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光电技术是信息化建设和国防科技工业的重要支撑技术,在实现装备现代化进程中占据着重要地位.本文论述了光电集成技术的重要性,总结了其主要的研究内容,对今后的发展提出了相应的建议. 相似文献
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光学合成孔径成像技术及发展现状 总被引:1,自引:0,他引:1
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颗粒物Mie散射对差分吸收光谱技术的影响 总被引:1,自引:0,他引:1
差分吸收光谱法(DOAS)应用于固定污染源烟气排放在线监测时,由于烟气中烟尘颗粒物含量较高,烟尘颗粒物Mie散射引起的消光对准确反演气体浓度应有一定影响,通过对1~10μm烟尘颗粒物Mie散射对DOAS影响的数值模拟和实验研究得出,烟尘颗粒物的散射光强与颗粒粒径分布、颗粒数密度有关,随着颗粒粒径和颗粒数密度增加,气体的差分吸收度随之而增加,差分吸收度曲线的频率特性发生变化,传统DOAS算法中的应用多项式滤波已无法消除颗粒物Mie散射对气体差分吸收度的影响,气体浓度的反演结果远远偏离真实值. 相似文献
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A scattered light photometer which monitors the particle number concentration of aerosols is described. The photometer measures the scattered light from illuminated submicron particle clouds with known material properties at certain scattering angles. Intensity ratios in combination with the degree of polarization are used to determine the mean particle diameter and the geometric standard deviation of an assumed log-normal particle size distribution. The determination of the particle size distribution is based on an algorithm which compares the measured and calculated (Mie theory) relative intensity quantities described. Furthermore, the particle number concentration is monitored from a single absolute intensity measurement at one scattering angle. In order to obtain quantitative results a spherical particle shape is required. 相似文献
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基于偏振门的动态光散射颗粒测量法的研究 总被引:1,自引:1,他引:0
为了解决动态光散射纳米颗粒测量技术无法测量高浓度颗粒粒径的难题,提出了一种基于偏振门的动态光散射测量法。从动态光散射和Mie理论出发,理论分析了在高浓度溶液下多重散射效应对散射光偏振态和颗粒粒度测量结果的影响。根据散射光偏振特点,结合偏振门检测技术,改进了传统的动态光散射光学系统。实验研究了在低浓度和高浓度溶液时,不同偏振角度下的散射光强和粒度测量值,完善了散射光的偏振理论。采用90°偏振门检偏,通过各种浓度下的实验,证明了方法的可行性。该方法较之目前同类方法具有原理和结构简单,系统易于维护的特点。 相似文献
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Jianqi Shen Ulrich Riebel Xiaoai Guo 《Particle & Particle Systems Characterization》2005,22(5):320-328
The angular distribution of scattered light and the transmission of radiation through a monolayer of monodisperse spherical particles at variable particle concentration are studied. The scattering of light by a single particle is calculated with the classical Lorentz‐Mie theory. For a monolayer of mono‐dispersed spherical particles, if the monolayer density is less than 0.5 and the particle size parameter is larger than 5, effects from multiple scattering and dependent scattering can be excluded so that only steric interactions are considered. It is found that the scattering pattern, especially in the forward and backward directions, and the transmission are strongly dependent on the monolayer density. 相似文献
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简单介绍了以经典Mie理论为基础的光散射测量技术在颗粒直径和颗粒浓度测量中广泛的应用。分别以Mie理论和离散偶极子近似理论(DDA)为基础, 用数值计算方法分析了球型颗粒的光散射特性,给出了微小颗粒对平行入射光散射的强度函数和散射偏振度的数值计算方法。得到了强度函数和偏振度随相关物理参量变化的三维图,为微小颗粒散射研究提供了一种三维视图。计算结果表明:当尺度参量x<4时,2种方法所得结果差异不大;随尺度参量增大,2种方法所得结果出现较大差异。与经典Mie理论相比,由于离散偶极子近似理论可以解决各种形状的颗粒散射问题,其应用前景更广泛。 相似文献
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研究了球形粒子在聚焦拉盖尔-高斯光束中的散射特性. 根据广义Mie理论, 推导出球形粒子在聚焦拉盖尔-高斯光束中散射系数的解析公式. 针对光束的电场分布及粒子散射强度进行了数值仿真, 讨论了散射强度随散射角、散射球粒子半径和拓扑荷的变化特性, 并通过散射系数解释了散射强度分布的振荡现象. 结果表明, 在聚焦拉盖尔-高斯光束照射下, 球形粒子的后向散射强度随着粒子半径的增大而逐渐增大; 后向散射强度开始增大时对应的粒子半径与拓扑荷有关. 通过与高斯光束的对比, 可以看出球形粒子在聚焦拉盖尔-高斯光束中散射特性的差异, 使其在粒径测量、光通信和大气后向散射探测等方面具有潜在应用价值. 相似文献
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A simple method of characterization of suspensions of spherical nanoparticles with monotonically variable size is proposed. It allows for the in situ measurement of the particle size as well as spectral dependence of their refractive indices. The method requires three optical channels: one for the illumination of a suspension by white light and two for the measurements of the spectra of scattered light. Parameters of the particles are determined by fitting the measured temporal spectral surfaces by the calculated Mie scattering functions. The method is applied to the particles being grown in a low-pressure reactive plasma of a discharge in an acetylene-argon mixture. 相似文献
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Nobuo Sugimoto 《Optical Review》2000,7(3):235-240
The concept of a pulsed bistatic lidar for measuring water cloud particle size is presented. The method uses a two-color laser and a receiver with a polarization analyzer located at a suitable scattering angle. The dependence of Mie scattering on scattering angle, wavelength, and polarization is used to derive water cloud droplet size. The measurement was simulated for the C1 and C2 clouds, and the technique for determining mode radius was studied. The result shows the lidar system with a two-wavelength laser (1064 nm and 532 nm) and a dual-polarization receiver fixed at a scattering angle of around 178 deg can be used to measure a cloud particle size (mode radius) of 4 to 12 μm. Evaluation of the effect of multiple scattering showed that the method can be applied not only for the measurement at the cloud base but also in the cloud where multiple scattering is not negligible. 相似文献
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体散射液晶导光板的光线追迹模拟 总被引:5,自引:0,他引:5
体散射集成导光板是一种新型的液晶背光照明系统设计。基于多重米氏(Mie)散射理论和蒙特卡罗(Monte Carlo)顺序抽样方法,对该类型导光板进行了光线追迹模拟计算与仿真设计。研究了填充粒子材料、粒径、浓度及导光板几何结构等光学参量对输出光强面分布均匀性、照明角度等背光性能的影响,并进行了初步的实验验证及设计评估。研究表明,各光学参量十分敏感,且相互制约,必须进行大量的优化计算才能获得符合实际需要导光板设计方案。导光板输出光面分布的均匀度主要由填充粒子浓度决定,视角特性主要由导光板尺寸,特别是底面倾角决定,色散程度则主要和填充粒子的直径和折射率有关。 相似文献