标甚至不能命中目标。
The particle diameter and its polydispersity were determined with laser dynamic light-scattering method.
采用激光动态光散射法检测粒度与粒度分布。
The interaction between particles and laser beam is studied and the numerical calculation of physical quantities of light scattering are also performed.
完成了颗粒与激光之间的相互作用的研究,完成了光散射物理参数量的数值计算。
The interaction between particles and laser beam is studied and the numerical calculation of physical quantities of light scattering are also performed.
完成了颗粒与激光之间的相互作用的研究,完成了光散射物理参数量的数值计算。
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